Kathmandu Durbar Square (Nepali: वसन्तपुर दरवार क्षेत्र, Basantapur Darbar Kshetra) in front of the old royal palace of the former Kathmandu Kingdom is one of three Durbar (royal palace) Squares in the Kathmandu Valley in Nepal, all of which are UNESCO World Heritage Sites.

 

Several buildings in the Square collapsed due to a major earthquake on 25 April 2015. Durbar Square was surrounded with spectacular architecture and vividly showcases the skills of the Newar artists and craftsmen over several centuries. The Royal Palace was originally at Dattaraya square and was later moved to the Durbar square.

 

The Kathmandu Durbar Square held the palaces of the Malla and Shah kings who ruled over the city. Along with these palaces, the square surrounds quadrangles, revealing courtyards and temples. It is known as Hanuman Dhoka Durbar Square, a name derived from a statue of Hanuman, the monkey devotee of Lord Ram, at the entrance of the palace.

 

CONTENTS

HISTORY AND CONSTRUCTION

The preference for the construction of royal palaces at this site dates back to as early as the Licchavi period in the third century. Even though the present palaces and temples have undergone repeated and extensive renovations and nothing physical remains from that period. Names like Gunapo and Gupo, which are the names referred to the palaces in the square in early scriptures, imply that the palaces were built by Gunakamadev, a King ruling late in the tenth-century. When Kathmandu City became independent under the rule of King Ratna Malla (1484–1520), the palaces in the square became the Royal Palaces for its Malla Kings. When Prithvi Narayan Shah invaded the Kathmandu Valley in 1769, he favored the Kathmandu Durbar Square for his palace. Other subsequent Shah kings continued to rule from the square until 1896 when they moved to the Narayan Hiti Palace.

 

The square is still the center of important royal events like the coronation of King Birendra Bir Bikram Shah in 1975 and King Gyanendra Bir Bikram Shah in 2001.

 

Though there are no written archives stating the history of Kathmandu Durbar Square, construction of the palace in the square is credited to Sankharadev (1069–1083). As the first king of the independent Kathmandu City, Ratna Malla is said to have built the Taleju temple in the Northern side of the palace in 1501. For this to be true then the temple would have had to have been built in the vihara style as part of the palace premise surrounding the Mul Chok courtyard for no evidence of a separate structure that would match this temple can be found within the square.

 

Construction of the Karnel Chok is not clearly stated in any historical inscriptions; although, it is probably the oldest among all the courtyards in the square. The Bhagavati Temple, originally known as a Narayan Temple, rises above the mansions surrounding it and was added during the time of Jagajaya Malla in the early eighteenth century. The Narayan idol within the temple was stolen so Prithvi Narayan Shah replaced it with an image of Bhagavati, completely transforming the name of the temple.

 

The oldest temples in the square are those built by Mahendra Malla (1560–1574). They are the temples of Jagannath, Kotilingeswara Mahadev, Mahendreswara, and the Taleju Temple. This three-roofed Taleju Temple was established in 1564, in a typical Newari architectural style and is elevated on platforms that form a pyramid-like structure. It is said that Mahendra Malla, when he was residing in Bhaktapur, was highly devoted to the Taleju Temple there; the Goddess being pleased with his devotion gave him a vision asking him to build a temple for her in the Kathmandu Durbar Square. With a help of a hermit, he designed the temple to give it its present form and the Goddess entered the temple in the form of a bee.

 

His successors Sadasiva (1575–1581), his son, Shiva Simha (1578–1619), and his grandson, Laksmi Narsingha (1619–1641), do not seem to have made any major additions to the square. During this period of three generations the only constructions to have occurred were the establishment of Degutale Temple dedicated to Goddess Mother Taleju by Shiva Simha and some enhancement in the royal palace by Laksminar Simha.

 

UNDER PRATAP MALLA

In the time of Pratap Malla, son of Laksminar Simha, the square was extensively developed. He was an intellectual, a pious devotee, and especially interested in arts. He called himself a Kavindra, king of poets, and boasted that he was learned in fifteen different languages. A passionate builder, following his coronation as a king, he immediately began enlargements to his royal palace, and rebuilt some old temples and constructed new temples, shrines and stupas around his kingdom.During the construction of his palace, he added a small entrance in the traditional, low and narrow Newari style. The door was elaborately decorated with carvings and paintings of deities and auspicious sings and was later transferred to the entrance of Mohan Chok. In front of the entrance he placed the statue of Hanuman thinking that Hanuman would strengthen his army and protect his home. The entrance leads to Nasal Chok, the courtyard where most royal events such as coronation, performances, and yagyas, holy fire rituals, take place. It was named after Nasadya, the God of Dance, and during the time of Pratap Malla the sacred mask dance dramas performed in Nasal Chok were widely famed. In one of these dramas, it is said that Pratap Malla himself played the role of Lord Vishnu and that the spirit of the Lord remained in the king's body even after the play. After consulting his Tantric leaders, he ordered a stone image of Lord Vishnu in his incarnation as Nara Simha, the half-lion and half-human form, and then transferred the spirit into the stone. This fine image of Nara Simha made in 1673 still stands in the Nasal Chok. In 1650, he commissioned for the construction of Mohan Chok in the palace. This chok remained the royal residential courtyard for many years and is believed to store a great amount of treasure under its surface. Pratap Malla also built Sundari Chok about this time. He placed a slab engraved with lines in fifteen languages and proclaimed that he who can understand the inscription would produce the flow of milk instead of water from Tutedhara, a fountain set in the outer walls of Mohan Chok. However elaborate his constructions may have been, they were not simply intended to emphasize his luxuries but also his and the importance of others' devotion towards deities. He made extensive donations to temples and had the older ones renovated. Next to the palace, he built a Krishna temple, the Vamsagopala, in an octagonal shape in 1649. He dedicated this temple to his two Indian wives, Rupamati and Rajamati, as both had died during the year it was built. In Mohan Chok, he erected a three roofed Agamachem temple and a unique temple with five superimposing roofs. After completely restoring the Mul Chok, he donated to the adjoining Taleju Temple. To the main temple of Taleju, he donated metal doors in 1670. He rebuilt the Degutale Temple built by his grandfather, Siva Simha, and the Taleju Temple in the palace square. As a substitute to the Indreswara Mahadeva Temple in the distant village of Panauti he built a Shiva temple, Indrapura, near his palace in the square. He carved hymns on the walls of the Jagannath Temple as prayers to Taleju in the form of Kali.

 

At the southern end of the square, near Kasthamandap at Maru, which was the main city crossroads for early traders, he built another pavilion named Kavindrapura, the mansion of the king of poets. In this mansion he set an idol of dancing Shiva, Nasadyo, which today is highly worshipped by dancers in the Valley.

 

In the process of beautifying his palace, he added fountains, ponds, and baths. In Sundari Chok, he established a low bath with a golden fountain. He built a small pond, the Naga Pokhari, in the palace adorned with Nagakastha, a wooden serpent, which is said he had ordered stolen from the royal pond in the Bhaktapur Durbar Square. He restored the Licchavi stone sculptures such as the Jalasayana Narayana, the Kaliyadamana, and the Kala Bhairav. An idol of Jalasayana Narayana was placed in a newly created pond in the Bhandarkhal garden in the eastern wing of the palace. As a substitute to the idol of Jalasayana Narayana in Buddhanilkantha, he channeled water from Buddhanilkantha to the pond in Bhandarkhal due bestow authenticity. The Kalyadana, a manifestation of Lord Krishna destroying Kaliya, a water serpent, is placed in Kalindi Chok, which is adjacent to the Mohan Chok. The approximately ten-feet-high image of terrifyingly portrayed Kal Bhairav is placed near the Jagannath Temple. This image is the focus of worship in the chok especially during Durga Puja.

 

With the death of Pratap Malla in 1674, the overall emphasis on the importance of the square came to a halt. His successors retained relatively insignificant power and the prevailing ministers took control of most of the royal rule. The ministers encountered little influence under these kings and, increasingly, interest of the arts and additions to the square was lost on them. They focused less on culture than Pratap Malla during the three decades that followed his death, steering the city and country more towards the arenas of politics and power, with only a few minor constructions made in the square. These projects included Parthivendra Malla building a temple referred to as Trailokya Mohan or Dasavatara, dedicated to Lord Vishnu in 1679. A large statue of Garuda, the mount of Lord Vishnu, was added in front of it a decade later. Parthivendra Malla added a pillar with image of his family in front of the Taleju Temple.

 

Around 1692, Radhilasmi, the widowed queen of Pratap Malla, erected the tall temples of Shiva known as Maju Deval near the Garuda image in the square. This temple stands on nine stepped platforms and is one of the tallest buildings in the square. Then her son, Bhupalendra Malla, took the throne and banished the widowed queen to the hills. His death came early at the age of twenty one and his widowed queen, Bhuvanalaksmi, built a temple in the square known as Kageswara Mahadev. The temple was built in the Newari style and acted as a substitute for worship of a distant temple in the hills. After the earthquake in 1934, the temple was restored with a dome roof, which was alien to the Newari architecture.

 

Jayaprakash Malla, the last Malla king to rule Kathmandu, built a temple for Kumari and Durga in her virginal state. The temple was named Kumari Bahal and was structured like a typical Newari vihara. In his house resides the Kumari, a girl who is revered as the living goddess. He also made a chariot for Kumari and in the courtyard had detailed terra cotta tiles of that time laid down.

 

UNDER THE SHAH DYNASTY

During the Shah dynasty that followed, the Kathmandu Durbar Square saw a number of changes. Two of the most unique temples in the square were built during this time. One is the Nautale, a nine-storied building known as Basantapur Durbar. It has four roofs and stands at the end of Nasal Chok at the East side of the palace. It is said that this building was set as a pleasure house. The lower three stories were made in the Newari farmhouse style. The upper floors have Newari style windows, sanjhya and tikijhya, and some of them are slightly projected from the wall. The other temple is annexed to the Vasantapur Durbar and has four-stories. This building was initially known as Vilasamandira, or Lohom Chok, but is now commonly known as Basantapur or Tejarat Chok. The lower floors of the Basantapur Chok display extensive woodcarvings and the roofs are made in popular the Mughal style. Archives state that Prthivi Narayan Shah built these two buildings in 1770.

 

Rana Bahadur Shah was enthroned at the age of two. Bahadur Shah, the second son of Prithvi Narayan Shah, ruled as a regent for his young nephew Rana Bahadur Shah for a close to a decade from 1785 to 1794 and built a temple of Shiva Parvati in the square. This one roofed temple is designed in the Newari style and is remarkably similar to previous temples built by the Mallas. It is rectangular in shape, and enshrines the Navadurga, a group of goddesses, on the ground floor. It has a wooden image of Shiva and Parvati at the window of the upper floor, looking out at the passersby in the square. Another significant donation made during the time of Rana Bahadur Shah is the metal-plated head of Swet Bhairav near the Degutale Temple. It was donated during the festival of Indra Jatra in 1795, and continues to play a major role during the festival every year. This approximately twelve feet high face of Bhairav is concealed behind a latticed wooden screen for the rest of the year. The following this donation Rana Bahadur donated a huge bronze bell as an offering to the Goddess Taleju. Together with the beating of the huge drums donated by his son Girvan Yudha, the bell was rung every day during the daily ritual worship to the goddess. Later these instruments were also used as an alarm system. However, after the death of his beloved third wife Kanimati Devi due to smallpox, Rana Bahadur Shah turned mad with grief and had many images of gods and goddesses smashed including the Taleju statue and bell, and Sitala, the goddess of smallpox.

 

In 1908, a palace, Gaddi Durbar, was built using European architectural designs. The Rana Prime Ministers who had taken over the power but not the throne of the country from the Shahs Kings from 1846 to 1951 were highly influenced by European styles. The Gaddi Durbar is covered in white plaster, has Greek columns and adjoins a large audience hall, all foreign features to Nepali architecture. The balconies of this durbar were reserved for the royal family during festivals to view the square below.

 

Some of the parts of the square like the Hatti Chok near the Kumari Bahal in the southern section of the square were removed during restoration after the devastating earthquake in 1934. While building the New Road, the southeastern part of the palace was cleared away, leaving only fragments in places as reminders of their past. Though decreased from its original size and attractiveness from its earlier seventeenth-century architecture, the Kathmandu Durbar Square still displays an ancient surrounding that spans abound five acres of land. It has palaces, temples, quadrangles, courtyards, ponds, and images that were brought together over three centuries of the Malla, the Shah, and the Rana dynasties. It was destroyed in the April 2015 Nepal earthquake.

 

VISITING

Kathmandu's Durbar Square is the site of the Hanuman Dhoka Palace Complex, which was the royal Nepalese residence until the 19th century and where important ceremonies, such as the coronation of the Nepalese monarch, took place. The palace is decorated with elaborately-carved wooden windows and panels and houses the King Tribhuwan Memorial Museum and the Mahendra Museum. It is possible to visit the state rooms inside the palace.

 

Time and again the temples and the palaces in the square have gone through reconstruction after being damaged by natural causes or neglect. Presently there are less than ten quadrangles in the square. The temples are being preserved as national heritage sites and the palace is being used as a museum. Only a few parts of the palace are open for visitors and the Taleju temples are only open for people of Hindu and Buddhist faiths.

 

At the southern end of Durbar Square is one of the most curious attractions in Nepal, the Kumari Chok. This gilded cage contains the Raj Kumari, a girl chosen through an ancient and mystical selection process to become the human incarnation of the Hindu mother goddess, Durga. She is worshiped during religious festivals and makes public appearances at other times for a fee paid to her guards.

 

WIKIPEDIA

A couple of days ago I was out trying to quietly slip by the automatic Blue Jay alarm system looking for wildlife that might be interested in making a couple quick bucks to pose for me.

 

It was still pretty early in the morning and the wooded area I was passing through did not help enlighten things. But out of the corner of my eye I saw a flash of light colored tail feathers about 60 yards away and knew it was probably something I wanted to investigate.

 

I stopped my vehicle and put a beanbag on my door rest and began scanning the bare trees. A slight movement in the trees gave away the bird’s location and I honed in but was flummoxed by what I saw.

 

With apologies to the poor light and chaotic background, I thought this was interesting enough to endure critics of quality. When I brought the photo up on my monitor at home and sought online help for an identification, I was told this was a Dark-morph Rough-legged Hawk, a brand of hawk that in my previous years had never seen.

 

This species of hawk breeds in the Arctic and migrates south to the US and southern Canada for the winter. In our area we are supposed to see them from October to March so this one is flying about on an expired visa.

 

One interesting habit of these hawks is they can hover in place like a kestrel when they hunt for voles or other small mammals.

  

(Photographed near Cambridge, MN)

 

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classic sports cars | vintage motorcycles | Oldtimer Grand Prix

 

location | Oppenberg Road, Styria 💚 Austria

📷 | 2004 BMW R 1200 CL :: rumoto images # 1234

 

Auf herrlich gewundenen Küsten- oder Passstraßen die Lust und das lockere Spiel zwischen Schwerkraft und Fliehkraft erleben. Erleben wie von Kilometer zu Kilometer die positiven Gefühle intensiver werden - links, rechts, links - Landschaften und Gedanken dahin gleiten... bald schon jene Augenblicke kommen, wo die Enge der Zivilisation der überwältigenden Szenerie der Natur Platz macht und beruhigende Geräusche des Motors und Formen verschmelzen...

 

If a photographer can’t feel what he is looking at, then he is never going to get others to feel anything when they look at his pictures.

 

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Woodcliff Lake, New Jersey, August 2002 ...

 

Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.

 

Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.

 

Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.

 

Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.

 

The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.

 

The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).

 

The R 1200 CL Engine: Gearing For The Long Haul

 

BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.

 

While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.

 

In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.

 

The CL Chassis: Wheeled Luggage Never Worked This Well

 

Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.

 

Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.

 

The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.

 

All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.

 

The CL Bodywork: Dressed To The Nines

 

Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).

 

The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.

 

Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.

 

Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.

 

Options & Accessories: More Personal Than A Monogram

 

Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.

 

Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.

"The patient is young" is true to some degree – the lower the age of the patient (measured e.g. in years), the more the sentence is true. The word Advaita is a composite of two Sanskrit words: Advaita is often translated as "non-duality," but a more apt translation is "non-secondness." Advaita has several meanings: As Gaudapada states, when a distinction is made between subject and object, people grasp to objects, which is samsara. By realizing one's true identity as Brahman, there is no more grasping, and the mind comes to rest. Nonduality of Atman and Brahman, the famous diction of Advaita Vedanta that Atman is not distinct from Brahman; the knowledge of this identity is liberating. Monism: there is no other reality than Brahman, that "Reality is not constituted by parts," that is, ever-changing 'things' have no existence of their own, but are appearances of the one Existent, Brahman; and that there is in reality no duality between the "experiencing self" (jiva) and Brahman, the Ground of Being. The word Vedānta is a composition of two Sanskrit words: The word Veda refers to the whole corpus of vedic texts, and the word "anta" means 'end'. The meaning of Vedānta can be summed up as "the end of the vedas" or "the ultimate knowledge of the vedas". Vedānta is one of six orthodox schools of Hindu philosophy. Truth of a fuzzy proposition is a matter of degree. I recommend to everybody interested in fuzzy logic that they sharply distinguish fuzziness from uncertainty as a degree of belief (e.g. probability). Compare the last proposition with the proposition "The patient will survive next week". This may well be considered as a crisp proposition which is either (absolutely) true or (absolutely) false; but we do not know which is the case. We may have some probability (chance, degree of belief) that the sentence is true; but probability is not a degree of truth. In metrology (the science of measurement), it is acknowledged that for any measure we care to make, there exists an amount of uncertainty about its accuracy, but this degree of uncertainty is conventionally expressed with a magnitude of likelihood, and not as a degree of truth. In 1975, Lotfi A. Zadeh introduced a distinction between "Type 1 fuzzy sets" without uncertainty and "Type 2 fuzzy sets" with uncertainty, which has been widely accepted. Simply put, in the former case, each fuzzy number is linked to a non-fuzzy (natural) number, while in the latter case, each fuzzy number is linked to another fuzzy number.Problems of vagueness and fuzziness have probably always existed in human experience. From ancient history, philosophers and scientists have reflected about those kinds of problems. The ancient Sorites paradox first raised the logical problem of how we could exactly define the threshold at which a change in quantitative gradation turns into a qualitative or categorical difference. With some physical processes this threshold is relatively easy to identify. For example, water turns into steam at 100 °C or 212 °F (the boiling point depends partly on atmospheric pressure, which decreases at higher altitudes). With many other processes and gradations, however, the point of change is much more difficult to locate, and remains somewhat vague. Thus, the boundaries between qualitatively different things may be unsharp: we know that there are boundaries, but we cannot define them exactly. The Nordic myth of Loki's wager suggested that concepts that lack precise meanings or precise boundaries of application cannot be usefully discussed at all.[9] However, the 20th-century idea of "fuzzy concepts" proposes that "somewhat vague terms" can be operated with, since we can explicate and define the variability of their application by assigning numbers to gradations of applicability. This idea sounds simple enough, but it had large implications. The intellectual origins of the species of fuzzy concepts as a logical category have been traced back to a diversity of famous and less well-known thinkers,[10] including (among many others) Eubulides, Plato, Cicero, Georg Wilhelm Friedrich Hegel,[11] Karl Marx and Friedrich Engels, Friedrich Nietzsche, Hugh MacColl,[13] Charles S. Peirce, Max Black,[15] Jan Łukasiewicz,[16] Emil Leon Post, Alfred Tarski,Georg Cantor, Nicolai A. Vasiliev,[19] Kurt Gödel, Stanisław Jaśkowski[20] and Donald Knuth. Across at least two and a half millennia, all of them had something to say about graded concepts with unsharp boundaries. This suggests at least that the awareness of the existence of concepts with "fuzzy" characteristics, in one form or another, has a very long history in human thought. Quite a few logicians and philosophers have also tried to analyze the characteristics of fuzzy concepts as a recognized species, sometimes with the aid of some kind of many-valued logic or substructural logic. An early attempt in the post-WW2 era to create a theory of sets where set membership is a matter of degree was made by Abraham Kaplan and Hermann Schott in 1951. They intended to apply the idea to empirical research. Kaplan and Schott measured the degree of membership of empirical classes using real numbers between 0 and 1, and they defined corresponding notions of intersection, union, complementation and subset.[22] However, at the time, their idea "fell on stony ground".[23] J. Barkley Rosser Sr. published a treatise on many-valued logics in 1952, anticipating "many-valued sets".[24] Another treatise was published in 1963 by Aleksandr A. Zinov'ev and others In 1964, the American philosopher William Alston introduced the term "degree vagueness" to describe vagueness in an idea that results from the absence of a definite cut-off point along an implied scale (in contrast to "combinatory vagueness" caused by a term that has a number of logically independent conditions of application). The German mathematician Dieter Klaua [de] published a German-language paper on fuzzy sets in 1965, but he used a different terminology (he referred to "many-valued sets", not "fuzzy sets"). Two popular introductions to many-valued logic in the late 1960s were by Robert J. Ackermann and Nicholas Rescher respectively.] Rescher's book includes a bibliography on fuzzy theory up to 1965, which was extended by Robert Wolf for 1966–1974.[30] Haack provides references to significant works after 1974.[31] Bergmann provides a more recent (2008) introduction to fuzzy reasoning.

According to the modern idea of the continuum fallacy, the fact that a statement is to an extent vague, does not automatically mean that it is invalid. The problem then becomes one of how we could ascertain the kind of validity that the statement does have.Nondualism is a fuzzy concept, for which many definitions can be found. According to David Loy, since there are similar ideas and terms in a wide variety of spiritualities and religions, ancient and modern, no single definition for the English word "nonduality" can suffice, and perhaps it is best to speak of various "nondualities" or theories of nonduality.[10] Loy sees non-dualism as a common thread in Taoism, Mahayana Buddhism, and Advaita Vedanta,distinguishes "Five Flavors Of Nonduality":

Advaita, nondual awareness, the nondifference of subject and object, or nonduality between subject and object. According to Loy, in the Upanishads " It is most often expressed as the identity between Atman (the self) and Brahman.". Monism, the nonplurality of the world. Although the phenomenal world appears as a plurality of "things", in reality they are "of a single cloth". Brahmanical and non-Brahmanical ascetic traditions of the first millennium BCE developed in close interaction, utilizing proto-Samkhya enumerations (lists) analyzing experience in the context of meditative practices providing liberating insight into the nature of experience. The first millennium CE saw a movement towards postulating an underlying "basis of unity," both in the Buddhist Madhyamaka and Yogacara schools, and in Advaita Vedanta, collapsing phenomenal reality into a "single substrate or underlying principle." From Dualism to Oneness in Psychoanalysis: A Zen Perspective on the Mind-Body Question focuses on the shift in psychoanalytic thought, from a view of mind-body dualism to a contemporary non-dualistic perspective. The Perennial philosophy has its roots in the Renaissance interest in neo-Platonism and its idea of The One, from which all existence emanates. Marsilio Ficino (1433–1499) sought to integrate Hermeticism with Greek and Jewish-Christian thought, discerning a Prisca theologia which could be found in all age Giovanni Pico della Mirandola (1463–94) suggested that truth could be found in many, rather than just two, traditions. He proposed a harmony between the thought of Plato and Aristotle, and saw aspects of the Prisca theologia in Averroes, the Koran, the Cabala and other sources. Agostino Steuco (1497–1548) coined the term philosophia perennis."Dual" comes from Latin "duo," two, prefixed with "non-" meaning "not"; "non-dual" means "not-two." When referring to nondualism, Hinduism generally uses the Sanskrit term Advaita, while Buddhism uses Advaya (Tibetan: gNis-med, Chinese: pu-erh, Japanese: fu-ni). "Advaita" (अद्वैत) is from Sanskrit roots a, not; dvaita, dual. As Advaita, it means "not-two." or "one without a second," and is usually translated as "nondualism", "nonduality" and "nondual". The term "nondualism" and the term "advaita" from which it originates are polyvalent terms. "Advaya" (अद्वय) is also a Sanskrit word that means "identity, unique, not two, without a second," and typically refers to the two truths doctrine of Mahayana Buddhism, especially Madhyamaka.

The English term "nondual" was informed by early translations of the Upanishads in Western languages other than English from 1775. These terms have entered the English language from literal English renderings of "advaita" subsequent to the first wave of English translations of the Upanishads. These translations commenced with the work of Müller (1823–1900), in the monumental Sacred Books of the East (1879). Max Müller rendered "advaita" as "Monism", as have many recent scholars. However, some scholars state that "advaita" is not really monism. Nondual awareness, also called pure consciousness or awareness, contentless consciousness, consciousness-as-such, and Minimal Phenomenal Experience, is a topic of phenomenological research. As described in Samkhya-Yoga and other systems of meditation, and referred to as, for example, Turya and Atman, pure awareness manifests in advanced states of meditation. Unitarian Universalism had a strong impact on Ram Mohan Roy and the Brahmo Samaj, and subsequently on Swami Vivekananda. Vivekananda was one of the main representatives of Neo-Vedanta, a modern interpretation of Hinduism in line with western esoteric traditions, especially Transcendentalism, New Thought and Theosophy. His reinterpretation was, and is, very successful, creating a new understanding and appreciation of Hinduism within and outside India, and was the principal reason for the enthusiastic reception of yoga, transcendental meditation and other forms of Indian spiritual self-improvement in the West. Narendranath Datta (Swami Vivekananda) became a member of a Freemasonry lodge "at some point before 1884" and of the Sadharan Brahmo Samaj in his twenties, a breakaway faction of the Brahmo Samaj led by Keshab Chandra Sen and Debendranath Tagore.Ram Mohan Roy (1772-1833), the founder of the Brahmo Samaj, had a strong sympathy for the Unitarians, who were closely connected to the Transcendentalists, who in turn were interested in and influenced by Indian religions early on. It was in this cultic milieu that Narendra became acquainted with Western esotericism. Debendranath Tagore brought this "neo-Hinduism" closer in line with western esotericism, a development which was furthered by Keshubchandra Sen, who was also influenced by transcendentalism, which emphasised personal religious experience over mere reasoning and theology. Sen's influence brought Vivekananda fully into contact with western esotericism, and it was also via Sen that he met Ramakrishna. Vivekananda's acquaintance with western esotericism made him very successful in western esoteric circles, beginning with his speech in 1893 at the Parliament of Religions. Vivekananda adapted traditional Hindu ideas and religiosity to suit the needs and understandings of his western audiences, who were especially attracted by and familiar with western esoteric traditions and movements like Transcendentalism and New thought. In 1897 he founded the Ramakrishna Mission, which was instrumental in the spread of Neo-Vedanta in the west, and attracted people like Alan Watts. Aldous Huxley, author of The Perennial Philosophy, was associated with another neo-Vedanta organisation, the Vedanta Society of Southern California, founded and headed by Swami Prabhavananda. Together with Gerald Heard, Christopher Isherwood, and other followers he was initiated by the Swami and was taught meditation and spiritual practices. Neo-Vedanta was well-received among Theosophists, Christian Science, and the New Thought movement; Christian Science in turn influenced the self-study teaching A Course in Miracles.Pure consciousness is distinguished from the workings of the mind, and "consists in nothing but the being seen of what is seen." Gamma & Metzinger (2021) present twelve factors in their phenomenological analysis of pure awareness experienced by meditators, including luminosity; emptiness and non-egoic self-awareness; and witness-consciousness.A main modern proponent of perennialism was Aldous Huxley, who was influenced by Vivekananda's Neo-Vedanta and Universalism. This popular approach finds supports in the "common-core thesis". According to the "common-core thesis", different descriptions can mask quite similar if not identical experiences:

According to Elias Amidon there is an "indescribable, but definitely recognizable, reality that is the ground of all being." According to Renard, these are based on an experience or intuition of "the Real". According to Amidon, this reality is signified by "many names" from "spiritual traditions throughout the world": [N]ondual awareness, pure awareness, open awareness, presence-awareness, unconditioned mind, rigpa, primordial experience, This, the basic state, the sublime, buddhanature, original nature, spontaneous presence, the oneness of being, the ground of being, the Real, clarity, God-consciousness, divine light, the clear light, illumination, realization and enlightenment. According to Renard, nondualism as common essence prefers the term "nondualism", instead of monism, because this understanding is "nonconceptual", "not graspapable in an idea" Even to call this "ground of reality", "One", or "Oneness" is attributing a characteristic to that ground of reality. The only thing that can be said is that it is "not two" or "non-dual": [N]o unmediated experience is possible, and that in the extreme, language is not simply used to interpret experience but in fact constitutes experience. The idea of a common essence has been questioned by Yandell, who discerns various "religious experiences" and their corresponding doctrinal settings, which differ in structure and phenomenological content, and in the "evidential value" they present. The specific teachings and practices of a specific tradition may determine what "experience" someone has, which means that this "experience" is not the proof of the teaching, but a result of the teaching. The notion of what exactly constitutes "liberating insight" varies between the various traditions, and even within the traditions. Bronkhorst for example notices that the conception of what exactly "liberating insight" is in Buddhism was developed over time. Whereas originally it may not have been specified, later on the Four Truths served as such, to be superseded by pratityasamutpada, and still later, in the Hinayana schools, by the doctrine of the non-existence of a substantial self or person. And Schmithausen notices that still other descriptions of this "liberating insight" exist in the Buddhist canon.nsight (prajna, kensho, satori, gnosis, theoria, illumination), especially enlightenment or the realization of the illusory nature of the autonomous "I" or self, is a key element in modern western nondual thought. It is the personal realization that ultimate reality is nondual, and is thought to be a validating means of knowledge of this nondual reality. This insight is interpreted as a psychological state, and labeled as religious or mystical experience. According to Hori, the notion of "religious experience" can be traced back to William James, who used the term "religious experience" in his book, The Varieties of Religious Experience. The origins of the use of this term can be dated further back. In the 18th, 19th, and 20th centuries, several historical figures put forth very influential views that religion and its beliefs can be grounded in experience itself. While Kant held that moral experience justified religious beliefs, John Wesley in addition to stressing individual moral exertion thought that the religious experiences in the Methodist movement (paralleling the Romantic Movement) were foundational to religious commitment as a way of life. Wayne Proudfoot traces the roots of the notion of "religious experience" to the German theologian Friedrich Schleiermacher (1768–1834), who argued that religion is based on a feeling of the infinite. The notion of "religious experience" was used by Schleiermacher and Albert Ritschl to defend religion against the growing scientific and secular critique, and defend the view that human (moral and religious) experience justifies religious beliefs. Such religious empiricism would be later seen as highly problematic and was – during the period in-between world wars – famously rejected by Karl Barth. In the 20th century, religious as well as moral experience as justification for religious beliefs still holds sway. Some influential modern scholars holding this liberal theological view are Charles Raven and the Oxford physicist/theologian Charles Coulson. The notion of "religious experience" was adopted by many scholars of religion, of which William James was the most influential. The notion of "experience" has been criticised. Robert Sharf points out that "experience" is a typical Western term, which has found its way into Asian religiosity via western influences.Insight is not the "experience" of some transcendental reality, but is a cognitive event, the (intuitive) understanding or "grasping" of some specific understanding of reality, as in kensho,or anubhava. "Pure experience" does not exist; all experience is mediated by intellectual and cognitive activity A pure consciousness without concepts, reached by "cleaning the doors of perception", would be an overwhelming chaos of sensory input without coherence.A major force in the mutual influence of eastern and western ideas and religiosity was the Theosophical Society.It searched for ancient wisdom in the east, spreading eastern religious ideas in the west One of its salient features was the belief in "Masters of Wisdom", "beings, human or once human, who have transcended the normal frontiers of knowledge, and who make their wisdom available to others". The Theosophical Society also spread western ideas in the east, aiding a modernisation of eastern traditions, and contributing to a growing nationalism in the Asian colonies.Transcendentalism was an early 19th-century liberal Protestant movement that developed in the 1830s and 1840s in the Eastern region of the United States. It was rooted in English and German Romanticism, the Biblical criticism of Herder and Schleiermacher, and the skepticism of Hume. The Transcendentalists emphasised an intuitive, experiential approach of religion. Following Schleiermacher, an individual's intuition of truth was taken as the criterion for truth. In the late 18th and early 19th century, the first translations of Hindu texts appeared, which were read by the Transcendentalists and influenced their thinking. The Transcendentalists also endorsed universalist and Unitarianist ideas, leading to Unitarian Universalism, the idea that there must be truth in other religions as well, since a loving God would redeem all living beings, not just Christians.Western esotericism (also called esotericism and esoterism) is a scholarly term for a wide range of loosely related ideas and movements which have developed within Western society. They are largely distinct both from orthodox Judeo-Christian religion and from Enlightenment rationalism. The earliest traditions which later analysis would label as forms of Western esotericism emerged in the Eastern Mediterranean during Late Antiquity, where Hermetism, Gnosticism, and Neoplatonism developed as schools of thought distinct from what became mainstream Christianity. In Renaissance Europe, interest in many of these older ideas increased, with various intellectuals seeking to combine "pagan" philosophies with the Kabbalah and with Christian philosophy, resulting in the emergence of esoteric movements like Christian theosophy."Dual" comes from Latin "duo," two, prefixed with "non-" meaning "not"; "non-dual" means "not-two." When referring to nondualism, Hinduism generally uses the Sanskrit term Advaita, while Buddhism uses Advaya (Tibetan: gNis-med, Chinese: pu-erh, Japanese: fu-ni). "Advaita" (अद्वैत) is from Sanskrit roots a, not; dvaita, dual. As Advaita, it means "not-two."[1][8] or "one without a second,"[8] and is usually translated as "nondualism", "nonduality" and "nondual". The term "nondualism" and the term "advaita" from which it originates are polyvalent terms. "Advaya" (अद्वय) is also a Sanskrit word that means "identity, unique, not two, without a second," and typically refers to the two truths doctrine of Mahayana Buddhism, especially Madhyamaka. The English term "nondual" was informed by early translations of the Upanishads in Western languages other than English from 1775. These terms have entered the English language from literal English renderings of "advaita" subsequent to the first wave of English translations of the Upanishads. These translations commenced with the work of Müller (1823–1900), in the monumental Sacred Books of the East (1879). Max Müller rendered "advaita" as "Monism", as have many recent scholars. However, some scholars state that "advaita" is not really monism

 

en.wikipedia.org/wiki/Nondualism

 

A fuzzy concept is a kind of concept of which the boundaries of application can vary considerably according to context or conditions, instead of being fixed once and for all. This means the concept is vague in some way, lacking a fixed, precise meaning, without however being unclear or meaningless altogether.It has a definite meaning, which can be made more precise only through further elaboration and specification - including a closer definition of the context in which the concept is used. The study of the characteristics of fuzzy concepts and fuzzy language is called fuzzy semantics. The inverse of a "fuzzy concept" is a "crisp concept" (i.e. a precise concept).

A fuzzy concept is understood by scientists as a concept which is "to an extent applicable" in a situation. That means the concept has gradations of significance or unsharp (variable) boundaries of application. A fuzzy statement is a statement which is true "to some extent", and that extent can often be represented by a scaled value. The term is also used these days in a more general, popular sense – in contrast to its technical meaning – to refer to a concept which is "rather vague" for any kind of reason. In the past, the very idea of reasoning with fuzzy concepts faced considerable resistance from academic elites. They did not want to endorse the use of imprecise concepts in research or argumentation. Yet although people might not be aware of it, the use of fuzzy concepts has risen gigantically in all walks of life from the 1970s onward. That is mainly due to advances in electronic engineering, fuzzy mathematics and digital computer programming. The new technology allows very complex inferences about "variations on a theme" to be anticipated and fixed in a program. New neuro-fuzzy computational methods make it possible to identify, measure and respond to fine gradations of significance with great precision. It means that practically useful concepts can be coded and applied to all kinds of tasks, even if ordinarily these concepts are never precisely defined. Nowadays engineers, statisticians and programmers often represent fuzzy concepts mathematically, using fuzzy logic, fuzzy values, fuzzy variables and fuzzy sets."There exists strong evidence, established in the 1970s in the psychology of concepts... that human concepts have a graded structure in that whether or not a concept applies to a given object is a matter of degree, rather than a yes-or-no question, and that people are capable of working with the degrees in a consistent way. This finding is intuitively quite appealing, because people say "this product is more or less good" or "to a certain degree, he is a good athlete", implying the graded structure of concepts. In his classic paper, Zadeh called the concepts with a graded structure fuzzy concepts and argued that these concepts are a rule rather than an exception when it comes to how people communicate knowledge. Moreover, he argued that to model such concepts mathematically is important for the tasks of control, decision making, pattern recognition, and the like. Zadeh proposed the notion of a fuzzy set that gave birth to the field of fuzzy logic..."Hence, a concept is generally regarded as "fuzzy" in a logical sense if:defining characteristics of the concept apply to it "to a certain degree or extent" (or, more unusually, "with a certain magnitude of likelihood").

or, the boundaries of applicability (the truth-value) of a concept can vary in degrees, according to different conditions.

or, the fuzzy concept itself straightforwardly consists of a fuzzy set, or a combination of such sets.

The fact that a concept is fuzzy does not prevent its use in logical reasoning; it merely affects the type of reasoning which can be applied (see fuzzy logic). If the concept has gradations of meaningful significance, it is necessary to specify and formalize what those gradations are, if they can make an important difference. Not all fuzzy concepts have the same logical structure, but they can often be formally described or reconstructed using fuzzy logic or other substructural logics.The advantage of this approach is, that numerical notation enables a potentially infinite number of truth-values between complete truth and complete falsehood, and thus it enables - in theory, at least - the greatest precision in stating the degree of applicability of a logical rule..In philosophical logic and linguistics, fuzzy concepts are often regarded as vague concepts which in their application, or formally speaking, are neither completely true nor completely false, or which are partly true and partly false; they are ideas which require further elaboration, specification or qualification to understand their applicability (the conditions under which they truly make sense). The "fuzzy area" can also refer simply to a residual number of cases which cannot be allocated to a known and identifiable group, class or set if strict criteria are used. The collaborative written works of French philosopher Gilles Deleuze and French psychoanalyst Félix Guattari refer occasionally to fuzzy sets in conjunction with their idea of multiplicities. In A Thousand Plateaus, they note that "a set is fuzzy if its elements belong to it only by virtue of specific operations of consistency and consolidation, which themselves follow a special logic", and in What Is Philosophy?, a work dealing with the functions of concepts, they write that concepts as a whole are "vague or fuzzy sets, simple aggregates of perceptions and affections, which form within the lived as immanent to a subject" In mathematics and statistics, a fuzzy variable (such as "the temperature", "hot" or "cold") is a value which could lie in a probable range defined by some quantitative limits or parameters, and which can be usefully described with imprecise categories (such as "high", "medium" or "low") using some kind of scale or conceptual hierarchy.n mathematics and computer science, the gradations of applicable meaning of a fuzzy concept are described in terms of quantitative relationships defined by logical operators. Such an approach is sometimes called "degree-theoretic semantics" by logicians and philosophers, but the more usual term is fuzzy logic or many-valued logic. The novelty of fuzzy logic is, that it "breaks with the traditional principle that formalisation should correct and avoid, but not compromise with, vagueness". The basic idea of fuzzy logic is that a real number is assigned to each statement written in a language, within a range from 0 to 1, where 1 means that the statement is completely true, and 0 means that the statement is completely false, while values less than 1 but greater than 0 represent that the statements are "partly true", to a given, quantifiable extent. Susan Haack comments: "Whereas in classical set theory an object either is or is not a member of a given set, in fuzzy set theory membership is a matter of degree; the degree of membership of an object in a fuzzy set is represented by some real number between 0 and 1, with 0 denoting no membership and full membership." ..."Truth" in this mathematical context usually means simply that "something is the case", or that "something is applicable". This makes it possible to analyze a distribution of statements for their truth-content, identify data patterns, make inferences and predictions, and model how processes operate. Petr Hájek claimed that "fuzzy logic is not just some "applied logic", but may bring "new light to classical logical problems", and therefore might be well classified as a distinct branch of "philosophical logic" similar to e.g. modal logics.Fuzzy logic offers computationally-oriented systems of concepts and methods, to formalize types of reasoning which are ordinarily approximate only, and not exact. In principle, this allows us to give a definite, precise answer to the question, "To what extent is something the case?", or, "To what extent is something applicable?". Via a series of switches, this kind of reasoning can be built into electronic devices. That was already happening before fuzzy logic was invented, but using fuzzy logic in modelling has become an important aid in design, which creates many new technical possibilities. Fuzzy reasoning (i.e., reasoning with graded concepts) turns out to have many practical uses. It is nowadays widely used in:

The programming of vehicle and transport electronics, household appliances, video games, language filters, robotics, and driverless vehicles. Fuzzy logic washing machines are gaining popularity. All kinds of control systems that regulate access, traffic, movement, balance, conditions, temperature, pressure, routers etc. Electronic equipment used for pattern recognition, surveying and monitoring (including radars, satellites, alarm systems and surveillance systems).

Cybernetics research, artificial intelligence,[54] virtual intelligence, machine learning, database design and soft computing research. "Fuzzy risk scores" are used by project managers and portfolio managers to express financial risk assessments. It looks like fuzzy logic will eventually be applied in almost every aspect of life, even if people are not aware of it, and in that sense fuzzy logic is an astonishingly successful invention.[58] The scientific and engineering literature on the subject is constantly increasing.

en.wikipedia.org/wiki/Fuzzy_concept

 

Advaita Vedanta (/ʌdˈvaɪtə vɛˈdɑːntə/; Sanskrit: अद्वैत वेदान्त, IAST: Advaita Vedānta) is a Hindu sādhanā, a path of spiritual discipline and experience, and the oldest extant tradition of the orthodox Hindu school Vedānta. The term Advaita (literally "non-secondness", but usually rendered as "nondualism",and often equated with monism[note 3]) refers to the idea that Brahman alone is ultimately real, while the transient phenomenal world is an illusory appearance (maya) of Brahman. In this view, jivatman, the experiencing self, is ultimately non-different ("na aparah") from Ātman-Brahman, the highest Self or Reality.The jivatman or individual self is a mere reflection or limitation of singular Ātman in a multitude of apparent individual bodies. In the Advaita tradition, moksha (liberation from suffering and rebirth),is attained through recognizing this illusoriness of the phenomenal world and disidentification from the body-mind complex and the notion of 'doership',[note 5] and acquiring vidyā (knowledge) of one's true identity as Atman-Brahman, self-luminous (svayam prakāśa)[note 6] awareness or Witness-consciousness. Upanishadic statements such as tat tvam asi, "that['s how] you are," destroy the ignorance (avidyā) regarding one's true identity by revealing that (jiv)Ātman is non-different from immortal[note 8] Brahman. While the prominent 8th century Vedic scholar and teacher (acharya) Adi Shankara emphasized that, since Brahman is ever-present, Brahman-knowledge is immediate and requires no 'action', that is, striving and effort,[15][16][17] the Advaita tradition also prescribes elaborate preparatory practice, including contemplation of the mahavakyas and accepting yogic samadhi as a means to knowledge, posing a paradox which is also recognized in other spiritual disciplines and traditions. Advaita Vedānta adapted philosophical concepts from Buddhism, giving them a Vedantic basis and interpretation,and was influenced by, and influenced, various traditions and texts of Indian philosophy, While Adi Shankara is generally regarded as the most prominent exponent of the Advaita Vedānta tradition,[26] his early influence has been questioned, as his prominence started to take shape only centuries later in the 14th century, with the ascent of Sringeri matha and its jagadguru Vidyaranya (Madhava, 14th cent.) in the Vijayanagara Empire.[note 11] While Shankara did not embrace Yoga,[37] the Advaita Vedānta tradition in medieval times explicitly incorporated elements from the yogic tradition and texts like the Yoga Vasistha and the Bhagavata Purana, culminating in Swami Vivekananda's full embrace and propagation of Yogic samadhi as an Advaita means of knowledge and liberation. In the 19th century, due to the influence of Vidyaranya's Sarvadarśanasaṅgraha, the importance of Advaita Vedānta was overemphasized by Western scholarship,[42] and Advaita Vedānta came to be regarded as the paradigmatic example of Hindu spirituality, despite the numerical dominance of theistic Bhakti-oriented religiosity. In modern times, Advaita views appear in various Neo-Vedānta movements. While "a preferred terminology" for Upanisadic philosophy "in the early periods, before the time of Shankara" was Puruṣavāda,[50][note 13] the Advaita Vedānta school has historically been referred to by various names, such as Advaita-vada (speaker of Advaita), Abheda-darshana (view of non-difference), Dvaita-vada-pratisedha (denial of dual distinctions), and Kevala-dvaita (non-dualism of the isolated). It is also called māyāvāda by Vaishnava opponents, akin to Madhyamaka Buddhism, due to their insistence that phenomena ultimately lack an inherent essence or reality,[ According to Richard King, a professor of Buddhist and Asian studies, the term Advaita first occurs in a recognizably Vedantic context in the prose of Mandukya Upanishad.[51] In contrast, according to Frits Staal, a professor of philosophy specializing in Sanskrit and Vedic studies, the word Advaita is from the Vedic era, and the Vedic sage Yajnavalkya (8th or 7th-century BCE is credited to be the one who coined it] Stephen Phillips, a professor of philosophy and Asian studies, translates the Advaita containing verse excerpt in Brihadaranyaka Upanishad, as "An ocean, a single seer without duality becomes he whose world is Brahman.While the term "Advaita Vedanta" in a strict sense may refer to the scholastic tradition of textual exegesis established by Shankara, "advaita" in a broader sense may refer to a broad current of advaitic thought, which incorporates advaitic elements with yogic thought and practice and other strands of Indian religiosity, such as Kashmir Shaivism and the Nath tradition. The first connotation has also been called "Classical Advaita" and "doctrinal Advaita," and its presentation as such is due to mediaeval doxographies,the influence of Orientalist Indologists like Paul Deussen, and the Indian response to colonial influences, dubbed neo-Vedanta by Paul Hacker, who regarded it as a deviation from "traditional" Advaita Vedanta.Yet, post-Shankara Advaita Vedanta incorporated yogic elements, such as the Yoga Vasistha, and influenced other Indian traditions, and neo-Vedanta is based on this broader strand of Indian thought. This broader current of thought and practice has also been called "greater Advaita Vedanta," "vernacular advaita,"and "experiential Advaita." It is this broader advaitic tradition which is commonly presented as "Advaita Vedanta," though the term "advaitic" may be more apt.The nondualism of Advaita Vedānta is often regarded as an idealist monism. According to King, Advaita Vedānta developed "to its ultimate extreme" the monistic ideas already present in the Upanishads. In contrast, states Milne, it is misleading to call Advaita Vedānta "monistic," since this confuses the "negation of difference" with "conflation into one."Advaita is a negative term (a-dvaita), states Milne, which denotes the "negation of a difference," between subject and object, or between perceiver and perceived. According to Deutsch, Advaita Vedānta teaches monistic oneness, however without the multiplicity premise of alternate monism theories.According to Jacqueline Suthren Hirst, Adi Shankara positively emphasizes "oneness" premise in his Brahma-sutra Bhasya 2.1.20, attributing it to all the Upanishads. Nicholson states Advaita Vedānta contains realistic strands of thought, both in its oldest origins and in Shankara's writings.

 

en.wikipedia.org/wiki/Advaita_Vedanta#Svayam_prakāśa_(self-luminosity)

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► licence | please contact me before to obtain prior a license and to buy the rights to use and publish this photo. A licensing usage agreed upon with Bernard Egger is the only usage granted. more..

 

photographer | ▻ Bernard Egger profile.. • collections.. • sets..

classic sports cars | vintage motorcycles | Oldtimer Grand Prix

 

location | Irdning, Styria 💚 Austria

📷 | 2004 BMW R 1200 CL :: rumoto images # 2656

--

If a photographer can’t feel what he is looking at, then he is never going to get others to feel anything when they look at his pictures.

 

----

Woodcliff Lake, New Jersey, August 2002 ...

 

Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.

 

Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.

 

Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.

 

Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.

 

The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.

 

The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).

 

The R 1200 CL Engine: Gearing For The Long Haul

 

BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.

 

While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.

 

In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.

 

The CL Chassis: Wheeled Luggage Never Worked This Well

 

Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.

 

Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.

 

The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.

 

All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.

 

The CL Bodywork: Dressed To The Nines

 

Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).

 

The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.

 

Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.

 

Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.

 

Options & Accessories: More Personal Than A Monogram

 

Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.

 

Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.

IMO: - N/A

MMSI: 235082804

Call Sign: MWBM9

AIS Vessel Type: Dredger

 

GENERAL

DAMEN YARD NUMBER: 503705

Avelingen-West 20

4202 MS Gorinchem

The Netherlands

Phone: +31 (0)183 63 99 11

info@damen.com

DELIVERY DATE August 2001

BASIC FUNCTIONS Towing, mooring, pushing and dredging operations

FLAG United Kingdom [GB]

OWNED Teignmouth Harbour Commission

 

CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch

 

DIMENSIONS

LENGTH 14.40 m

BEAM 4.73 m

DEPTH AT SIDES 205 m

DRAUGHT AFT 171 m

DISPLACEMENT 48 ton

  

TANK CAPACITIES

Fuel oil 6.9 m³

 

PERFORMANCES (TRIALS)

BOLLARD PULL AHEAD 8.0 ton

SPEED 9.8 knots

 

PROPULSION SYSTEM

MAIN ENGINE 2x Caterpillar 3406C TA/A

TOTAL POWER 477 bmW (640i hp) at 1800 rpm

GEARBOX 2x Twin Disc MG 5091/3.82:1

PROPELLERS Bronze fixed pitch propeller

KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings

ENGINE CONTROL Kobelt

STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator

 

AUXILIARY EQUIPMENT

BILGE PUMP Sterling SIH 20, 32 m/hr

BATTERY SETS 2x 24V, 200 Ah + change over facility

COOLING SYSTEM Closed cooling system

ALARM SYSTEM Engines, gearboxes and bilge alarms

FRESH WATER PRESSURE SET Speck 24V

 

DECK LAY-OUT

ANCHORS 2x 48 kg Pool (HHP)

CHAIN 70 m, Ø 13mm, shortlink U2

ANCHOR WINCH Hand-operated

TOWING HOOK Mampaey, 15.3 ton SWL

COUPLING WINCH

PUSHBOW Cylindrical nubber fender Ø 380 mm

 

ACCOMMODATION

The wheelhouse ceiling and sides are insulated with mineral wool and

panelled. The wheelhouse floor is covered with rubber/synthetic floor

covering, make Bolidt, color blue The wheelhouse has one

helmsman seat, a bench and table with chair Below deck two berths, a

kitchen unit and a toilet space are arranged.

 

NAUTICAL AND COMMUNICATION EQUIPMENT

SEARCHLIGHT Den Haan 170 W 24 V

VHF RADIO Sailor RT 2048 25 W

NAVIGATION Navigation lights incl towing and pilot lights

 

Teignmouth Harbour Commission

The Harbour Commission is a Trust Port created by Statute.

The principal Order is the Teignmouth Harbour Order 1924

as amended by the Teignmouth Harbour Revision Order 2003

__________________________________________________________

Gamewell Fire Alarm System Maintenance

1976 Ford F350 Custom / Reading Truck Group Body / Versalift 40'

Disposed of 2015

LEGAL NOTICE | protected work • All Rights reserved © B. Egger photographer retains ownership and all copyrights in this work.

 

licence | please contact me before to obtain prior a license and to buy the rights to use and publish this photo. ▻ more..

 

photographer | ▻ Bernard Egger profile.. • collections.. • sets..

classic sports cars | vintage motorcycles | Oldtimer Grand Prix

 

location | Soelk Pass, Styria 💚 Austria

📷 | 2004 BMW R 1200 CL :: rumoto images # 1200

 

If a photographer can’t feel what he is looking at, then he is never going to get others to feel anything when they look at his pictures.

 

:: Bernard Egger, 写真家, カメラマン, 摄影师, rumoto images, фото, rфотограф, motoring, photography, Fotográfico, stunning, supershot, action, emotion, emotions, Faszination, classic, Classic-Motorrad, Leidenschaft, passion, Maschine, Moto, motocyclisme, Motorcycle, Motorcycles, Motorrad, Motorräder, Motorbike, Мотоциклы и байкеры, fine art, 摩托, バイク, 오토바이, Motocicletă, Мотоцикл, รถจักรยานยนต์, 摩托车, Motorcykel, Mootorratas, Moottoripyörä, Motosiklèt, Motorkerékpár, Motocikls, Motociklas, Motorsykkel, Motocykl, Motocicleta, Motocykel, Motosiklet, Sölkpaß, Soelk Pass, Styria, Austria, Австрия, Europe, BMW, BMW Motorcycles, Boxer, R1200CL, Cruiser, Tours, touring, travelling, Reisen, Motorradtour, alpine roads, Alpen, The Alps, Les Alpes, Le Alpi, Mountain Road, Bergstraße, Alpenpass,

 

---

Woodcliff Lake, New Jersey, August 2002 ...

 

Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.

 

Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.

 

Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.

 

Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.

 

The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.

 

The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).

 

The R 1200 CL Engine: Gearing For The Long Haul

 

BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.

 

While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.

 

In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.

 

The CL Chassis: Wheeled Luggage Never Worked This Well

 

Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.

 

Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.

 

The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.

 

All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.

 

The CL Bodywork: Dressed To The Nines

 

Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).

 

The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.

 

Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.

 

Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.

 

Options & Accessories: More Personal Than A Monogram

 

Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.

 

Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.

 

- - - - -

 

Der Luxus-Cruiser zum genußvollen Touren.

 

Die Motorradwelt war überrascht, als BMW Motorrad 1997 die R 1200 C, den ersten Cruiser in der Geschichte des Hauses, vorstellte. Mit dem einzigartigen Zweizylinder-Boxermotor und einem unverwechselbar eigenständigen Design gelang es auf Anhieb, sich in diesem bis dato von BMW nicht besetzten Marktsegment erfolgreich zu positionieren. Bisher wurden neben dem Basismodell R 1200 C Classic die technisch nahezu identischen Modellvarianten Avantgarde und Independent angeboten, die sich in Farbgebung, Designelementen und Ausstattungsdetails unterscheiden.

Zur Angebotserweiterung und zur Erschließung zusätzlicher Potenziale, präsentiert BMW Motorrad für das Modelljahr 2003 ein neues Mitglied der Cruiserfamilie, den Luxus-Cruiser R 1200 CL. Er wird seine Weltpremiere im September in München auf der INTERMOT haben und voraussichtlich im Herbst 2002 auf den Markt kommen. Der Grundgedanke war, Elemente von Tourenmotorrädern auf einen Cruiser zu übertragen und ein Motorrad zu entwickeln, das Eigenschaften aus beiden Fahrzeuggattungen aufweist.

So entstand ein eigenständiges Modell, ein Cruiser zum genussvollen Touren, bei dem in Komfort und Ausstattung keine Wünsche offen bleiben.

Als technische Basis diente die R 1200 C, von der aber im wesentlichen nur der Motor, der Hinterradantrieb, der Vorderrahmen, der Tank und einige Ausstattungsumfänge übernommen wurden. Ansonsten ist das Motorrad ein völlig eigenständiger Entwurf und in weiten Teilen eine Neuentwicklung.

 

Fahrgestell und Design:

Einzigartiges Gesicht, optische Präsenz und Koffer integriert.

Präsenz, kraftvoller Auftritt und luxuriöser Charakter, mit diesen Worten lässt sich die Wirkung der BMW R 1200 CL kurz und treffend beschreiben. Geprägt wird dieses Motorrad von der lenkerfesten Tourenverkleidung, deren Linienführung sich in den separaten seitlichen Verkleidungsteilen am Tank fortsetzt, so dass in der Seitenansicht fast der Eindruck einer integrierten Verkleidung entsteht. Sie bietet dem Fahrer ein hohes Maß an Komfort durch guten Wind- und Wetterschutz.

 

Insgesamt vier in die Verkleidung integrierte Scheinwerfer, zwei für das Abblendlicht und zwei für das Fernlicht, geben dem Motorrad ein unverwechselbares, einzigartiges Gesicht und eine beeindruckende optische Wirkung, die es so bisher noch bei keinem Motorrad gab. Natürlich sorgen die vier Scheinwerfer auch für eine hervorragende Fahrbahnausleuchtung.

Besonders einfallsreich ist die aerodynamische Gestaltung der Verkleidungsscheibe mit ihrem wellenartig ausgeschnittenen oberen Rand. Sie leitet die Strömung so, dass der Fahrer wirkungsvoll geschützt wird. Gleichzeitig kann man aber wegen des Einzugs in der Mitte ungehindert über die Scheibe hinwegschauen und hat somit unabhängig von Nässe und Verschmutzung der Scheibe ein ungestörtes Sichtfeld auf die Straße.

Zur kraftvollen Erscheinung des Motorrades passt der Vorderradkotflügel, der seitlich bis tief zur Felge heruntergezogen ist. Er bietet guten Spritzschutz und unterstreicht zusammen mit dem voluminösen Vorderreifen die Dominanz der Frontpartie, die aber dennoch Gelassenheit und Eleganz ausstrahlt.

 

Der gegenüber den anderen Modellen flacher gestellte Telelever hebt den Cruisercharakter noch mehr hervor. Der Heckbereich wird bestimmt durch die integrierten, fest mit dem Fahrzeug verbundenen Hartschalenkoffer und das abnehmbare Topcase auf der geschwungenen Gepäckbrücke, die zugleich als Soziushaltegriff dient. Koffer und Topcase sind jeweils in Fahrzeugfarbe lackiert und bilden somit ein harmonisches Ganzes mit dem Fahrzeug.

Akzente setzen auch die stufenförmig angeordneten breiten Komfortsitze für Fahrer und Beifahrer mit der charakteristischen hinteren Abstützung. Luxus durch exklusive Farben, edle Oberflächen und Materialien.

 

Die R 1200 CL wird zunächst in drei exklusiven Farben angeboten: perlsilber-metallic und capriblau-metallic mit jeweils schwarzen Sitzen und mojavebraun-metallic mit braunem Sitzbezug (wahlweise auch in schwarz). Die Eleganz der Farben wird unterstützt durch sorgfältige Materialauswahl und perfektes Finish von Oberflächen und Fugen. So ist zum Beispiel die Gepäckbrücke aus Aluminium-Druckguß gefertigt und in weissaluminium lackiert, der Lenker verchromt und die obere Instrumentenabdeckung ebenfalls weissaluminiumfarben lackiert. Die Frontverkleidung ist vollständig mit einer Innenabdeckung versehen, und die Kniepads der seitlichen Verkleidungsteile sind mit dem gleichen Material wie die Sitze überzogen.

All dies unterstreicht den Anspruch auf Luxus und Perfektion.

 

Antrieb jetzt mit neuem, leiserem Sechsganggetriebe - Boxermotor unverändert.

Während der Boxermotor mit 1170 cm³ unverändert von der bisherigen R 1200 C übernommen wurde - auch die Leistungsdaten sind mit 45 kW (61 PS) und 98 Nm Drehmoment bei 3 000 min-1 gleich geblieben -, ist das Getriebe der R 1200 CL neu. Abgeleitet von dem bekannten Getriebe der anderen Boxermodelle hat es jetzt auch sechs Gänge und wurde grundlegend überarbeitet. Als wesentliche Neuerung kommt eine sogenannte Hochverzahnung zum Einsatz. Diese sorgt für einen "weicheren" Zahneingriff und reduziert erheblich die Laufgeräusche der Verzahnung.

 

Der lang übersetzte, als "overdrive" ausgelegte, sechste Gang erlaubt drehzahlschonendes Fahren auf langen Etappen in der Ebene und senkt dort Verbrauch und Geräusch. Statt eines Schalthebels gibt es eine Schaltwippe für Gangwechsel mit einem lässigen Kick. Schaltkomfort, Geräuscharmut, niedrige Drehzahlen und dennoch genügend Kraft - Eigenschaften, die zum Genusscharakter des Fahrzeugs hervorragend passen.

Dass auch die R 1200 CL, wie jedes seit 1997 neu eingeführte BMW Motorrad weltweit, serienmäßig über die jeweils modernste Abgasreinigungstechnologie mit geregeltem Drei-Wege-Katalysator verfügt, muss fast nicht mehr erwähnt werden. Es ist bei BMW zur Selbstverständlichkeit geworden.

Fahrwerkselemente für noch mehr Komfort - Telelever neu und hinteres Federbein mit wegabhängiger Dämpfung.

Ein cruisertypisches Merkmal ist die nach vorn gestreckte Vorderradführung mit flachem Winkel zur Fahrbahn und großem Nachlauf. Dazu wurde für die R 1200 CL der nach wie vor einzigartige BMW Telelever neu ausgelegt.

 

Die Gabelholme stehen weiter auseinander, um dem bulligen, 150 mm breiten Vorderradreifen Platz zu bieten.

Für die Hinterradfederung kommt ein Federbein mit wegabhängiger Dämpfung zum Einsatz, das sich durch hervorragende Komforteigenschaften auszeichnet. Der Gesamtfederweg wuchs um 20 mm gegenüber den anderen Cruisermodellen auf jetzt 120 mm. Die Federbasisverstellung zur Anpassung an den Beladungszustand erfolgt hydraulisch über ein bequem zugängliches Handrad.

Hinterradschwinge optimiert und Heckrahmen neu.

 

Die Hinterradschwinge mit Hinterachsgehäuse, der BMW Monolever, wurde verstärkt und zur Aufnahme einer größeren Hinterradbremse angepasst.

Der verstärkte Heckrahmen ist vollständig neu, um Trittbretter, Kofferhalter, Gepäckbrücke und die neuen Sitze sowie die modifizierte Seitenstütze aufnehmen zu können. Der Vorderrahmen aus Aluminiumguss wurde mit geringfügigen Modifikationen von der bisherigen R 1200 C übernommen.

Räder aus Aluminiumguss, Sitze, Trittbretter und Lenker - alles neu.

Der optische Eindruck eines Motorrades wird ganz wesentlich auch von den Rädern bestimmt. Die R 1200 CL hat avantgardistisch gestaltete neue Gussräder aus Aluminium mit 16 Zoll (vorne) beziehungsweise 15 Zoll (hinten) Felgendurchmesser, die voluminöse Reifen im Format 150/80 vorne und 170/80 hinten aufnehmen.

 

Die Sitze sind für Fahrer und Beifahrer getrennt ausgeführt, um den unterschiedlichen Bedürfnissen gerecht zu werden. So ist der breite Komfortsattel für den Fahrer mit einer integrierten Beckenabstützung versehen und bietet einen hervorragenden Halt. Die Sitzhöhe beträgt 745 mm. Der Sitz für den Passagier ist ebenfalls ganz auf Bequemlichkeit ausgelegt und etwas höher als der Fahrersitz angeordnet. Dadurch hat der Beifahrer einen besseren Blick am Fahrer vorbei und kann beim Cruisen die Landschaft ungestört genießen.

Großzügige cruisertypische Trittbretter für den Fahrer tragen zum entspannten Sitzen bei. Die Soziusfußrasten, die von der K 1200 LT abgeleitet sind, bieten ebenfalls sehr guten Halt und ermöglichen zusammen mit dem günstigen Kniebeugewinkel auch dem Beifahrer ein ermüdungsfreies Touren.

Der breite, verchromte Lenker vermittelt nicht nur Cruiser-Feeling; Höhe und Kröpfungswinkel sind so ausgelegt, dass auch auf langen Fahrten keine Verspannungen auftreten. Handhebel und Schalter mit der bewährten und eigenständigen BMW Bedienlogik wurden unverändert von den anderen Modellen übernommen.

 

HighTech bei den Bremsen - BMW EVO-Bremse und als Sonderausstattung Integral ABS.

Sicherheit hat bei BMW traditionell höchste Priorität. Deshalb kommt bei der R 1200 CL die schon in anderen BMW Motorrädern bewährte EVO-Bremse am Vorderrad zum Einsatz, die sich durch eine verbesserte Bremsleistung auszeichnet. Auf Wunsch gibt es das einzigartige BMW Integral ABS, dem Charakter des Motorrades entsprechend in der Vollintegralversion. Das heißt, unabhängig ob der Hand- oder Fußbremshebel betätigt wird, immer wirkt die Bremskraft optimal auf beide Räder. Im Vorderrad verzögert eine Doppel-Scheibenbremse mit 305 mm Scheibendurchmesser und im Hinterrad die von der K 1200 LT übernommene Einscheiben-Bremsanlage mit einem Scheibendurchmesser von 285 mm.

 

Fortschrittliche Elektrik: Vierfach-Scheinwerfer, wartungsarme Batterie und elektronischer Tachometer.

Vier Scheinwerfer, je zwei für das Abblend- und Fernlicht, geben dem Motorrad von vorne ein einzigartiges prägnantes Gesicht. Durch die kreuzweise Anordnung - die Abblendscheinwerfer sitzen nebeneinander und die Fernscheinwerfer dazwischen und übereinander - wird eine hohe Signalwirkung bei Tag und eine hervorragende Fahrbahnausleuchtung bei Dunkelheit erzielt.

Neu ist die wartungsarme, komplett gekapselte Gel-Batterie, bei der kein Wasser mehr nachgefüllt werden muss. Eine zweite Steckdose ist serienmäßig. Die Instrumente sind ebenfalls neu. Drehzahlmesser und Tachometer sind elektronisch und die Zifferblätter neu gestaltetet, ebenso die Analoguhr.

 

Umfangreiche Sonderausstattung für Sicherheit, Komfort und individuellen Luxus.

Die Sonderausstattung der R 1200 CL ist sehr umfangreich und reicht vom BMW Integral ABS für sicheres Bremsen über Komfortausstattungen wie Temporegelung, heizbare Lenkergriffe und Sitzheizung bis hin zu luxuriöser Individualisierung mit Softtouchsitzen, Chrompaket und fernbedientem Radio mit CD-Laufwerk.

Owned by Post Alarm Systems

 

61st Annual Road Kings Car Show at Santa Anita Park

The 2012 Show: www.flickr.com/photos/98560172@N02/sets/72157634765752621/

 

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Auf herrlich gewundenen Küsten- und Passstraßen die Lust und das lockere Spiel zwischen Schwerkraft und Fliehkraft zu erleben. Zu erleben wie von Kilometer zu Kilometer die positiven Gefühle intensiver werden - links, rechts, links - Landschaften und Gedanken dahin gleiten... bald schon jene Augenblicke kommen, wo die Enge der Zivilisation der überwältigenden Szenerie der Natur Platz macht und beruhigende Geräusche des Motors und Formen verschmelzen...

 

:: Бернхард Эггер, Motorrad, rumoto, Россия, Берни Эггерян, ФОТОГРАФ, カメラマン, Мотоциклы и байкеры, 摩托, 車, バイク, classic, Cruiser, emotion, emotions, Faszination, Leidenschaft, Maschine, Moto, motocyclisme, Motorcycle, Motorcycles, Motorrad, Motorräder, Motorbike, دراجةنارية λέταאופנוע, 오토바이, Motocicletă, Мотоцикл, รถจักรยานยนต์, 摩托车, Motorcykel, Mootorratas, Moottoripyörä, Motosiklèt, Motorkerékpár, Motocikls, Motociklas, Motorsykkel, Motocykl, Motocicleta, Motocykel, Motosiklet, passion, satisfaction, R 1200 CL, BMW, Boxer, german, Autriche, Woodcliff Lake, New Jersey, Phoenix, Euro, Montana Stiletto, luxury, touring-cruiser, luxury-touring, long-distance, Telelever, Paralever, Monolever, ABS, riding, ride, Pearl Silver Metallic, MoDiTec, diagnostic, drivetrain, top box, Topcase, comfort, bequem, sicher, safety

 

- - - - -

 

Woodcliff Lake, New Jersey, August 2002 ...

 

Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.

 

Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.

 

Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.

 

Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.

 

The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.

 

The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).

 

The R 1200 CL Engine: Gearing For The Long Haul

 

BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.

 

While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.

 

In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.

 

The CL Chassis: Wheeled Luggage Never Worked This Well

 

Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.

 

Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.

 

The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.

 

All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.

 

The CL Bodywork: Dressed To The Nines

 

Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).

 

The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.

 

Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.

 

Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.

 

Options & Accessories: More Personal Than A Monogram

 

Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.

 

Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.

 

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--

BMW R 1200 CL - Woodcliff Lake, New Jersey, August 2002 ... Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.

 

Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.

 

Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.

 

Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.

shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).

 

The R 1200 CL Engine: Gearing For The Long Haul

 

BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.

 

While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.

 

In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.

 

The CL Chassis: Wheeled Luggage Never Worked This Well

 

Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.

 

Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.

 

The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.

 

All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.

 

The CL Bodywork: Dressed To The Nines

 

Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).

 

The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.

 

Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.

 

Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.

 

Options & Accessories: More Personal Than A Monogram

 

Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.

 

Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.

 

The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.

 

The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is

 

- - - - -

 

Der Luxus-Cruiser zum genußvollen Touren.

 

Die Motorradwelt war überrascht, als BMW Motorrad 1997 die R 1200 C, den ersten Cruiser in der Geschichte des Hauses, vorstellte. Mit dem einzigartigen Zweizylinder-Boxermotor und einem unverwechselbar eigenständigen Design gelang es auf Anhieb, sich in diesem bis dato von BMW nicht besetzten Marktsegment erfolgreich zu positionieren. Bisher wurden neben dem Basismodell R 1200 C Classic die technisch nahezu identischen Modellvarianten Avantgarde und Independent angeboten, die sich in Farbgebung, Designelementen und Ausstattungsdetails unterscheiden.

Zur Angebotserweiterung und zur Erschließung zusätzlicher Potenziale, präsentiert BMW Motorrad für das Modelljahr 2003 ein neues Mitglied der Cruiserfamilie, den Luxus-Cruiser R 1200 CL. Er wird seine Weltpremiere im September in München auf der INTERMOT haben und voraussichtlich im Herbst 2002 auf den Markt kommen. Der Grundgedanke war, Elemente von Tourenmotorrädern auf einen Cruiser zu übertragen und ein Motorrad zu entwickeln, das Eigenschaften aus beiden Fahrzeuggattungen aufweist.

So entstand ein eigenständiges Modell, ein Cruiser zum genussvollen Touren, bei dem in Komfort und Ausstattung keine Wünsche offen bleiben.

Als technische Basis diente die R 1200 C, von der aber im wesentlichen nur der Motor, der Hinterradantrieb, der Vorderrahmen, der Tank und einige Ausstattungsumfänge übernommen wurden. Ansonsten ist das Motorrad ein völlig eigenständiger Entwurf und in weiten Teilen eine Neuentwicklung.

 

Fahrgestell und Design:

Einzigartiges Gesicht, optische Präsenz und Koffer integriert.

Präsenz, kraftvoller Auftritt und luxuriöser Charakter, mit diesen Worten lässt sich die Wirkung der BMW R 1200 CL kurz und treffend beschreiben. Geprägt wird dieses Motorrad von der lenkerfesten Tourenverkleidung, deren Linienführung sich in den separaten seitlichen Verkleidungsteilen am Tank fortsetzt, so dass in der Seitenansicht fast der Eindruck einer integrierten Verkleidung entsteht. Sie bietet dem Fahrer ein hohes Maß an Komfort durch guten Wind- und Wetterschutz.

 

Insgesamt vier in die Verkleidung integrierte Scheinwerfer, zwei für das Abblendlicht und zwei für das Fernlicht, geben dem Motorrad ein unverwechselbares, einzigartiges Gesicht und eine beeindruckende optische Wirkung, die es so bisher noch bei keinem Motorrad gab. Natürlich sorgen die vier Scheinwerfer auch für eine hervorragende Fahrbahnausleuchtung.

Besonders einfallsreich ist die aerodynamische Gestaltung der Verkleidungsscheibe mit ihrem wellenartig ausgeschnittenen oberen Rand. Sie leitet die Strömung so, dass der Fahrer wirkungsvoll geschützt wird. Gleichzeitig kann man aber wegen des Einzugs in der Mitte ungehindert über die Scheibe hinwegschauen und hat somit unabhängig von Nässe und Verschmutzung der Scheibe ein ungestörtes Sichtfeld auf die Straße.

Zur kraftvollen Erscheinung des Motorrades passt der Vorderradkotflügel, der seitlich bis tief zur Felge heruntergezogen ist. Er bietet guten Spritzschutz und unterstreicht zusammen mit dem voluminösen Vorderreifen die Dominanz der Frontpartie, die aber dennoch Gelassenheit und Eleganz ausstrahlt.

 

Der gegenüber den anderen Modellen flacher gestellte Telelever hebt den Cruisercharakter noch mehr hervor. Der Heckbereich wird bestimmt durch die integrierten, fest mit dem Fahrzeug verbundenen Hartschalenkoffer und das abnehmbare Topcase auf der geschwungenen Gepäckbrücke, die zugleich als Soziushaltegriff dient. Koffer und Topcase sind jeweils in Fahrzeugfarbe lackiert und bilden somit ein harmonisches Ganzes mit dem Fahrzeug.

Akzente setzen auch die stufenförmig angeordneten breiten Komfortsitze für Fahrer und Beifahrer mit der charakteristischen hinteren Abstützung. Luxus durch exklusive Farben, edle Oberflächen und Materialien.

 

Die R 1200 CL wird zunächst in drei exklusiven Farben angeboten: perlsilber-metallic und capriblau-metallic mit jeweils schwarzen Sitzen und mojavebraun-metallic mit braunem Sitzbezug (wahlweise auch in schwarz). Die Eleganz der Farben wird unterstützt durch sorgfältige Materialauswahl und perfektes Finish von Oberflächen und Fugen. So ist zum Beispiel die Gepäckbrücke aus Aluminium-Druckguß gefertigt und in weissaluminium lackiert, der Lenker verchromt und die obere Instrumentenabdeckung ebenfalls weissaluminiumfarben lackiert. Die Frontverkleidung ist vollständig mit einer Innenabdeckung versehen, und die Kniepads der seitlichen Verkleidungsteile sind mit dem gleichen Material wie die Sitze überzogen.

All dies unterstreicht den Anspruch auf Luxus und Perfektion.

 

Antrieb jetzt mit neuem, leiserem Sechsganggetriebe - Boxermotor unverändert.

Während der Boxermotor mit 1170 cm³ unverändert von der bisherigen R 1200 C übernommen wurde - auch die Leistungsdaten sind mit 45 kW (61 PS) und 98 Nm Drehmoment bei 3 000 min-1 gleich geblieben -, ist das Getriebe der R 1200 CL neu. Abgeleitet von dem bekannten Getriebe der anderen Boxermodelle hat es jetzt auch sechs Gänge und wurde grundlegend überarbeitet. Als wesentliche Neuerung kommt eine sogenannte Hochverzahnung zum Einsatz. Diese sorgt für einen "weicheren" Zahneingriff und reduziert erheblich die Laufgeräusche der Verzahnung.

 

Der lang übersetzte, als "overdrive" ausgelegte, sechste Gang erlaubt drehzahlschonendes Fahren auf langen Etappen in der Ebene und senkt dort Verbrauch und Geräusch. Statt eines Schalthebels gibt es eine Schaltwippe für Gangwechsel mit einem lässigen Kick. Schaltkomfort, Geräuscharmut, niedrige Drehzahlen und dennoch genügend Kraft - Eigenschaften, die zum Genusscharakter des Fahrzeugs hervorragend passen.

 

Dass auch die R 1200 CL, wie jedes seit 1997 neu eingeführte BMW Motorrad weltweit, serienmäßig über die jeweils modernste Abgasreinigungstechnologie mit geregeltem Drei-Wege-Katalysator verfügt, muss fast nicht mehr erwähnt werden. Es ist bei BMW zur Selbstverständlichkeit geworden.

Fahrwerkselemente für noch mehr Komfort - Telelever neu und hinteres Federbein mit wegabhängiger Dämpfung.

Ein cruisertypisches Merkmal ist die nach vorn gestreckte Vorderradführung mit flachem Winkel zur Fahrbahn und großem Nachlauf. Dazu wurde für die R 1200 CL der nach wie vor einzigartige BMW Telelever neu ausgelegt.

 

Die Gabelholme stehen weiter auseinander, um dem bulligen, 150 mm breiten Vorderradreifen Platz zu bieten.

Für die Hinterradfederung kommt ein Federbein mit wegabhängiger Dämpfung zum Einsatz, das sich durch hervorragende Komforteigenschaften auszeichnet. Der Gesamtfederweg wuchs um 20 mm gegenüber den anderen Cruisermodellen auf jetzt 120 mm. Die Federbasisverstellung zur Anpassung an den Beladungszustand erfolgt hydraulisch über ein bequem zugängliches Handrad.

Hinterradschwinge optimiert und Heckrahmen neu.

 

Die Hinterradschwinge mit Hinterachsgehäuse, der BMW Monolever, wurde verstärkt und zur Aufnahme einer größeren Hinterradbremse angepasst.

Der verstärkte Heckrahmen ist vollständig neu, um Trittbretter, Kofferhalter, Gepäckbrücke und die neuen Sitze sowie die modifizierte Seitenstütze aufnehmen zu können. Der Vorderrahmen aus Aluminiumguss wurde mit geringfügigen Modifikationen von der bisherigen R 1200 C übernommen.

Räder aus Aluminiumguss, Sitze, Trittbretter und Lenker - alles neu.

Der optische Eindruck eines Motorrades wird ganz wesentlich auch von den Rädern bestimmt. Die R 1200 CL hat avantgardistisch gestaltete neue Gussräder aus Aluminium mit 16 Zoll (vorne) beziehungsweise 15 Zoll (hinten) Felgendurchmesser, die voluminöse Reifen im Format 150/80 vorne und 170/80 hinten aufnehmen.

 

Die Sitze sind für Fahrer und Beifahrer getrennt ausgeführt, um den unterschiedlichen Bedürfnissen gerecht zu werden. So ist der breite Komfortsattel für den Fahrer mit einer integrierten Beckenabstützung versehen und bietet einen hervorragenden Halt. Die Sitzhöhe beträgt 745 mm. Der Sitz für den Passagier ist ebenfalls ganz auf Bequemlichkeit ausgelegt und etwas höher als der Fahrersitz angeordnet. Dadurch hat der Beifahrer einen besseren Blick am Fahrer vorbei und kann beim Cruisen die Landschaft ungestört genießen.

Großzügige cruisertypische Trittbretter für den Fahrer tragen zum entspannten Sitzen bei. Die Soziusfußrasten, die von der K 1200 LT abgeleitet sind, bieten ebenfalls sehr guten Halt und ermöglichen zusammen mit dem günstigen Kniebeugewinkel auch dem Beifahrer ein ermüdungsfreies Touren.

Der breite, verchromte Lenker vermittelt nicht nur Cruiser-Feeling; Höhe und Kröpfungswinkel sind so ausgelegt, dass auch auf langen Fahrten keine Verspannungen auftreten. Handhebel und Schalter mit der bewährten und eigenständigen BMW Bedienlogik wurden unverändert von den anderen Modellen übernommen.

 

HighTech bei den Bremsen - BMW EVO-Bremse und als Sonderausstattung Integral ABS.

Sicherheit hat bei BMW traditionell höchste Priorität. Deshalb kommt bei der R 1200 CL die schon in anderen BMW Motorrädern bewährte EVO-Bremse am Vorderrad zum Einsatz, die sich durch eine verbesserte Bremsleistung auszeichnet. Auf Wunsch gibt es das einzigartige BMW Integral ABS, dem Charakter des Motorrades entsprechend in der Vollintegralversion. Das heißt, unabhängig ob der Hand- oder Fußbremshebel betätigt wird, immer wirkt die Bremskraft optimal auf beide Räder. Im Vorderrad verzögert eine Doppel-Scheibenbremse mit 305 mm Scheibendurchmesser und im Hinterrad die von der K 1200 LT übernommene Einscheiben-Bremsanlage mit einem Scheibendurchmesser von 285 mm.

 

Fortschrittliche Elektrik: Vierfach-Scheinwerfer, wartungsarme Batterie und elektronischer Tachometer.

Vier Scheinwerfer, je zwei für das Abblend- und Fernlicht, geben dem Motorrad von vorne ein einzigartiges prägnantes Gesicht. Durch die kreuzweise Anordnung - die Abblendscheinwerfer sitzen nebeneinander und die Fernscheinwerfer dazwischen und übereinander - wird eine hohe Signalwirkung bei Tag und eine hervorragende Fahrbahnausleuchtung bei Dunkelheit erzielt.

Neu ist die wartungsarme, komplett gekapselte Gel-Batterie, bei der kein Wasser mehr nachgefüllt werden muss. Eine zweite Steckdose ist serienmäßig. Die Instrumente sind ebenfalls neu. Drehzahlmesser und Tachometer sind elektronisch und die Zifferblätter neu gestaltetet, ebenso die Analoguhr.

 

Umfangreiche Sonderausstattung für Sicherheit, Komfort und individuellen Luxus.

Die Sonderausstattung der R 1200 CL ist sehr umfangreich und reicht vom BMW Integral ABS für sicheres Bremsen über Komfortausstattungen wie Temporegelung, heizbare Lenkergriffe und Sitzheizung bis hin zu luxuriöser Individualisierung mit Softtouchsitzen, Chrompaket und fernbedientem Radio mit CD-Laufwerk.

South chancel window by Clayton & Bell, 1860.

 

St Mary's church in Lapworth is one of the most rewarding and unusual medieval parish churches in Warwickshire. The visitor generally approaches this handsome building from the north where the sturdy tower and spire stand guard like a sentinel. It is unusual in standing apart from the main building and was originally detached but is now linked by a passageway to the north aisle, making the church almost as wide as it is long. The west end too is remarkably configured with a chantry chapel or room set above an archway (allowing passage across the churchyard below).

 

The church we see today dates mainly from the 13th / 14th centuries, with an impressive fifteenth century clerestorey added to the nave being a prominent feature externally, but within it is possible to discern traces of the previous Norman structure embedded below in the nave arcade. There is much of interest to enjoy in this pleasant interior from quirky carvings high in the nave to the rich stained glass in the chancel and north chapel (which has benefitted immensely from a newly inserted window where the east wall had previously been blank). The most interesting memorial is the relief tablet in the north chapel by Eric Gill.

 

Lapworth church has consistently welcomed visitors and remains militantly open now despite being surrounded by churches largely reluctant to re-open after Covid. Happily since Tony Naylor's fine new window was installed the previous alarm system that restricted access to the eastern half of the church (which I inadvertedly set off on my first ever visit, deafening the neighbours!) has been relaxed so that visitors can now enjoy the full extent of the interior and its fittings.

stmaryslapworth.org.uk/

Of all the ninja in the Bijou Planks Fight Club, Miki considers himself the sneakiest. He is known for jumping out of the ring, crawling under the ring, and then climbing back in the other side! Of course, since he is known for doing this... it's not really very sneaky and catches no one by surprise.

 

Miki is also sneaky in his personal life as well. He doesn't use the door to his apartment but rather sneaks in through the window. Which has proven problematic with his new alarm system.

 

Anyway, no matter where you are, watch the shadows and you just might spot Sneaky Miki doing his thing.

__________________________

A year of the shows and performers of the Bijou Planks Theater.

 

See the entire Bijou Planks Fight Club here:

www.flickr.com/photos/paprihaven/25661469168/

Garden at Caloola, Sunbury. Caloola buildings are set in extensive grounds with plantings of mature trees and remnant farmland. Caloola commenced in 1864 as an Industrial School, was redeveloped in 1879 as a Lunatic Asylum, substantially enlarged in the period 1891 to 1914 and was maintained in use as a psychiatric hospital (1879-1968) and later a training centre for the intellectually disabled (1962-1992). Part of the site became a Victoria University campus from 1994 to 2011 and the remainder is in use by the Department of Education.

  

The Industrial School consisted of ten basalt buildings (nine extant), designed under the direction of Public Works Department Inspector General William Wardell and constructed in 1865-66, four workrooms, kitchen, hospital, basalt farm building, road and stone wall remnants which were used to house and train neglected children in the 1860s. Boys in the Sunbury Industrial School worked on the farm and in the tailoring and shoe-making workshops to maintain themselves whilst in the institution and were given some basic education. Major alterations were undertaken to the earlier basalt wards in the period 1908-12 when the buildings were linked.

  

The Industrial School at Sunbury is believed to be the earliest surviving example in Victoria; of the original twelve industrial schools: only one other, constructed in 1875-76, survives at North West Hospital, Parkville.

  

The purpose built Sunbury Lunatic Asylum, constructed mainly between 1892 and 1912, was designed and constructed mainly under the direction of the Chief Architect of the Victorian Public Works Department, George Watson. A site plan was prepared by the talented architect Henry Bastow in 1888. Its pavilion wards in brick with terra cotta roofing tiles conformed to international standards of asylum and hospital planning adopted in the later nineteenth century and were a departure from the single monolithic buildings constructed at Kew and Beechworth. Electric lighting was installed in the wards in 1905-6. A tramway was laid linking the rear of the wards with the kitchen (built 1906-7) in 1908. Telephone and fire alarm systems were installed to connect the 20 separate buildings of the asylum in 1911.

  

The landscape designed by prominent landscape designer Hugh Linaker dates principally from the inter-war period The landscape also includes mature trees , mainly pines, cypress, oaks and elms and the remains of a drystone perimeter wall and a later brick ha ha wall.

  

How is it significant?

  

Caloola is of historical, architectural, aesthetic, archaeological and social significance to the State of Victoria.

  

Why is it significant?

  

The Caloola complex is of historical significance for its demonstration of attitudes to child welfare and mental health in its early industrial school buildings and asylum buildings, airing courts and gardens. .

  

Caloola is historically significant for the former Industrial School buildings constructed mainly from 1865-66. The school operated from 1865 to 1879 as the first purpose-built Industrial School in Victoria. The buildings at Sunbury are demonstrative of the harsh conditions which characterised such schools for neglected or delinquent children. The former Industrial School hospital (1865) is amongst the earliest hospital buildings surviving in the state.

  

Caloola is of historical significance for its typical asylum landscaping and site planning, its airing courts (many of which retain early sunshades and privies) and a complete example of a sunken wall (or ha ha wall). Asylums were typically distant from population centres, with extensive grounds and ha ha walls to prevent escape.

  

Caloola is historically significant for its purpose built Sunbury Lunatic Asylum, constructed between 1892 and 1912. Caloola's large and architecturally impressive buildings in a curved detached pavilion arrangement demonstrate changes in the accommodation and treatment of mentally ill patients in the nineteenth century. The clear evidence of farming operations also demonstrates the policy of employing boys in industrial schools to train them in farm work and the later policy of involving physically able mentally ill patients in outdoor work.

  

Caloola is of historical significance for its physical fabric and spaces which demonstrate nineteenth century attitudes to the treatment of mental illness, including the padded cells, ripple iron cells and dormitory accommodation. The female refractory ward, originally designed for male criminally insane patients, demonstrates contemporary practices in dealing with female patients who were transferred from the general wards for disruptive behaviour.

  

The Caloola complex is of historical significance for their association with the talented Public Works Department architects from the 1860s, and particularly associated with Henry Bastow and Chief Architect George Watson, who were responsible for the design of the pavilion buildings from the 1890s to 1912. Its association with noted landscape designer, Hugh Linaker, who was responsible for the grounds from 1912, is also significant.

  

The Caloola site is of archaeological significance for its potential to contain historical archaeological features, deposits and relics that relate to the construction and use of the Industrial School and the Lunatic Asylum.

  

Caloola is of architectural significance for its institutional buildings of the 1860s and the 1890s. Its industrial school buildings of the 1860s are typical of the Public Works Department output of the 1860s, use local material, have simple classically derived detailing and gain much of their importance by the repetition of forms. Major alterations were undertaken to the earlier basalt wards in the period 1908-12 when the buildings were linked. The planning of these links is accomplished and contributed to the continuity of use of the site and represented changing attitudes to mental health.

  

The site at Sunbury is architecturally significant for its rare and intact examples of an industrial school and a late nineteenth century lunatic asylum. The site contains rare examples of hairpin fencing used to enclose airing courts for patients. Outdoor shelters or sunshades for patients are also uncommon in Victoria.

  

The Caloola complex is of architectural significance for its industrial school and asylum buildings. The earliest of the remaining buildings of the Sunbury Industrial School are architecturally significant as forming the earliest purpose built example of its type,. They are important for their bluestone construction and austere style which distinguished them from the later asylum buildings. The 1860s buildings which exhibit classically derived detailing are constructed of local basalt. The red brick and timber buildings of the principal phase of asylum expansion of 1891 to 1912 are of architectural significance for innovative design as a pavilion hospital grouping and include distinctive detailing.

  

Caloola is architecturally significant as a former lunatic asylum, one of several surviving in the state. It demonstrates typical characteristics such as formal planning, use of sunken walls (ha ha walls), airing courts and a diverse range of building types to cater for the patient and staff population. They gain their architectural significance from the unity of materials, overall cohesiveness of design, consistent and distinctive detailing (especially in the unusual use of buttresses and steep roofs in the former hospital wards), impressive site planning and spacious setting.

  

The Caloola complex is of aesthetic significance for the quality and range of its architecture and garden elements, consistent use of basalt, red brick and terra cotta tiles, its consistency of architectural styles and materials within the two major building phases, for its landscape planning and plantings and for its prominent siting on the hill with views to and from the site...(VHR)

The YG class meter gauge locomotive was built in 1956 by Wiener Lokomotivfabrik, Floridsdorf, Germany.

 

It was serving Badarpur Steam Loco Shed of NFR and was retired from service in 1997.

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Indian Railways (reporting mark IR) is an Indian state-owned enterprise, owned and operated by the Government of India through the Ministry of Railways. It is one of the world's largest railway networks comprising 115,000 km of track over a route of 65,808 km and 7,112 stations. In 2014-15, IR carried 8.397 billion passengers annually or more than 23 million passengers a day (roughly half of whom were suburban passengers) and 1058.81 million tons of freight in the year. On world level Ghaziabad is the largest manufacturer of Railway Engines. In 2014–2015 Indian Railways had revenues of ₹1634.50 billion (US$25 billion) which consists of ₹1069.27 billion (US$16 billion) from freight and ₹402.80 billion (US$6.1 billion) from passengers tickets.

 

Railways were first introduced to India in the year 1853 from Mumbai to Thane. In 1951 the systems were nationalised as one unit, the Indian Railways, becoming one of the largest networks in the world. IR operates both long distance and suburban rail systems on a multi-gauge network of broad, metre and narrow gauges. It also owns locomotive and coach production facilities at several places in India and are assigned codes identifying their gauge, kind of power and type of operation. Its operations cover twenty nine states and seven union territories and also provides limited international services to Nepal, Bangladesh and Pakistan. Indian Railways is the world's seventh largest commercial or utility employer, by number of employees, with over 1.334 million employees as of last published figures in 2013. As for rolling stock, IR holds over 245,267 Freight Wagons, 66,392 Passenger Coaches and 10,499 Locomotives (43 steam, 5,633 diesel and 4,823 electric locomotives). The trains have a 5 digit numbering system and runs 12,617 passenger trains and 7421 freight trains daily. As of 31 March 2013, 21,614 km (32.8%) of the total 65,808 km route length was electrified. Since 1960, almost all electrified sections on IR use 25,000 Volt AC traction through overhead catenary delivery.

 

HISTORY

The history of rail transport in India began in the mid-nineteenth century. The core of the pressure for building Railways In India came from London. In 1848, there was not a single kilometre of railway line in India. The country's first railway, built by the Great Indian Peninsula Railway (GIPR), opened in 1853, between Bombay and Thane. A British engineer, Robert Maitland Brereton, was responsible for the expansion of the railways from 1857 onwards. The Allahabad-Jabalpur branch line of the East Indian Railway had been opened in June 1867. Brereton was responsible for linking this with the GIPR, resulting in a combined network of 6,400 km. Hence it became possible to travel directly from Bombay to Calcutta. This route was officially opened on 7 March 1870 and it was part of the inspiration for French writer Jules Verne's book Around the World in Eighty Days. At the opening ceremony, the Viceroy Lord Mayo concluded that "it was thought desirable that, if possible, at the earliest possible moment, the whole country should be covered with a network of lines in a uniform system".

 

By 1875, about £95 million were invested by British companies in India. Guaranteed railways. By 1880 the network had a route mileage of about 14,500 km, mostly radiating inward from the three major port cities of Bombay, Madras and Calcutta. By 1895, India had started building its own locomotives, and in 1896, sent engineers and locomotives to help build the Uganda Railways.

 

In 1900, the GIPR became a government owned company. The network spread to the modern day states of Assam, Rajputhana and Madras Presidency and soon various autonomous kingdoms began to have their own rail systems. In 1905, an early Railway Board was constituted, but the powers were formally vested under Lord Curzon. It served under the Department of Commerce and Industry and had a government railway official serving as chairman, and a railway manager from England and an agent of one of the company railways as the other two members. For the first time in its history, the Railways began to make a profit.

 

In 1907 almost all the rail companies were taken over by the government. The following year, the first electric locomotive made its appearance. With the arrival of World War I, the railways were used to meet the needs of the British outside India. With the end of the war, the railways were in a state of disrepair and collapse. Large scale corruption by British officials involved in the running of these railways companies was rampant. Profits were never reinvested in the development of British colonial India.

 

In 1920, with the network having expanded to 61,220 km, a need for central management was mooted by Sir William Acworth. Based on the East India Railway Committee chaired by Acworth, the government took over the management of the Railways and detached the finances of the Railways from other governmental revenues.

 

The period between 1920 and 1929, was a period of economic boom; there were 66,000 km of railway lines serving the country; the railways represented a capital value of some 687 million sterling; and they carried over 620 million passengers and approximately 90 million tons of goods each year. Following the Great Depression, the railways suffered economically for the next eight years. The Second World War severely crippled the railways. Starting 1939, about 40% of the rolling stock including locomotives and coaches was taken to the Middle East, the railways workshops were converted to ammunitions workshops and many railway tracks were dismantled to help the Allies in the war. By 1946, all rail systems had been taken over by the government.

 

ORGANISATIONAL STRUCTURE

RAILWAY ZONES

Indian Railways is divided into 16 zones, which are further sub-divided into divisions. The number of zones in Indian Railways increased from six to eight in 1951, nine in 1966 and seventeen in 2003. Each zonal railway is made up of a certain number of divisions, each having a divisional headquarters. There are a total of sixty-eight divisions.

 

Each zone is headed by a general manager, who reports directly to the Railway Board. The zones are further divided into divisions, under the control of divisional railway managers (DRM). The divisional officers, of engineering, mechanical, electrical, signal and telecommunication, accounts, personnel, operating, commercial, security and safety branches, report to the respective Divisional Railway Manager and are in charge of operation and maintenance of assets. Further down the hierarchy tree are the station masters, who control individual stations and train movements through the track territory under their stations' administration.

 

RECRUITMENT AND TRAINING

Staff are classified into gazetted (Group 'A' and 'B') and non-gazetted (Group 'C' and 'D') employees. The recruitment of Group 'A' gazetted employees is carried out by the Union Public Service Commission through exams conducted by it. The recruitment to Group 'C' and 'D' employees on the Indian Railways is done through 20 Railway Recruitment Boards and Railway Recruitment Cells which are controlled by the Railway Recruitment Control Board (RRCB). The training of all cadres is entrusted and shared between six centralised training institutes.

 

ROLLING STOCK

LOCOMOTIVES

Locomotives in India consist of electric and diesel locomotives. The world's first CNG (Compressed Natural Gas) locomotives are also being used. Steam locomotives are no longer used, except in heritage trains. In India, locomotives are classified according to their track gauge, motive power, the work they are suited for and their power or model number. The class name includes this information about the locomotive. It comprises 4 or 5 letters. The first letter denotes the track gauge. The second letter denotes their motive power (Diesel or Alternating - on Electric) and the third letter denotes the kind of traffic for which they are suited (goods, passenger, Multi or shunting). The fourth letter used to denote locomotives' chronological model number. However, from 2002 a new classification scheme has been adopted. Under this system, for newer diesel locomotives, the fourth letter will denote their horsepower range. Electric locomotives don't come under this scheme and even all diesel locos are not covered. For them this letter denotes their model number as usual.In world level Ghaziabad is the largest manufacturer of Locomotive.

 

A locomotive may sometimes have a fifth letter in its name which generally denotes a technical variant or subclass or subtype. This fifth letter indicates some smaller variation in the basic model or series, perhaps different motors, or a different manufacturer. With the new scheme for classifying diesel locomotives (as mentioned above) the fifth item is a letter that further refines the horsepower indication in 100 hp increments: 'A' for 100 hp, 'B' for 200 hp, 'C' for 300 hp, etc. So in this scheme, a WDM-3A refers to a 3100 hp loco, while a WDM-3D would be a 3400 hp loco and WDM-3F would be 3600 hp loco.

 

Note: This classification system does not apply to steam locomotives in India as they have become non-functional now. They retained their original class names such as M class or WP class.

 

Diesel Locomotives are now fitted with Auxiliary Power Units which saves nearly 88% of Fuel during the idle time when train is not running.

 

GOODS WAGONS

The number of goods wagons was 205,596 on 31 March 1951 and reached the maximum number 405,183 on 31 March 1980 after which it started declining and was 239,321 on 31 March 2012. The number is far less than the requirement and the Indian Railways keeps losing freight traffic to road. Indian Railways carried 93 million tonnes of goods in 1950–51 and it increased to 1010 million tonnes in 2012–13.

 

However, its share in goods traffic is much lower than road traffic. In 1951, its share was 65% and the share of road was 35%. Now the shares have been reversed and the share of railways has declined to 30% and the share of road has increased to 70%.

 

PASSENGER COACHES

Indian railways has several types of passenger coaches.

 

Electric Multiple Unit (EMU) coaches are used for suburban traffic in large cities – mainly Mumbai, Chennai, Delhi, Kolkata, Pune, Hyderabad and Bangalore. These coaches numbered 7,793 on 31 March 2012. They have second class and first class seating accommodation.

 

The coaches used in Indian Railways are produced at Integral Coach Factory, Rail Coach Factory.Now,they are producing new LHB coaches.

 

Passenger coaches numbered 46,722 on 31 March 2012. Other coaches (luggage coach, parcel van, guard's coach, mail coach, etc.) numbered 6,560 on 31 March 2012.

 

FREIGHT

Indian Railways earns about 70% of its revenues from freight traffic (₹686.2 billion from freight and ₹304.6 billion from passengers in 2011–12). Most of its profits come from transporting freight, and this makes up for losses on passenger traffic. It deliberately keeps its passenger fares low and cross-subsidises the loss-making passenger traffic with the profit-making freight traffic.

 

Since the 1990s, Indian Railways has stopped single-wagon consignments and provides only full rake freight trains

 

Wagon types include:

 

BOXNHL

BOBYN

BCN

BCNHL

 

TECHNICAL DETAILS

TRACK AND GAUGE

Indian railways uses four gauges, the 1,676 mm broad gauge which is wider than the 1,435 mm standard gauge; the 1,000 mm metre gauge; and two narrow gauges, 762 mm and 610 mm. Track sections are rated for speeds ranging from 75 to 160 km/h.

 

The total length of track used by Indian Railways is about 115,000 km while the total route length of the network is 65,000 km. About 24,891 km or 38% of the route-kilometre was electrified, as of 31 March 2014.

 

Broad gauge is the predominant gauge used by Indian Railways. Indian broad gauge - 1,676 mm - is the most widely used gauge in India with 108,500 km of track length (94% of entire track length of all the gauges) and 59,400 km of route-kilometre (91% of entire route-kilometre of all the gauges).

 

In some regions with less traffic, the metre gauge (1,000 mm) is common, although the Unigauge project is in progress to convert all tracks to broad gauge. The metre gauge has about 5,000 km of track length (4% of entire track length of all the gauges) and 4,100 km of route-kilometre (7% of entire route-kilometre of all the gauges).

 

The Narrow gauges are present on a few routes, lying in hilly terrains and in some erstwhile private railways (on cost considerations), which are usually difficult to convert to broad gauge. Narrow gauges have 1,500 route-kilometre. The Kalka-Shimla Railway, the Kangra Valley Railway and the Darjeeling Himalayan Railway are three notable hill lines that use narrow gauge, but the Nilgiri Mountain Railway is a metre gauge track. These four rail lines will not be converted under the Unigauge project.

 

The share of broad gauge in the total route-kilometre has been steadily rising, increasing from 47% (25,258 route-km) in 1951 to 86% in 2012 whereas the share of metre gauge has declined from 45% (24,185 route-km) to 10% in the same period and the share of narrow gauges has decreased from 8% to 3%. About 24,891 route-km of Indian railways is electrified.

 

Sleepers (ties) are made up of prestressed concrete, or steel or cast iron posts, though teak sleepers are still in use on a few older lines. The prestressed concrete sleeper is in wide use today. Metal sleepers were extensively used before the advent of concrete sleepers. Indian Railways divides the country into four zones on the basis of the range of track temperature. The greatest temperature variations occur in Rajasthan.

 

RESEARCH AND DEVELOPMENT

Indian Railways has a full-fledged organisation known as Research Designs and Standards Organisation (RDSO), located at Lucknow for all research, designs and standardisation tasks.

 

In August 2013, Indian Railways entered into a partnership with Indian Institute of Technology (Madras) to develop technology to tap solar energy for lighting and air-conditioning in the coaches. This would significantly reduce the fossil fuel dependency for Indian Railways.

 

Recently it developed and tested the Improved Automated Fire Alarm System in Rajdhani Express Trains. It is intended that the system be applied to AC coaches of all regular trains.

 

CURRENT AND FUTURE DEVELOPMENTS

In recent years, Indian Railways has undertaken several initiatives to upgrade its ageing infrastructure and enhance its quality of service. The Indian government plans to invest ₹905000 crore (US$137 billion) to upgrade the railways by 2020.

 

TOILETS ON RAILWAYS

In 2014, Indian Railways and DRDO developed a bio-toilet to replace direct-discharge toilets, which are currently the primary type of toilet used in railway coaches. The direct discharge of human waste from trains onto the tracks corrodes rails, costing Indian Railways tens of millions of rupees a year in rail-replacement work. Flushing a bio-toilet discharges human waste into an underfloor holding tank where anaerobic bacteria remove harmful pathogens and break the waste down into neutral water and methane. These harmless by-products can then be safely discharged onto the tracks without causing corrosion or foul odours. As part of its "Swachh Rail-Swachh Bharat" ("Clean Rail-Clean India") programme, Indian Railways plans to completely phase out direct-discharge toilets on its lines by 2020-2021. As of March 2015, 17,338 bio-toilets had been installed on newly built coaches, with all new coaches to have bio-toilets from 2016; older rolling stock will be retrofitted.

 

LOCOMOTIVE FACTORIES

In 2015, plans were disclosed for building two locomotive factories in the state of Bihar, at Madhepura (diesel locomotives) and at Marhowra (electric locomotives). Both factories involve foreign partnerships. The diesel locomotive works will be jointly operated in a partnership with General Electric, which has invested ₹2052 crore (US$310 million) for its construction, and the electric locomotive works with Alstom, which has invested ₹1293.57 crore (US$195 million). The factories will provide Indian Railways with 800 electric locomotives of 12,000 horse power each, and a mix of 1,000 diesel locomotives of 4,500 and 6,000 horsepower each. In November 2015, further details of the ₹14656 crore (US$2 billion) partnership with GE were announced: Indian Railways and GE would engage in an 11-year joint venture in which GE would hold a majority stake of 74%. Under the terms of the joint venture, Indian Railways would purchase 100 goods locomotives a year for 10 years beginning in 2017; the locomotives would be modified versions of the GE Evolution series. The diesel locomotive works will be built by 2018; GE will import the first 100 locomotives and manufacture the remaining 900 in India from 2019, also assuming responsibility for their maintenance over a 13-year period. In the same month, a ₹20000 crore (US$3 billion) partnership with Alstom to supply 800 electric locomotives from 2018 to 2028 was announced.

 

LINKS TO ADJACENT COUNTRIES

EXISTING RAIL LINKS

Nepal – Break-of-gauge – Gauge conversion under uni-gauge project

Pakistan – same Broad Gauge. Thar Express to Karachi and the more famous Samjhauta Express international train from Lahore, Pakistan to Amritsar (Attari).

Bangladesh – Same Broad Gauge. The Maitri Express between Dhaka and Kolkata started in April 2008 using the Gede-Darsana route, in addition to a Freight Train service from Singhabad and Petrapole in India to Rohanpur and Benapole in Bangladesh. A second passenger link between Agartala, India and Akhaura Upazila, Bangladesh was approved by the Government of Bangladesh and India in September 2011.

 

UNDER CONSTRUCTUION / PROPOSED LINKS

Bhutan – railways under construction – Same gauge

Myanmar – Manipur to Myanmar (under construction)

Vietnam – On 9 April 2010, Former Union Minister of India, Shashi Tharoor announced that the central government is considering a rail link from Manipur to Vietnam via Myanmar.

Thailand – possible if Burma Railway is rebuilt.

 

TYPES OF PASSENGER SERVICES

Trains are classified by their average speed. A faster train has fewer stops ("halts") than a slower one and usually caters to long-distance travel.

 

ACCOMODATION CLASSES

Indian Railways has several classes of travel with or without airconditioning. A train may have just one or many classes of travel. Slow passenger trains have only unreserved seating class whereas Rajdhani, Duronto, Shatabdi, garib rath and yuva trains have only airconditioned classes. The fares for all classes are different with unreserved seating class being the cheapest. The fare of Rajdhani, Duronto and Shatabdi trains includes food served in the train but the fare for other trains does not include food that has to be bought separately. In long-distance trains a pantry car is usually included and food is served at the berth or seat itself. Luxury trains such as Palace on Wheels have separate dining cars but these trains cost as much as or more than a five-star hotel room.

 

A standard passenger rake generally has four unreserved (also called "general") compartments, two at the front and two at the end, of which one may be exclusively for ladies. The exact number of other coaches varies according to the demand and the route. A luggage compartment can also exist at the front or the back. In some mail trains a separate mail coach is attached. Lavatories are communal and feature both the Indian style as well as the Western style.

 

The following table lists the classes in operation. A train may not have all these classes.

 

1A First class AC: This is the most expensive class, where the fares are almost at par with air fare. There are eight cabins (including two coupes) in the full AC First Class coach and three cabins (including one coupe) in the half AC First Class coach. The coach has an attendant to help the passengers. Bedding is included with the fare in IR. This air conditioned coach is present only on popular routes and can carry 18 passengers (full coach) or 10 passengers (half coach). The sleeper berths are extremely wide and spacious. The coaches are carpeted, have sleeping accommodation and have privacy features like personal coupes. This class is available on broad gauge and metre gauge trains.

 

2A AC-Two tier: These air-conditioned coaches have sleeping berths across eight bays. Berths are usually arranged in two tiers in bays of six, four across the width of the coach and two berths longways on the other side of the corridor, with curtains along the gangway or corridor. Bedding is included with the fare. A broad gauge coach can carry 48 passengers (full coach) or 20 passengers (half coach). This class is available on broad gauge and metre gauge trains.

 

FC First class: Same as 1AC but without air conditioning. No bedding is available in this class. The berths are wide and spacious. There is a coach attendant to help the passengers. This class has been phased out on most of the trains and is rare to find. However narrow gauge trains to hill stations have this class.

 

3A AC three tier: Air conditioned coaches with 64 sleeping berths. Berths are usually arranged as in 2AC but with three tiers across the width and two longways as before giving eight bays of eight. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is included with fare. It carries 64 passengers in broad gauge. This class is available only on broad gauge.

 

3E AC three tier (Economy): Air conditioned coaches with sleeping berths, present in Garib Rath Trains. Berths are usually arranged as in 3AC but with three tiers across the width and three longways. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is not included with fare.

 

CC AC chair car: An air-conditioned seater coach with a total of five seats in a row used for day travel between cities.

 

EC Executive class chair car: An air-conditioned coach with large spacious seats and legroom. It has a total of four seats in a row used for day travel between cities. This class of travel is only available on Shatabdi Express trains.

 

SL Sleeper class: The sleeper class is the most common coach on IR, and usually ten or more coaches could be attached. These are regular sleeping coaches with three berths vertically stacked. In broad gauge, it carries 72 passengers per coach.

 

2S Seater class: same as AC Chair car, without the air-conditioning. These may be reserved in advance or may be unreserved.

 

UR Unreserved: The cheapest accommodation. The seats are usually made up of pressed wood in older coaches but cushioned seats are found in new coaches. These coaches are usually over-crowded and a seat is not guaranteed. Tickets are issued in advance for a minimum journey of more than 24 hours. Tickets issued are valid on any train on the same route if boarded within 24 hours of buying the ticket.

 

At the rear of the train is a special compartment known as the guard's cabin. It is fitted with a transceiver and is where the guard usually gives the all clear signal before the train departs.

 

UNESCO WORLD HERITAGE SITES

There are two UNESCO World Heritage Sites on Indian Railways. – The Chatrapati Shivaji Terminus and the Mountain Railways of India. The latter consists of three separate railway lines located in different parts of India:

 

- Darjeeling Himalayan Railway, a narrow gauge railway in West Bengal.

- Nilgiri Mountain Railway, a 1,000 mm metre gauge railway in the Nilgiri Hills in Tamil Nadu.

- Kalka-Shimla Railway, a narrow gauge railway in the Shivalik mountains in Himachal Pradesh. In 2003 the railway was featured in the Guinness Book of World Records for offering the steepest rise in altitude in the space of 96 kilometre.

 

NOTABLE TRAINS

TOURIST TRAINS

Palace on Wheels is a specially designed luxury tourist train service, frequently hauled by a steam locomotive, for promoting tourism in Rajasthan. The train has a 7 nights & 8 days itinerary, it departs from New Delhi (Day 1), and covers Jaipur (Day 2), Sawai Madhopur and Chittaurgarh (Day 3), Udaipur (Day 4), Jaisalmer (Day 5), Jodhpur (Day 6), Bharatpur and Agra (Day 7), return to Delhi (Day 8).

 

Royal Rajasthan on Wheels a luxury tourist train service covers various tourist destinations in Rajasthan. The train takes tourists on a 7-day/8-night tour through Rajasthan. The train starts from New Delhi's Safdarjung railway station (Day 1), and has stops at Jodhpur (Day 2), Udaipur and Chittaurgarh (Day 3), Ranthambore National Park and Jaipur (Day 4), Khajuraho (Day 5), Varanasi and Sarnath (Day 6), Agra (Day 7) and back to Delhi (Day 8).

 

Maharaja Express a luxury train operated by IRCTC runs on five circuits covering more than 12 destinations across North-West and Central India, mainly centered around Rajasthan between the months of October to April.

 

Deccan Odyssey luxury tourist train service covers various tourist destinations in Maharashtra and Goa. The 7 Nights / 8 Days tour starts from Mumbai (Day 1) and covers Jaigad Fort, Ganapatipule and Ratnagiri (Day 2), Sindhudurg, Tarkarli and Sawantwadi (Day 3), Goa (Day 4), Kolhapur and Pune (Day 5), Aurangabad and Ellora Caves (Day 6), Ajanta Caves and Nashik (Day 7), and back to Mumbai (Day 8).

 

The Golden Chariot luxury train runs on two circuits Pride of the South and Splendor of the South.

 

Mahaparinirvan Express an a/c train service also known as Buddhist Circuit Train which is run by IRCTC to attract Buddhist pilgrims. The 7 nights/8 Days tour starts from New Delhi (Day 1) and covers Bodh Gaya (Day 2), Rajgir and Nalanda (Day 3), Varanasi and Sarnath (Day 4), Kushinagar and Lumbini (Day 5 and 6), Sravasti (Day 7), Taj Mahal (Agra) (Day 8) before returning to New Delhi on (Day 8).

 

OTHER TRAINS

- Samjhauta Express is a train that runs between India and Pakistan. However, hostilities between the two nations in 2001 saw the line being closed. It was reopened when the hostilities subsided in 2004. Another train connecting Khokhrapar (Pakistan) and Munabao (India) is the Thar Express that restarted operations on 18 February 2006; it was earlier closed down after the 1965 Indo-Pak war.

 

- Lifeline Express is a special train popularly known as the "Hospital-on-Wheels" which provides healthcare to the rural areas. This train has a carriage that serves as an operating room, a second one which serves as a storeroom and an additional two that serve as a patient ward. The train travels around the country, staying at a location for about two months before moving elsewhere.

 

- Fairy Queen is the oldest operating locomotive in the world today, though it is operated only for specials between Delhi and Alwar. John Bull, a locomotive older than Fairy Queen, operated in 1981 commemorating its 150th anniversary. Gorakhpur railway station also has the distinction of being the world's longest railway platform at 1,366 m. The Ghum station along the Darjeeling Toy Train route is the second highest railway station in the world to be reached by a steam locomotive. The Mumbai–Pune Deccan Queen has the oldest running dining car in IR.

 

- Vivek Express, between Dibrugarh and Kanyakumari, has the longest run in terms of distance and time on Indian Railways network. It covers 4,286 km in about 82 hours and 30 minutes.

 

- Bhopal Shatabdi Express is the fastest train in India today having a maximum speed of 160 km/h on the Faridabad–Agra section. The fastest speed attained by any train is 184 km/h in 2000 during test runs.

 

- Special Trains are those trains started by Indian Railways for any specific event or cause which includes Jagriti Yatra trains, Kumbh Mela Trains., emergency trains, etc.

 

- Double-decker AC trains have been introduced in India. The first double decker train was Pune-Mumbai Sinhagad express plying between Pune and Mumbai while the first double-decker AC train in the Indian Railways was introduced in November 2010, running between the Dhanbad and Howrah stations having 10 coaches and 2 power cars. On 16 April 2013, Indian Railways celebrated its 160 years of nationwide connectivity with a transportation of 23 million passengers in a day.

 

PROBLEMS AND ISSUES

Indian Railways is cash strapped and reported a loss of ₹30,000 crores (₹300bn) in the passenger segment for the year ending March 2014. Operating ratio, a key metric used by Indian railways to gauge financial health, is 91.8% in the year 2014-15. Railways carry a social obligation of over ₹20,000 crores (₹200bn $3.5bn). The loss per passenger-km increased to 23 paise by the end of March 2014. Indian Railways is left with a surplus cash of just ₹690 crores (₹6.9bn $115mn) by the end of March 2014.

 

It is estimated that over ₹ 5 lakh crores (₹5 trillion) (about $85 bn at 2014 exchange rates) is required to complete the ongoing projects alone. The railway is consistently losing market share to other modes of transport both in freight and passengers.

 

New railway line projects are often announced during the Railway Budget annually without securing additional funding for them. In the last 10 years, 99 New Line projects worth ₹ 60,000 crore (₹600bn) were sanctioned out of which only one project is complete till date, and there are four projects that are as old as 30 years, but are still not complete for one reason or another.

 

Sanjay Dina Patil a member of the Lok Sabha in 2014 said that additional tracks, height of platforms are still a problem and rise in tickets, goods, monthly passes has created an alarming situation where the common man is troubled.

 

WIKIPEDIA

“Cape Canaveral, Fla.—First successful orbit of a MIDAS (Missile Defense Alarm System) satellite, and Agena vehicle built by the Lockheed Missiles and Space division for the Air Force, was made May 4, 1960 in the research and development phase leading to a military satellite system. Major events of the launch and orbit injection in this artist’s drawing show firing from Cape Canaveral using the Air Force’s Atlas ICBM as a booster (a), coast phase of the Agena satellite (b) during which it positioned itself horizontally to the earth, ignition of the satellite’s integral engine (c) to power the Agena to the necessary 18,000 miles per hour, and attitude change and stabilization (d) in a nose down position. The Agena weighs about 5000 pounds on orbit.”

 

The correct launch date was May 24, 1960.

 

I like the near terminator perspective of Lockheed Missiles & Space Division artist Don Montello, along with his rather conspicuous signature. And a small win in that Mr. Montello’s first name is revealed. Unfortunately however, I’ve found nothing on him, although, for some reason, I have a feeling he was fairly prolific.

 

Wonderful, featured in the May 25, 1960 edition of the “Los Angeles Daily Mirror” newspaper:

 

ladailymirror.com/2010/05/25/us-launches-spy-satellite/

Credit: “THE DAILY MIRROR” website

 

This photo and description is intended to make you smile. If you are missing your sense of humor, then go look @ scenic photos or something.

 

I live a very stressful life. I'm a mother, a step-mother, a wife, an ex-wife, a daughter, a sister, an in-law, a niece, an aunt, a cousin, a granddaughter, and a small business owner.

 

In my house I am the chef, the maid, a doctor, the nurse, the chauffer, the grocer, the baker, the trash man, the nanny, the laundry mat, the mediator, the judge, the jury, the enforcer, the bouncer, the psychatrist, the stripper, the janitor, the car wash, the dishwasher, the teacher, the gardener, the post office, the boss, the secretary, accounts payable, accounts receivable, the accountant, inventory control, the broker, the coordinator, the interior designer, a role model.

 

On a daily basis I deal with diaper changes, 3 course meals, cleaning, laundry, bill budgeting, food budgeting, missing socks, holes in underwear, broken plates, dropped drinks, cookies smushed on the sofa, a mailman who never gets out of his truck and lays on the horn, a child who doesn't nap and goes to sleep @ 11pm, a wonderful yet unemployed husband who stresses everyday calling and emailing and going to 10+ job interviews, a difficult toddler, an impossible step daughter, a 9 year old with food addiction, a bus driver who stops my child @ yard sales and brings her home late, relisting eBay store inventory, eBay fees, etsy fees, store hosting fees, invoices and terms to pay, business budgeting, a car with a "air bag" light that never goes out and likes to flash the "tire pressure" light too for no reason, a demanding child, a demanding husband, a demanding father, a demanding life, weight gain, acne, no money to get my hair done because I spent it on my daughters baseball uniform for a sport she dropped out of within 1 week, a giant bruise on my big toe from where i dropped a screwdriver on it and it won't go away after 2 months, an unhealthy fear of the dentist and any doctor, customer returns, customer exchanges, unsatisfied customers, trying to figure out what to stock in the store that will sell, losing my one major distributor because they went back overseas, not having the right size boxes and not enuff funds to buy proper boxes, potty training, brushing 3 sets of teeth a day, giving 3 different people a bath a day, feeding 4 people a day, an indoor cat, an outdoor cat, kitty litter, kitty barf, children barf, sweeping, changing the empty toilet roll papers because no one else will, PMS, i fell off my bike, i have a booboo, i want to watch dora (even though it's not on), tantrums, filling orders in a timely fashion, printing invoices, notifying customers on filled orders, cancelled orders, back orders, out of stock orders, keeping track of who is owed what and when, water bill, electric bill, cable bill, internet bill, credit card debt, business loan, mortgage, car note, car insurance, escrow, house taxes, business taxes, sales taxes, broken air conditioner in 90 degrees florida weather, in-laws that are insane, sister who is stressing, brother who doesn't discipline his kids and they torture mine, a father with a bad heart and who constantly needs my husbands help with things, an overbearing mother, overbearing children, being an overbearing mother, worried about kidnappers, worried about child molestors, living in an "okay" neighborhood right on the main road, not having proper alarm system, broken shoelaces, no one liking what i made for dinner, dinner coming out wrong, no money for take out, inventory arriving broken, inventory arriving damaged, companies not filing payments on time and charging late fees, companies not closing out paid accounts, running out of printer ink, light bulbs popping whenever i walk by, an old house, faulty wiring, a bad economy, bounced checks, running out of gas, florida muggy heat, tornadoes, checking spoiled food, out of packing tape, pen doesn't work, pencils need sharpened, homework needs checked, ABCs need to be learned, camera batteries are dead, out of cream cheese, out of juice, gramma passed from brain cancer, mother in law passed from brain cancer, insane ex-wife, my package didn't arrive and i'm too lazy to check the tracking, people who don't do their job, no time for myself, sex, marriage, healthy relationships, love, hate, stray animals, squirrels that chase my daughter, rabid dogs, did my package arrive yet, she forgot my socks, why wont this sell, can i afford to mark the price down, hugs, kisses, positive reinforcement, discipline, God, religion, can you hear me, get your finger out of your nose and/or butt, where is the iron, is the stove off, is the baby gate up, is everyone okay today --- Are you guys getting this yet? We all share a lot of these same things on a daily basis.

 

Ya'll are too busy creating extra unnessesary crap over a plastic doll. I'm sorry bad things happen to good people. Can we focus on something new now? It's getting out of hand.

 

Can we play nice with our dollies now? :)

Fish, any of approximately 34,000 species of vertebrate animals (phylum Chordata) found in the fresh and salt waters of the world. Living species range from the primitive jawless lampreys and hagfishes through the cartilaginous sharks, skates, and rays to the abundant and diverse bony fishes. Most fish species are cold-blooded; however, one species, the opah (Lampris guttatus), is warm-blooded.

 

The term fish is applied to a variety of vertebrates of several evolutionary lines. It describes a life-form rather than a taxonomic group. As members of the phylum Chordata, fish share certain features with other vertebrates. These features are gill slits at some point in the life cycle, a notochord, or skeletal supporting rod, a dorsal hollow nerve cord, and a tail. Living fishes represent some five classes, which are as distinct from one another as are the four classes of familiar air-breathing animals—amphibians, reptiles, birds, and mammals. For example, the jawless fishes (Agnatha) have gills in pouches and lack limb girdles. Extant agnathans are the lampreys and the hagfishes. As the name implies, the skeletons of fishes of the class Chondrichthyes (from chondr, “cartilage,” and ichthyes, “fish”) are made entirely of cartilage. Modern fish of this class lack a swim bladder, and their scales and teeth are made up of the same placoid material. Sharks, skates, and rays are examples of cartilaginous fishes. The bony fishes are by far the largest class. Examples range from the tiny seahorse to the 450-kg (1,000-pound) blue marlin, from the flattened soles and flounders to the boxy puffers and ocean sunfishes. Unlike the scales of the cartilaginous fishes, those of bony fishes, when present, grow throughout life and are made up of thin overlapping plates of bone. Bony fishes also have an operculum that covers the gill slits.

 

The study of fishes, the science of ichthyology, is of broad importance. Fishes are of interest to humans for many reasons, the most important being their relationship with and dependence on the environment. A more obvious reason for interest in fishes is their role as a moderate but important part of the world’s food supply. This resource, once thought unlimited, is now realized to be finite and in delicate balance with the biological, chemical, and physical factors of the aquatic environment. Overfishing, pollution, and alteration of the environment are the chief enemies of proper fisheries management, both in fresh waters and in the ocean. (For a detailed discussion of the technology and economics of fisheries, see commercial fishing.) Another practical reason for studying fishes is their use in disease control. As predators on mosquito larvae, they help curb malaria and other mosquito-borne diseases.

 

Fishes are valuable laboratory animals in many aspects of medical and biological research. For example, the readiness of many fishes to acclimate to captivity has allowed biologists to study behaviour, physiology, and even ecology under relatively natural conditions. Fishes have been especially important in the study of animal behaviour, where research on fishes has provided a broad base for the understanding of the more flexible behaviour of the higher vertebrates. The zebra fish is used as a model in studies of gene expression.

 

There are aesthetic and recreational reasons for an interest in fishes. Millions of people keep live fishes in home aquariums for the simple pleasure of observing the beauty and behaviour of animals otherwise unfamiliar to them. Aquarium fishes provide a personal challenge to many aquarists, allowing them to test their ability to keep a small section of the natural environment in their homes. Sportfishing is another way of enjoying the natural environment, also indulged in by millions of people every year. Interest in aquarium fishes and sportfishing supports multimillion-dollar industries throughout the world.

 

Fishes have been in existence for more than 450 million years, during which time they have evolved repeatedly to fit into almost every conceivable type of aquatic habitat. In a sense, land vertebrates are simply highly modified fishes: when fishes colonized the land habitat, they became tetrapod (four-legged) land vertebrates. The popular conception of a fish as a slippery, streamlined aquatic animal that possesses fins and breathes by gills applies to many fishes, but far more fishes deviate from that conception than conform to it. For example, the body is elongate in many forms and greatly shortened in others; the body is flattened in some (principally in bottom-dwelling fishes) and laterally compressed in many others; the fins may be elaborately extended, forming intricate shapes, or they may be reduced or even lost; and the positions of the mouth, eyes, nostrils, and gill openings vary widely. Air breathers have appeared in several evolutionary lines.

 

Many fishes are cryptically coloured and shaped, closely matching their respective environments; others are among the most brilliantly coloured of all organisms, with a wide range of hues, often of striking intensity, on a single individual. The brilliance of pigments may be enhanced by the surface structure of the fish, so that it almost seems to glow. A number of unrelated fishes have actual light-producing organs. Many fishes are able to alter their coloration—some for the purpose of camouflage, others for the enhancement of behavioral signals.

 

Fishes range in adult length from less than 10 mm (0.4 inch) to more than 20 metres (60 feet) and in weight from about 1.5 grams (less than 0.06 ounce) to many thousands of kilograms. Some live in shallow thermal springs at temperatures slightly above 42 °C (100 °F), others in cold Arctic seas a few degrees below 0 °C (32 °F) or in cold deep waters more than 4,000 metres (13,100 feet) beneath the ocean surface. The structural and, especially, the physiological adaptations for life at such extremes are relatively poorly known and provide the scientifically curious with great incentive for study.

 

Almost all natural bodies of water bear fish life, the exceptions being very hot thermal ponds and extremely salt-alkaline lakes, such as the Dead Sea in Asia and the Great Salt Lake in North America. The present distribution of fishes is a result of the geological history and development of Earth as well as the ability of fishes to undergo evolutionary change and to adapt to the available habitats. Fishes may be seen to be distributed according to habitat and according to geographical area. Major habitat differences are marine and freshwater. For the most part, the fishes in a marine habitat differ from those in a freshwater habitat, even in adjacent areas, but some, such as the salmon, migrate from one to the other. The freshwater habitats may be seen to be of many kinds. Fishes found in mountain torrents, Arctic lakes, tropical lakes, temperate streams, and tropical rivers will all differ from each other, both in obvious gross structure and in physiological attributes. Even in closely adjacent habitats where, for example, a tropical mountain torrent enters a lowland stream, the fish fauna will differ. The marine habitats can be divided into deep ocean floors (benthic), mid-water oceanic (bathypelagic), surface oceanic (pelagic), rocky coast, sandy coast, muddy shores, bays, estuaries, and others. Also, for example, rocky coastal shores in tropical and temperate regions will have different fish faunas, even when such habitats occur along the same coastline.

 

Although much is known about the present geographical distribution of fishes, far less is known about how that distribution came about. Many parts of the fish fauna of the fresh waters of North America and Eurasia are related and undoubtedly have a common origin. The faunas of Africa and South America are related, extremely old, and probably an expression of the drifting apart of the two continents. The fauna of southern Asia is related to that of Central Asia, and some of it appears to have entered Africa. The extremely large shore-fish faunas of the Indian and tropical Pacific oceans comprise a related complex, but the tropical shore fauna of the Atlantic, although containing Indo-Pacific components, is relatively limited and probably younger. The Arctic and Antarctic marine faunas are quite different from each other. The shore fauna of the North Pacific is quite distinct, and that of the North Atlantic more limited and probably younger. Pelagic oceanic fishes, especially those in deep waters, are similar the world over, showing little geographical isolation in terms of family groups. The deep oceanic habitat is very much the same throughout the world, but species differences do exist, showing geographical areas determined by oceanic currents and water masses.

 

All aspects of the life of a fish are closely correlated with adaptation to the total environment, physical, chemical, and biological. In studies, all the interdependent aspects of fish, such as behaviour, locomotion, reproduction, and physical and physiological characteristics, must be taken into account.

 

Correlated with their adaptation to an extremely wide variety of habitats is the extremely wide variety of life cycles that fishes display. The great majority hatch from relatively small eggs a few days to several weeks or more after the eggs are scattered in the water. Newly hatched young are still partially undeveloped and are called larvae until body structures such as fins, skeleton, and some organs are fully formed. Larval life is often very short, usually less than a few weeks, but it can be very long, some lampreys continuing as larvae for at least five years. Young and larval fishes, before reaching sexual maturity, must grow considerably, and their small size and other factors often dictate that they live in a habitat different than that of the adults. For example, most tropical marine shore fishes have pelagic larvae. Larval food also is different, and larval fishes often live in shallow waters, where they may be less exposed to predators.

 

After a fish reaches adult size, the length of its life is subject to many factors, such as innate rates of aging, predation pressure, and the nature of the local climate. The longevity of a species in the protected environment of an aquarium may have nothing to do with how long members of that species live in the wild. Many small fishes live only one to three years at the most. In some species, however, individuals may live as long as 10 or 20 or even 100 years.

 

Fish behaviour is a complicated and varied subject. As in almost all animals with a central nervous system, the nature of a response of an individual fish to stimuli from its environment depends upon the inherited characteristics of its nervous system, on what it has learned from past experience, and on the nature of the stimuli. Compared with the variety of human responses, however, that of a fish is stereotyped, not subject to much modification by “thought” or learning, and investigators must guard against anthropomorphic interpretations of fish behaviour.

 

Fishes perceive the world around them by the usual senses of sight, smell, hearing, touch, and taste and by special lateral line water-current detectors. In the few fishes that generate electric fields, a process that might best be called electrolocation aids in perception. One or another of these senses often is emphasized at the expense of others, depending upon the fish’s other adaptations. In fishes with large eyes, the sense of smell may be reduced; others, with small eyes, hunt and feed primarily by smell (such as some eels).

 

Specialized behaviour is primarily concerned with the three most important activities in the fish’s life: feeding, reproduction, and escape from enemies. Schooling behaviour of sardines on the high seas, for instance, is largely a protective device to avoid enemies, but it is also associated with and modified by their breeding and feeding requirements. Predatory fishes are often solitary, lying in wait to dart suddenly after their prey, a kind of locomotion impossible for beaked parrot fishes, which feed on coral, swimming in small groups from one coral head to the next. In addition, some predatory fishes that inhabit pelagic environments, such as tunas, often school.

 

Sleep in fishes, all of which lack true eyelids, consists of a seemingly listless state in which the fish maintains its balance but moves slowly. If attacked or disturbed, most can dart away. A few kinds of fishes lie on the bottom to sleep. Most catfishes, some loaches, and some eels and electric fishes are strictly nocturnal, being active and hunting for food during the night and retiring during the day to holes, thick vegetation, or other protective parts of the environment.

 

Communication between members of a species or between members of two or more species often is extremely important, especially in breeding behaviour (see below Reproduction). The mode of communication may be visual, as between the small so-called cleaner fish and a large fish of a very different species. The larger fish often allows the cleaner to enter its mouth to remove gill parasites. The cleaner is recognized by its distinctive colour and actions and therefore is not eaten, even if the larger fish is normally a predator. Communication is often chemical, signals being sent by specific chemicals called pheromones.

 

Many fishes have a streamlined body and swim freely in open water. Fish locomotion is closely correlated with habitat and ecological niche (the general position of the animal to its environment).

 

Many fishes in both marine and fresh waters swim at the surface and have mouths adapted to feed best (and sometimes only) at the surface. Often such fishes are long and slender, able to dart at surface insects or at other surface fishes and in turn to dart away from predators; needlefishes, halfbeaks, and topminnows (such as killifish and mosquito fish) are good examples. Oceanic flying fishes escape their predators by gathering speed above the water surface, with the lower lobe of the tail providing thrust in the water. They then glide hundreds of yards on enlarged, winglike pectoral and pelvic fins. South American freshwater flying fishes escape their enemies by jumping and propelling their strongly keeled bodies out of the water.

 

So-called mid-water swimmers, the most common type of fish, are of many kinds and live in many habitats. The powerful fusiform tunas and the trouts, for example, are adapted for strong, fast swimming, the tunas to capture prey speedily in the open ocean and the trouts to cope with the swift currents of streams and rivers. The trout body form is well adapted to many habitats. Fishes that live in relatively quiet waters such as bays or lake shores or slow rivers usually are not strong, fast swimmers but are capable of short, quick bursts of speed to escape a predator. Many of these fishes have their sides flattened, examples being the sunfish and the freshwater angelfish of aquarists. Fish associated with the bottom or substrate usually are slow swimmers. Open-water plankton-feeding fishes almost always remain fusiform and are capable of rapid, strong movement (for example, sardines and herrings of the open ocean and also many small minnows of streams and lakes).

 

Bottom-living fishes are of many kinds and have undergone many types of modification of their body shape and swimming habits. Rays, which evolved from strong-swimming mid-water sharks, usually stay close to the bottom and move by undulating their large pectoral fins. Flounders live in a similar habitat and move over the bottom by undulating the entire body. Many bottom fishes dart from place to place, resting on the bottom between movements, a motion common in gobies. One goby relative, the mudskipper, has taken to living at the edge of pools along the shore of muddy mangrove swamps. It escapes its enemies by flipping rapidly over the mud, out of the water. Some catfishes, synbranchid eels, the so-called climbing perch, and a few other fishes venture out over damp ground to find more promising waters than those that they left. They move by wriggling their bodies, sometimes using strong pectoral fins; most have accessory air-breathing organs. Many bottom-dwelling fishes live in mud holes or rocky crevices. Marine eels and gobies commonly are found in such habitats and for the most part venture far beyond their cavelike homes. Some bottom dwellers, such as the clingfishes (Gobiesocidae), have developed powerful adhesive disks that enable them to remain in place on the substrate in areas such as rocky coasts, where the action of the waves is great.

 

The methods of reproduction in fishes are varied, but most fishes lay a large number of small eggs, fertilized and scattered outside of the body. The eggs of pelagic fishes usually remain suspended in the open water. Many shore and freshwater fishes lay eggs on the bottom or among plants. Some have adhesive eggs. The mortality of the young and especially of the eggs is very high, and often only a few individuals grow to maturity out of hundreds, thousands, and in some cases millions of eggs laid.

 

Males produce sperm, usually as a milky white substance called milt, in two (sometimes one) testes within the body cavity. In bony fishes a sperm duct leads from each testis to a urogenital opening behind the vent or anus. In sharks and rays and in cyclostomes the duct leads to a cloaca. Sometimes the pelvic fins are modified to help transmit the milt to the eggs at the female’s vent or on the substrate where the female has placed them. Sometimes accessory organs are used to fertilize females internally—for example, the claspers of many sharks and rays.

 

In the females the eggs are formed in two ovaries (sometimes only one) and pass through the ovaries to the urogenital opening and to the outside. In some fishes the eggs are fertilized internally but are shed before development takes place. Members of about a dozen families each of bony fishes (teleosts) and sharks bear live young. Many skates and rays also bear live young. In some bony fishes the eggs simply develop within the female, the young emerging when the eggs hatch (ovoviviparous). Others develop within the ovary and are nourished by ovarian tissues after hatching (viviparous). There are also other methods utilized by fishes to nourish young within the female. In all live-bearers the young are born at a relatively large size and are few in number. In one family of primarily marine fishes, the surfperches from the Pacific coast of North America, Japan, and Korea, the males of at least one species are born sexually mature, although they are not fully grown.

 

Some fishes are hermaphroditic—an individual producing both sperm and eggs, usually at different stages of its life. Self-fertilization, however, is probably rare.

 

Successful reproduction and, in many cases, defense of the eggs and the young are assured by rather stereotypical but often elaborate courtship and parental behaviour, either by the male or the female or both. Some fishes prepare nests by hollowing out depressions in the sand bottom (cichlids, for example), build nests with plant materials and sticky threads excreted by the kidneys (sticklebacks), or blow a cluster of mucus-covered bubbles at the water surface (gouramis). The eggs are laid in these structures. Some varieties of cichlids and catfishes incubate eggs in their mouths.

 

Some fishes, such as salmon, undergo long migrations from the ocean and up large rivers to spawn in the gravel beds where they themselves hatched (anadromous fishes). Some, such as the freshwater eels (family Anguillidae), live and grow to maturity in fresh water and migrate to the sea to spawn (catadromous fishes). Other fishes undertake shorter migrations from lakes into streams, within the ocean, or enter spawning habitats that they do not ordinarily occupy in other ways.

 

The basic structure and function of the fish body are similar to those of all other vertebrates. The usual four types of tissues are present: surface or epithelial, connective (bone, cartilage, and fibrous tissues, as well as their derivative, blood), nerve, and muscle tissues. In addition, the fish’s organs and organ systems parallel those of other vertebrates.

 

The typical fish body is streamlined and spindle-shaped, with an anterior head, a gill apparatus, and a heart, the latter lying in the midline just below the gill chamber. The body cavity, containing the vital organs, is situated behind the head in the lower anterior part of the body. The anus usually marks the posterior termination of the body cavity and most often occurs just in front of the base of the anal fin. The spinal cord and vertebral column continue from the posterior part of the head to the base of the tail fin, passing dorsal to the body cavity and through the caudal (tail) region behind the body cavity. Most of the body is of muscular tissue, a high proportion of which is necessitated by swimming. In the course of evolution this basic body plan has been modified repeatedly into the many varieties of fish shapes that exist today.

 

The skeleton forms an integral part of the fish’s locomotion system, as well as serving to protect vital parts. The internal skeleton consists of the skull bones (except for the roofing bones of the head, which are really part of the external skeleton), the vertebral column, and the fin supports (fin rays). The fin supports are derived from the external skeleton but will be treated here because of their close functional relationship to the internal skeleton. The internal skeleton of cyclostomes, sharks, and rays is of cartilage; that of many fossil groups and some primitive living fishes is mostly of cartilage but may include some bone. In place of the vertebral column, the earliest vertebrates had a fully developed notochord, a flexible stiff rod of viscous cells surrounded by a strong fibrous sheath. During the evolution of modern fishes the rod was replaced in part by cartilage and then by ossified cartilage. Sharks and rays retain a cartilaginous vertebral column; bony fishes have spool-shaped vertebrae that in the more primitive living forms only partially replace the notochord. The skull, including the gill arches and jaws of bony fishes, is fully, or at least partially, ossified. That of sharks and rays remains cartilaginous, at times partially replaced by calcium deposits but never by true bone.

 

The supportive elements of the fins (basal or radial bones or both) have changed greatly during fish evolution. Some of these changes are described in the section below (Evolution and paleontology). Most fishes possess a single dorsal fin on the midline of the back. Many have two and a few have three dorsal fins. The other fins are the single tail and anal fins and paired pelvic and pectoral fins. A small fin, the adipose fin, with hairlike fin rays, occurs in many of the relatively primitive teleosts (such as trout) on the back near the base of the caudal fin.

 

The skin of a fish must serve many functions. It aids in maintaining the osmotic balance, provides physical protection for the body, is the site of coloration, contains sensory receptors, and, in some fishes, functions in respiration. Mucous glands, which aid in maintaining the water balance and offer protection from bacteria, are extremely numerous in fish skin, especially in cyclostomes and teleosts. Since mucous glands are present in the modern lampreys, it is reasonable to assume that they were present in primitive fishes, such as the ancient Silurian and Devonian agnathans. Protection from abrasion and predation is another function of the fish skin, and dermal (skin) bone arose early in fish evolution in response to this need. It is thought that bone first evolved in skin and only later invaded the cartilaginous areas of the fish’s body, to provide additional support and protection. There is some argument as to which came first, cartilage or bone, and fossil evidence does not settle the question. In any event, dermal bone has played an important part in fish evolution and has different characteristics in different groups of fishes. Several groups are characterized at least in part by the kind of bony scales they possess.

 

Scales have played an important part in the evolution of fishes. Primitive fishes usually had thick bony plates or thick scales in several layers of bone, enamel, and related substances. Modern teleost fishes have scales of bone, which, while still protective, allow much more freedom of motion in the body. A few modern teleosts (some catfishes, sticklebacks, and others) have secondarily acquired bony plates in the skin. Modern and early sharks possessed placoid scales, a relatively primitive type of scale with a toothlike structure, consisting of an outside layer of enamel-like substance (vitrodentine), an inner layer of dentine, and a pulp cavity containing nerves and blood vessels. Primitive bony fishes had thick scales of either the ganoid or the cosmoid type. Cosmoid scales have a hard, enamel-like outer layer, an inner layer of cosmine (a form of dentine), and then a layer of vascular bone (isopedine). In ganoid scales the hard outer layer is different chemically and is called ganoin. Under this is a cosminelike layer and then a vascular bony layer. The thin, translucent bony scales of modern fishes, called cycloid and ctenoid (the latter distinguished by serrations at the edges), lack enameloid and dentine layers.

 

Skin has several other functions in fishes. It is well supplied with nerve endings and presumably receives tactile, thermal, and pain stimuli. Skin is also well supplied with blood vessels. Some fishes breathe in part through the skin, by the exchange of oxygen and carbon dioxide between the surrounding water and numerous small blood vessels near the skin surface.

 

Skin serves as protection through the control of coloration. Fishes exhibit an almost limitless range of colours. The colours often blend closely with the surroundings, effectively hiding the animal. Many fishes use bright colours for territorial advertisement or as recognition marks for other members of their own species, or sometimes for members of other species. Many fishes can change their colour to a greater or lesser degree, by movement of pigment within the pigment cells (chromatophores). Black pigment cells (melanophores), of almost universal occurrence in fishes, are often juxtaposed with other pigment cells. When placed beneath iridocytes or leucophores (bearing the silvery or white pigment guanine), melanophores produce structural colours of blue and green. These colours are often extremely intense, because they are formed by refraction of light through the needlelike crystals of guanine. The blue and green refracted colours are often relatively pure, lacking the red and yellow rays, which have been absorbed by the black pigment (melanin) of the melanophores. Yellow, orange, and red colours are produced by erythrophores, cells containing the appropriate carotenoid pigments. Other colours are produced by combinations of melanophores, erythrophores, and iridocytes.

 

The major portion of the body of most fishes consists of muscles. Most of the mass is trunk musculature, the fin muscles usually being relatively small. The caudal fin is usually the most powerful fin, being moved by the trunk musculature. The body musculature is usually arranged in rows of chevron-shaped segments on each side. Contractions of these segments, each attached to adjacent vertebrae and vertebral processes, bends the body on the vertebral joint, producing successive undulations of the body, passing from the head to the tail, and producing driving strokes of the tail. It is the latter that provides the strong forward movement for most fishes.

 

The digestive system, in a functional sense, starts at the mouth, with the teeth used to capture prey or collect plant foods. Mouth shape and tooth structure vary greatly in fishes, depending on the kind of food normally eaten. Most fishes are predacious, feeding on small invertebrates or other fishes and have simple conical teeth on the jaws, on at least some of the bones of the roof of the mouth, and on special gill arch structures just in front of the esophagus. The latter are throat teeth. Most predacious fishes swallow their prey whole, and the teeth are used for grasping and holding prey, for orienting prey to be swallowed (head first) and for working the prey toward the esophagus. There are a variety of tooth types in fishes. Some fishes, such as sharks and piranhas, have cutting teeth for biting chunks out of their victims. A shark’s tooth, although superficially like that of a piranha, appears in many respects to be a modified scale, while that of the piranha is like that of other bony fishes, consisting of dentine and enamel. Parrot fishes have beaklike mouths with short incisor-like teeth for breaking off coral and have heavy pavementlike throat teeth for crushing the coral. Some catfishes have small brushlike teeth, arranged in rows on the jaws, for scraping plant and animal growth from rocks. Many fishes (such as the Cyprinidae or minnows) have no jaw teeth at all but have very strong throat teeth.

 

Some fishes gather planktonic food by straining it from their gill cavities with numerous elongate stiff rods (gill rakers) anchored by one end to the gill bars. The food collected on these rods is passed to the throat, where it is swallowed. Most fishes have only short gill rakers that help keep food particles from escaping out the mouth cavity into the gill chamber.

 

Once reaching the throat, food enters a short, often greatly distensible esophagus, a simple tube with a muscular wall leading into a stomach. The stomach varies greatly in fishes, depending upon the diet. In most predacious fishes it is a simple straight or curved tube or pouch with a muscular wall and a glandular lining. Food is largely digested there and leaves the stomach in liquid form.

 

Between the stomach and the intestine, ducts enter the digestive tube from the liver and pancreas. The liver is a large, clearly defined organ. The pancreas may be embedded in it, diffused through it, or broken into small parts spread along some of the intestine. The junction between the stomach and the intestine is marked by a muscular valve. Pyloric ceca (blind sacs) occur in some fishes at this junction and have a digestive or absorptive function or both.

 

The intestine itself is quite variable in length, depending upon the fish’s diet. It is short in predacious forms, sometimes no longer than the body cavity, but long in herbivorous forms, being coiled and several times longer than the entire length of the fish in some species of South American catfishes. The intestine is primarily an organ for absorbing nutrients into the bloodstream. The larger its internal surface, the greater its absorptive efficiency, and a spiral valve is one method of increasing its absorption surface.

 

Sharks, rays, chimaeras, lungfishes, surviving chondrosteans, holosteans, and even a few of the more primitive teleosts have a spiral valve or at least traces of it in the intestine. Most modern teleosts have increased the area of the intestinal walls by having numerous folds and villi (fingerlike projections) somewhat like those in humans. Undigested substances are passed to the exterior through the anus in most teleost fishes. In lungfishes, sharks, and rays, it is first passed through the cloaca, a common cavity receiving the intestinal opening and the ducts from the urogenital system.

 

Oxygen and carbon dioxide dissolve in water, and most fishes exchange dissolved oxygen and carbon dioxide in water by means of the gills. The gills lie behind and to the side of the mouth cavity and consist of fleshy filaments supported by the gill arches and filled with blood vessels, which give gills a bright red colour. Water taken in continuously through the mouth passes backward between the gill bars and over the gill filaments, where the exchange of gases takes place. The gills are protected by a gill cover in teleosts and many other fishes but by flaps of skin in sharks, rays, and some of the older fossil fish groups. The blood capillaries in the gill filaments are close to the gill surface to take up oxygen from the water and to give up excess carbon dioxide to the water.

 

Most modern fishes have a hydrostatic (ballast) organ, called the swim bladder, that lies in the body cavity just below the kidney and above the stomach and intestine. It originated as a diverticulum of the digestive canal. In advanced teleosts, especially the acanthopterygians, the bladder has lost its connection with the digestive tract, a condition called physoclistic. The connection has been retained (physostomous) by many relatively primitive teleosts. In several unrelated lines of fishes, the bladder has become specialized as a lung or, at least, as a highly vascularized accessory breathing organ. Some fishes with such accessory organs are obligate air breathers and will drown if denied access to the surface, even in well-oxygenated water. Fishes with a hydrostatic form of swim bladder can control their depth by regulating the amount of gas in the bladder. The gas, mostly oxygen, is secreted into the bladder by special glands, rendering the fish more buoyant; the gas is absorbed into the bloodstream by another special organ, reducing the overall buoyancy and allowing the fish to sink. Some deep-sea fishes may have oils, rather than gas, in the bladder. Other deep-sea and some bottom-living forms have much-reduced swim bladders or have lost the organ entirely.

 

The swim bladder of fishes follows the same developmental pattern as the lungs of land vertebrates. There is no doubt that the two structures have the same historical origin in primitive fishes. More or less intermediate forms still survive among the more primitive types of fishes, such as the lungfishes Lepidosiren and Protopterus.

 

The circulatory, or blood vascular, system consists of the heart, the arteries, the capillaries, and the veins. It is in the capillaries that the interchange of oxygen, carbon dioxide, nutrients, and other substances such as hormones and waste products takes place. The capillaries lead to the veins, which return the venous blood with its waste products to the heart, kidneys, and gills. There are two kinds of capillary beds: those in the gills and those in the rest of the body. The heart, a folded continuous muscular tube with three or four saclike enlargements, undergoes rhythmic contractions and receives venous blood in a sinus venosus. It passes the blood to an auricle and then into a thick muscular pump, the ventricle. From the ventricle the blood goes to a bulbous structure at the base of a ventral aorta just below the gills. The blood passes to the afferent (receiving) arteries of the gill arches and then to the gill capillaries. There waste gases are given off to the environment, and oxygen is absorbed. The oxygenated blood enters efferent (exuant) arteries of the gill arches and then flows into the dorsal aorta. From there blood is distributed to the tissues and organs of the body. One-way valves prevent backflow. The circulation of fishes thus differs from that of the reptiles, birds, and mammals in that oxygenated blood is not returned to the heart prior to distribution to the other parts of the body.

 

The primary excretory organ in fishes, as in other vertebrates, is the kidney. In fishes some excretion also takes place in the digestive tract, skin, and especially the gills (where ammonia is given off). Compared with land vertebrates, fishes have a special problem in maintaining their internal environment at a constant concentration of water and dissolved substances, such as salts. Proper balance of the internal environment (homeostasis) of a fish is in a great part maintained by the excretory system, especially the kidney.

 

The kidney, gills, and skin play an important role in maintaining a fish’s internal environment and checking the effects of osmosis. Marine fishes live in an environment in which the water around them has a greater concentration of salts than they can have inside their body and still maintain life. Freshwater fishes, on the other hand, live in water with a much lower concentration of salts than they require inside their bodies. Osmosis tends to promote the loss of water from the body of a marine fish and absorption of water by that of a freshwater fish. Mucus in the skin tends to slow the process but is not a sufficient barrier to prevent the movement of fluids through the permeable skin. When solutions on two sides of a permeable membrane have different concentrations of dissolved substances, water will pass through the membrane into the more concentrated solution, while the dissolved chemicals move into the area of lower concentration (diffusion).

 

The kidney of freshwater fishes is often larger in relation to body weight than that of marine fishes. In both groups the kidney excretes wastes from the body, but the kidney of freshwater fishes also excretes large amounts of water, counteracting the water absorbed through the skin. Freshwater fishes tend to lose salt to the environment and must replace it. They get some salt from their food, but the gills and skin inside the mouth actively absorb salt from water passed through the mouth. This absorption is performed by special cells capable of moving salts against the diffusion gradient. Freshwater fishes drink very little water and take in little water with their food.

 

Marine fishes must conserve water, and therefore their kidneys excrete little water. To maintain their water balance, marine fishes drink large quantities of seawater, retaining most of the water and excreting the salt. Most nitrogenous waste in marine fishes appears to be secreted by the gills as ammonia. Marine fishes can excrete salt by clusters of special cells (chloride cells) in the gills.

 

There are several teleosts—for example, the salmon—that travel between fresh water and seawater and must adjust to the reversal of osmotic gradients. They adjust their physiological processes by spending time (often surprisingly little time) in the intermediate brackish environment.

 

Marine hagfishes, sharks, and rays have osmotic concentrations in their blood about equal to that of seawater and so do not have to drink water nor perform much physiological work to maintain their osmotic balance. In sharks and rays the osmotic concentration is kept high by retention of urea in the blood. Freshwater sharks have a lowered concentration of urea in the blood.

 

Endocrine glands secrete their products into the bloodstream and body tissues and, along with the central nervous system, control and regulate many kinds of body functions. Cyclostomes have a well-developed endocrine system, and presumably it was well developed in the early Agnatha, ancestral to modern fishes. Although the endocrine system in fishes is similar to that of higher vertebrates, there are numerous differences in detail. The pituitary, the thyroid, the suprarenals, the adrenals, the pancreatic islets, the sex glands (ovaries and testes), the inner wall of the intestine, and the bodies of the ultimobranchial gland make up the endocrine system in fishes. There are some others whose function is not well understood. These organs regulate sexual activity and reproduction, growth, osmotic pressure, general metabolic activities such as the storage of fat and the utilization of foodstuffs, blood pressure, and certain aspects of skin colour. Many of these activities are also controlled in part by the central nervous system, which works with the endocrine system in maintaining the life of a fish. Some parts of the endocrine system are developmentally, and undoubtedly evolutionarily, derived from the nervous system.

 

As in all vertebrates, the nervous system of fishes is the primary mechanism coordinating body activities, as well as integrating these activities in the appropriate manner with stimuli from the environment. The central nervous system, consisting of the brain and spinal cord, is the primary integrating mechanism. The peripheral nervous system, consisting of nerves that connect the brain and spinal cord to various body organs, carries sensory information from special receptor organs such as the eyes, internal ears, nares (sense of smell), taste glands, and others to the integrating centres of the brain and spinal cord. The peripheral nervous system also carries information via different nerve cells from the integrating centres of the brain and spinal cord. This coded information is carried to the various organs and body systems, such as the skeletal muscular system, for appropriate action in response to the original external or internal stimulus. Another branch of the nervous system, the autonomic nervous system, helps to coordinate the activities of many glands and organs and is itself closely connected to the integrating centres of the brain.

 

The brain of the fish is divided into several anatomical and functional parts, all closely interconnected but each serving as the primary centre of integrating particular kinds of responses and activities. Several of these centres or parts are primarily associated with one type of sensory perception, such as sight, hearing, or smell (olfaction).

 

The sense of smell is important in almost all fishes. Certain eels with tiny eyes depend mostly on smell for location of food. The olfactory, or nasal, organ of fishes is located on the dorsal surface of the snout. The lining of the nasal organ has special sensory cells that perceive chemicals dissolved in the water, such as substances from food material, and send sensory information to the brain by way of the first cranial nerve. Odour also serves as an alarm system. Many fishes, especially various species of freshwater minnows, react with alarm to a chemical released from the skin of an injured member of their own species.

 

Many fishes have a well-developed sense of taste, and tiny pitlike taste buds or organs are located not only within their mouth cavities but also over their heads and parts of their body. Catfishes, which often have poor vision, have barbels (“whiskers”) that serve as supplementary taste organs, those around the mouth being actively used to search out food on the bottom. Some species of naturally blind cave fishes are especially well supplied with taste buds, which often cover most of their body surface.

 

Sight is extremely important in most fishes. The eye of a fish is basically like that of all other vertebrates, but the eyes of fishes are extremely varied in structure and adaptation. In general, fishes living in dark and dim water habitats have large eyes, unless they have specialized in some compensatory way so that another sense (such as smell) is dominant, in which case the eyes will often be reduced. Fishes living in brightly lighted shallow waters often will have relatively small but efficient eyes. Cyclostomes have somewhat less elaborate eyes than other fishes, with skin stretched over the eyeball perhaps making their vision somewhat less effective. Most fishes have a spherical lens and accommodate their vision to far or near subjects by moving the lens within the eyeball. A few sharks accommodate by changing the shape of the lens, as in land vertebrates. Those fishes that are heavily dependent upon the eyes have especially strong muscles for accommodation. Most fishes see well, despite the restrictions imposed by frequent turbidity of the water and by light refraction.

 

Fossil evidence suggests that colour vision evolved in fishes more than 300 million years ago, but not all living fishes have retained this ability. Experimental evidence indicates that many shallow-water fishes, if not all, have colour vision and see some colours especially well, but some bottom-dwelling shore fishes live in areas where the water is sufficiently deep to filter out most if not all colours, and these fishes apparently never see colours. When tested in shallow water, they apparently are unable to respond to colour differences.

 

Sound perception and balance are intimately associated senses in a fish. The organs of hearing are entirely internal, located within the skull, on each side of the brain and somewhat behind the eyes. Sound waves, especially those of low frequencies, travel readily through water and impinge directly upon the bones and fluids of the head and body, to be transmitted to the hearing organs. Fishes readily respond to sound; for example, a trout conditioned to escape by the approach of fishermen will take flight upon perceiving footsteps on a stream bank even if it cannot see a fisherman. Compared with humans, however, the range of sound frequencies heard by fishes is greatly restricted. Many fishes communicate with each other by producing sounds in their swim bladders, in their throats by rasping their teeth, and in other ways.

 

A fish or other vertebrate seldom has to rely on a single type of sensory information to determine the nature of the environment around it. A catfish uses taste and touch when examining a food object with its oral barbels. Like most other animals, fishes have many touch receptors over their body surface. Pain and temperature receptors also are present in fishes and presumably produce the same kind of information to a fish as to humans. Fishes react in a negative fashion to stimuli that would be painful to human beings, suggesting that they feel a sensation of pain.

 

An important sensory system in fishes that is absent in other vertebrates (except some amphibians) is the lateral line system. This consists of a series of heavily innervated small canals located in the skin and bone around the eyes, along the lower jaw, over the head, and down the mid-side of the body, where it is associated with the scales. Intermittently along these canals are located tiny sensory organs (pit organs) that apparently detect changes in pressure. The system allows a fish to sense changes in water currents and pressure, thereby helping the fish to orient itself to the various changes that occur in the physical environment.

 

Although a great many fossil fishes have been found and described, they represent a tiny portion of the long and complex evolution of fishes, and knowledge of fish evolution remains relatively fragmentary. In the classification presented in this article, fishlike vertebrates are divided into seven categories, the members of each having a different basic structural organization and different physical and physiological adaptations for the problems presented by the environment. The broad basic pattern has been one of successive replacement of older groups by newer, better-adapted groups. One or a few members of a group evolved a basically more efficient means of feeding, breathing, or swimming or several better ways of living. These better-adapted groups then forced the extinction of members of the older group with which they competed for available food, breeding places, or other necessities of life. As the new fishes became well established, some of them evolved further and adapted to other habitats, where they continued to replace members of the old group already there. The process was repeated until all or almost all members of the old group in a variety of habitats had been replaced by members of the newer evolutionary line.

 

The earliest vertebrate fossils of certain relationships are fragments of dermal armour of jawless fishes (superclass Agnatha, order Heterostraci) from the Upper Ordovician Period in North America, about 450 million years in age. Early Ordovician toothlike fragments from the former Soviet Union are less certainly remains of agnathans. It is uncertain whether the North American jawless fishes inhabited shallow coastal marine waters, where their remains became fossilized, or were freshwater vertebrates washed into coastal deposits by stream action.

 

Jawless fishes probably arose from ancient, small, soft-bodied filter-feeding organisms much like and probably also ancestral to the modern sand-dwelling filter feeders, the Cephalochordata (Amphioxus and its relatives). The body in the ancestral animals was probably stiffened by a notochord. Although a vertebrate origin in fresh water is much debated by paleontologists, it is possible that mobility of the body and protection provided by dermal armour arose in response to streamflow in the freshwater environment and to the need to escape from and resist the clawed invertebrate eurypterids that lived in the same waters. Because of the marine distribution of the surviving primitive chordates, however, many paleontologists doubt that the vertebrates arose in fresh water.

 

Heterostracan remains are next found in what appear to be delta deposits in two North American localities of Silurian age. By the close of the Silurian, about 416 million years ago, European heterostracan remains are found in what appear to be delta or coastal deposits. In the Late Silurian of the Baltic area, lagoon or freshwater deposits yield jawless fishes of the order Osteostraci. Somewhat later in the Silurian from the same region, layers contain fragments of jawed acanthodians, the earliest group of jawed vertebrates, and of jawless fishes. These layers lie between marine beds but appear to be washed out from fresh waters of a coastal region.

 

It is evident, therefore, that by the end of the Silurian both jawed and jawless vertebrates were well established and already must have had a long history of development. Yet paleontologists have remains only of specialized forms that cannot have been the ancestors of the placoderms and bony fishes that appear in the next period, the Devonian. No fossils are known of the more primitive ancestors of the agnathans and acanthodians. The extensive marine beds of the Silurian and those of the Ordovician are essentially void of vertebrate history. It is believed that the ancestors of fishlike vertebrates evolved in upland fresh waters, where whatever few and relatively small fossil beds were made probably have been long since eroded away. Remains of the earliest vertebrates may never be found.

 

By the close of the Silurian, all known orders of jawless vertebrates had evolved, except perhaps the modern cyclostomes, which are without the hard parts that ordinarily are preserved as fossils. Cyclostomes were unknown as fossils until 1968, when a lamprey of modern body structure was reported from the Middle Pennsylvanian of Illinois, in deposits more than 300 million years old. Fossil evidence of the four orders of armoured jawless vertebrates is absent from deposits later than the Devonian. Presumably, these vertebrates became extinct at that time, being replaced by the more efficient and probably more aggressive placoderms, acanthodians, selachians (sharks and relatives), and by early bony fishes. Cyclostomes survived probably because early on they evolved from anaspid agnathans and developed a rasping tonguelike structure and a sucking mouth, enabling them to prey on other fishes. With this way of life they apparently had no competition from other fish groups. Cyclostomes, the hagfishes and lampreys, were once thought to be closely related because of the similarity in their suctorial mouths, but it is now understood that the hagfishes, order Myxiniformes, are the most primitive living chordates, and they are classified separately from the lampreys, order Petromyzontiformes.

 

Early jawless vertebrates probably fed on tiny organisms by filter feeding, as do the larvae of their descendants, the modern lampreys. The gill cavity of the early agnathans was large. It is thought that small organisms taken from the bottom by a nibbling action of the mouth, or more certainly by a sucking action through the mouth, were passed into the gill cavity along with water for breathing. Small organisms then were strained out by the gill apparatus and directed to the food canal. The gill apparatus thus evolved as a feeding, as well as a breathing, structure. The head and gills in the agnathans were protected by a heavy dermal armour; the tail region was free, allowing motion for swimming.

 

Most important for the evolution of fishes and vertebrates in general was the early appearance of bone, cartilage, and enamel-like substance. These materials became modified in later fishes, enabling them to adapt to many aquatic environments and finally even to land. Other basic organs and tissues of the vertebrates—such as the central nervous system, heart, liver, digestive tract, kidney, and circulatory system— undoubtedly were present in the ancestors of the agnathans. In many ways, bone, both external and internal, was the key to vertebrate evolution.

 

The next class of fishes to appear was the Acanthodii, containing the earliest known jawed vertebrates, which arose in the Late Silurian, more than 416 million years ago. The acanthodians declined after the Devonian but lasted into the Early Permian, a little less than 280 million years ago. The first complete specimens appear in Lower Devonian freshwater deposits, but later in the Devonian and Permian some members appear to have been marine. Most were small fishes, not more than 75 cm (approximately 30 inches) in length.

 

We know nothing of the ancestors of the acanthodians. They must have arisen from some jawless vertebrate, probably in fresh water. They appear to have been active swimmers with almost no head armour but with large eyes, indicating that they depended heavily on vision. Perhaps they preyed on invertebrates. The rows of spines and spinelike fins between the pectoral and pelvic fins give some credence to the idea that paired fins arose from “fin folds” along the body sides.

 

The relationships of the acanthodians to other jawed vertebrates are obscure. They possess features found in both sharks and bony fishes. They are like early bony fishes in possessing ganoidlike scales and a partially ossified internal skeleton. Certain aspects of the jaw appear to be more like those of bony fishes than sharks, but the bony fin spines and certain aspects of the gill apparatus would seem to favour relationships with early sharks. Acanthodians do not seem particularly close to the Placodermi, although, like the placoderms, they apparently possessed less efficient tooth replacement and tooth structure than the sharks and the bony fishes, possibly one reason for their subsequent extinction.

No theme other than 'all on the same roll'. Cutting negatives today and had almost forgotten a shot of a girl with a camera that was similar to the old Polaroids, instant pictures.

 

Taken during a Bedford's Third Thursday meetup held at the Oklahoma State Firefighters Museum in February.

 

This contraption was the original city fire alarm system from a small town in Oklahoma. It hooked up to various pull stations around the city and then could print (with a series of hole punches) the location of the fire using Morse code. This unit still functions in the museum, but only a few know how to work it.

Image of the church at the centre of the newly inserted window in the north chapel designed and painted by Tony Naylor, 2015.

 

St Mary's church in Lapworth is one of the most rewarding and unusual medieval parish churches in Warwickshire. The visitor generally approaches this handsome building from the north where the sturdy tower and spire stand guard like a sentinel. It is unusual in standing apart from the main building and was originally detached but is now linked by a passageway to the north aisle, making the church almost as wide as it is long. The west end too is remarkably configured with a chantry chapel or room set above an archway (allowing passage across the churchyard below).

 

The church we see today dates mainly from the 13th / 14th centuries, with an impressive fifteenth century clerestorey added to the nave being a prominent feature externally, but within it is possible to discern traces of the previous Norman structure embedded below in the nave arcade. There is much of interest to enjoy in this pleasant interior from quirky carvings high in the nave to the rich stained glass in the chancel and north chapel (which has benefitted immensely from a newly inserted window where the east wall had previously been blank). The most interesting memorial is the relief tablet in the north chapel by Eric Gill.

 

Lapworth church has consistently welcomed visitors and remains militantly open now despite being surrounded by churches largely reluctant to re-open after Covid. Happily since Tony Naylor's fine new window was installed the previous alarm system that restricted access to the eastern half of the church (which I inadvertedly set off on my first ever visit, deafening the neighbours!) has been relaxed so that visitors can now enjoy the full extent of the interior and its fittings.

stmaryslapworth.org.uk/

1 How it came to be.....Before Christmas in 2007, Ben and I were walking to a New Orleans style restaurant in Coconut Grove. On the way, I saw a black Standard Poodle stuffed animal in the window of a store and stopped dead in my tracks. It was like a future memory. I forgot about it.

I was afraid of computers, even after taking many classes. I think I thought that if I hit the wrong thing, it would blow up or break down...lol

One day I woke up and absolutely HAD to have a black Standard Poodle, like it was a call from my soul. I learned how to use a computer that day! I was emailing breeders, even once being told by Avion Poodles "You can't just find one today! You have to find your breeder, mail in a deposit, and wait for a litter." I kept going. It turned out, Gwen Mosdale of Kingsdown Poodles, who doesn't use a computer much, got sick with pneumonia, went into the hospital, and gave the puppies to someone else to sell. The other woman marketed a LOT by way of computer. Being one of the best breeders in the country for over 40 years, Gwen only sold by word of mouth or sometimes put ads in California newspapers. If she hadn't gotten sick, I never would have found Midnight and Gwen's dogs are Wonderful! She really knows what she's doing!

2 One of Midnight's distant relatives, on his Mother's side, won "Best in Show" at Crufts over 23,000 dogs in 2002. On his father's side, Jaset's "London" won "Best in Show' at the Eukaneuba show in 2011. London is one of the top Standard Poodles in the country now.

3 Midnight IS the sweet, very social Spoo you see on the street with people of all ages. However, since he turned 2 years old, he has become extremely territorial in the backyard. He's fine in the house, once I let someone in, but he's terrifying at the front window......better than an alarm system. I'm glad they don't know how sweet he is.

4 You always thought he was a Daddy's boy and he is, but when he was younger, for a LONG time, he was a Mommy's boy. Once I left to get some milk and Ben said that Midnight cried at the front window, sounding like a chirping bird, for a full 5 minutes. Update: 2014...He's now a Mommy's boy again : )

5 Midnight steals Ben's socks, hankys, t-shirts, underwear, shoes, anything! EVERYDAY, morning and night, often hunting them down. He doesn't steal a thing when Ben isn't home.

6 Midnight's alter ego is Buddy Love, who appears whenever he gets groomed and makes women swoon.

7 Midnight is a GREAT swimmer, crashing through rough waves dozens of times and turning in them to find his toy in the foam. However, he wouldn't go into water farther than his paws for a VERY long time.....at least a year!! Actual swimming......months after that!

8 Midnight's photoshopped Flickr girlfriend is Ebbie and they go on adventures together. Update 2014: Ebbie has passed : (

9 Midnight is very relaxed, hunting in the backyard and sleeping most of the day until his Daddy comes home. Then, he turns into "Mr Mischief" and the laughter begins.....You've heard of catburglers. We've got a dogburgler!

10 When I finally found Midnight's real breeder, and I told her I bought the one with the looong ears, she said "Oh, you got The Instigator! He used to wake up his entire litter, steal their bed, and then fall fast asleep. I told my friend to warn people about that one!!" : ))

Did I mention that Midnight was born on our Anniversary?....March 10

TEIGN C Damen Stan 1405

 

MMSI: 235082804

Call Sign: MWBM9

AIS Vessel Type: Dredger

 

GENERAL

Damen Stan 1405

DAMEN YARD NUMBER: 503705

Avelingen-West 20

4202 MS Gorinchem

The Netherlands

Phone: +31 (0)183 63 99 11

info@damen.com

 

DELIVERY DATE August 2001

BASIC FUNCTIONS Towing, mooring, pushing and dredging operations

FLAG United Kingdom [GB]

OWNED Teignmouth Harbour Commission

CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch

 

DIMENSIONS

LENGTH 14.40 m

BEAM 4.73 m

DEPTH AT SIDES 205 m

 

DRAUGHT AFT 171 m

DISPLACEMENT 48 ton

 

TANK CAPACITIES

Fuel oil 6.9 m³

 

PERFORMANCES (TRIALS)

BOLLARD PULL AHEAD 8.0 ton

SPEED 9.8 knots

 

PROPULSION SYSTEM

MAIN ENGINE 2x Caterpillar 3406C TA/A

TOTAL POWER 477 bmW (640i hp) at 1800 rpm

GEARBOX 2x Twin Disc MG 5091/3.82:1

PROPELLERS Bronze fixed pitch propeller

KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings

ENGINE CONTROL Kobelt

STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator

 

AUXILIARY EQUIPMENT

BILGE PUMP Sterling SIH 20, 32 m/hr

BATTERY SETS 2x 24V, 200 Ah + change over facility

COOLING SYSTEM Closed cooling system

ALARM SYSTEM Engines, gearboxes and bilge alarms

FRESH WATER PRESSURE SET Speck 24V

 

DECK LAY-OUT

ANCHORS 2x 48 kg Pool (HHP)

CHAIN 70 m, Ø 13mm, shortlink U2

 

ANCHOR WINCH Hand-operated

TOWING HOOK Mampaey, 15.3 ton SWL

COUPLING WINCH

PUSHBOW Cylindrical nubber fender Ø 380 mm

 

ACCOMMODATION

 

The wheelhouse ceiling and sides are insulated with mineral wool and

panelled. The wheelhouse floor is covered with rubber/synthetic floor

covering, make Bolidt, color blue The wheelhouse has one

helmsman seat, a bench and table with chair Below deck two berths, a

kitchen unit and a toilet space are arranged.

 

NAUTICAL AND COMMUNICATION EQUIPMENT

SEARCHLIGHT Den Haan 170 W 24 V

VHF RADIO Sailor RT 2048 25 W

NAVIGATION Navigation lights incl towing and pilot lights

 

Teignmouth Harbour Commission

The Harbour Commission is a Trust Port created by Statute.

The principal Order is the Teignmouth Harbour Order 1924

as amended by the Teignmouth Harbour Revision Order 2003

TEIGN C Damen Stan 1405

 

MMSI: 235082804

Call Sign: MWBM9

AIS Vessel Type: Dredger

 

GENERAL

Damen Stan 1405

DAMEN YARD NUMBER: 503705

Avelingen-West 20

4202 MS Gorinchem

The Netherlands

Phone: +31 (0)183 63 99 11

info@damen.com

 

DELIVERY DATE August 2001

BASIC FUNCTIONS Towing, mooring, pushing and dredging operations

FLAG United Kingdom [GB]

OWNED Teignmouth Harbour Commission

CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch

 

DIMENSIONS

LENGTH 14.40 m

BEAM 4.73 m

DEPTH AT SIDES 205 m

 

DRAUGHT AFT 171 m

DISPLACEMENT 48 ton

 

TANK CAPACITIES

Fuel oil 6.9 m³

 

PERFORMANCES (TRIALS)

BOLLARD PULL AHEAD 8.0 ton

SPEED 9.8 knots

 

PROPULSION SYSTEM

MAIN ENGINE 2x Caterpillar 3406C TA/A

TOTAL POWER 477 bmW (640i hp) at 1800 rpm

GEARBOX 2x Twin Disc MG 5091/3.82:1

PROPELLERS Bronze fixed pitch propeller

KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings

ENGINE CONTROL Kobelt

STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator

 

AUXILIARY EQUIPMENT

BILGE PUMP Sterling SIH 20, 32 m/hr

BATTERY SETS 2x 24V, 200 Ah + change over facility

COOLING SYSTEM Closed cooling system

ALARM SYSTEM Engines, gearboxes and bilge alarms

FRESH WATER PRESSURE SET Speck 24V

 

DECK LAY-OUT

ANCHORS 2x 48 kg Pool (HHP)

CHAIN 70 m, Ø 13mm, shortlink U2

 

ANCHOR WINCH Hand-operated

TOWING HOOK Mampaey, 15.3 ton SWL

COUPLING WINCH

PUSHBOW Cylindrical nubber fender Ø 380 mm

 

ACCOMMODATION

 

The wheelhouse ceiling and sides are insulated with mineral wool and

panelled. The wheelhouse floor is covered with rubber/synthetic floor

covering, make Bolidt, color blue The wheelhouse has one

helmsman seat, a bench and table with chair Below deck two berths, a

kitchen unit and a toilet space are arranged.

 

NAUTICAL AND COMMUNICATION EQUIPMENT

SEARCHLIGHT Den Haan 170 W 24 V

VHF RADIO Sailor RT 2048 25 W

NAVIGATION Navigation lights incl towing and pilot lights

 

Teignmouth Harbour Commission

The Harbour Commission is a Trust Port created by Statute.

The principal Order is the Teignmouth Harbour Order 1924

as amended by the Teignmouth Harbour Revision Order 2003

I found the residents' alarm system on Ferrix exciting. So simple and yet so fitting. so I tried to capture it in this scene

 

_____

 

This is my 3rd of hopefully twelve vignettes that I will publish weekly. So I hope that with the beginning of the 2nd Andos season, my serie will be complete...

 

I was inspired by the wonderful Hobbit, LotR and Harry Potter and more vignette series by Thorsten Bonsch, Jonas Kram and others.

 

The MOC's themselves are not 1:1 pictures of single scenes but my memory or new pictures that could fit in.

I hope you enjoy it and find your own memories!

 

Soli Deo gloria

1991 Vauxhall Astra GTE 16v.

 

Tax expired on 22nd February 2023.

Anglia Car Auctions, King's Lynn -

 

"Chassis number: W0L000043M2641496. This is a late model Astra GTE 16v, from the final year of production of the second generation car. Registered in August 1991, the car presents very well inside and out, has had three registered keepers (the last buying it in 2006) overall and is MoT'd through to May 2024. The odometer shows 53,206 miles, which is backed up by the history. It is reported as running and driving well with regular low mileage use, and its all-important digital dash functioning as it should, as is the Clifford alarm system (which has two working fobs). A set of new Pirelli tyres (as original spec) has recently been fitted. The car comes with its V5C, MoT certificates back to 1995 (when the mileage was 11,594 miles), old tax discs and quite a few invoices. There's also the original book pack with owner's handbook, vehicle security information, dealership guide, audio manual, accessories brochure and service book, stamped up to 18,561 miles in April 2001. There's also information on the Clifford alarm system, plus spare keys."

 

Estimate: £15,000 - £18,000. Sold for £17,604 including premium.

TEIGN C Damen Stan 1405

 

Vessel Details

 

Name:TEIGN C

Flag: United Kingdom

MMSI:235082804

Call sign:MWBM9

AIS transponder class:Class B

AIS Vessel Type: Dredger

 

General

 

DAMEN YARD NUMBER: 503705

Avelingen-West 20

4202 MS Gorinchem

The Netherlands

Phone: +31 (0)183 63 99 11

info@damen.com

DELIVERY DATE August 2001

BASIC FUNCTIONS Towing, mooring, pushing and dredging operations

FLAG United Kingdom [GB]

OWNED Teignmouth Harbour Commission

 

CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch

 

Dimensions

 

LENGTH: 14.40 m

BEAM: 4.73 m

DEPTH AT SIDES: 2.05 m

DRAUGHT AFT: 1.71 m

DISPLACEMENT 48 ton

  

Tank Capacities

 

Fuel oil 6.9 m³

 

Performances (trials)

 

BOLLARD PULL AHEAD 8.0 ton

SPEED 9.8 knots

 

Propulsion System

 

MAIN ENGINE: 2x Caterpillar 3406C TA/A

TOTAL POWER: 477 bmW (640i hp) at 1800 rpm

GEARBOX: 2x Twin Disc MG 5091/3.82:1

PROPELLERS: Bronze fixed pitch propeller

KORT NOZZELS: Van de Giessen 2x 1000 mm with stainless steel innerings

ENGINE CONTROL: Kobelt

STEERING GEAR: 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator

 

Auxiliary Equipment

 

BILGE PUMP: Sterling SIH 20, 32 m/hr

BATTERY SETS: 2x 24V, 200 Ah + change over facility

COOLING SYSTEM: Closed cooling system

ALARM SYSTEM: Engines, gearboxes and bilge alarms

FRESH WATER PRESSURE SET: Speck 24V

 

Deck lay-out

 

ANCHORS: 2x 48 kg Pool (HHP)

CHAIN: 70 m, Ø 13mm, shortlink U2

ANCHOR WINCH: Hand-operated

TOWING HOOK: Mampaey, 15.3 ton SWL

COUPLING WINCH PUSHBOW: Cylindrical nubber fender Ø 380 mm

 

Accommodation

 

The wheelhouse ceiling and sides are insulated with mineral wool and

panelled. The wheelhouse floor is covered with rubber/synthetic floor

covering, make Bolidt, color blue The wheelhouse has one

helmsman seat, a bench and table with chair Below deck two berths, a

kitchen unit and a toilet space are arranged.

 

Nautical and Communication Equipment

 

SEARCHLIGHT: Den Haan 170 W 24 V

VHF RADIO: Sailor RT 2048 25 W

NAVIGATION: Navigation lights incl towing and pilot lights

 

Owner

 

Teignmouth Harbour Commission

The Harbour Commission is a Trust Port created by Statute.

The principal Order is the Teignmouth Harbour Order 1924

as amended by the Teignmouth Harbour Revision Order 2003

Demonstration at Twin Lakes Recreation Area in Palatine Illinois

I thought about posting a classic high-speed blur, or a short video, but in the end settled for a more-or-less head on photo of a Tōkaidō Shinkansen N700 series train powering up the slope and going full speed through Odawara Station en route from Tokyo to Shin-Osaka. Most units are 16 cars / coaches long with a 1,323-seat capacity. Just under 150 million people are carried on this particular route per annum.

 

2014 is the 50th anniversary of Japan's legendary bullet train. The country's entire network now consists of 2,387.7 km (1,483.6 miles) of line, with maximum speeds of 240–320 km/h (150–200 mph) depending on which line is being used. In 2012, JR Central reported that the Shinkansen's average delay per train, across the nation, was 36 seconds. This includes delays due to natural events, such as snow and last weekend's big earthquake that stopped many trains for about one hour. The "Urgent Earthquake Detection and Alarm System" introduced in 1992 automatically stopped those bullet trains potentially affected by the 6.8 quake. Despite carrying 10 billion people over 50 years in a land where quakes, typhoons and heavy snow are not uncommon, there have been NO passenger fatalities due to derailments or collisions. A remarkable record! By comparison there were 3,377 deaths on Texas roads in 2013 alone. In Great Britain, there were 1,713 road deaths just in 2012.

Vessel MAERSK FRONTIER (IMO: 9034767, MMSI: 219352000) is an offshore tug/supply ship built in 1992 and currently sailing under the flag of Denmark. MAERSK FRONTIER has 83m length overall and beam of 19m. Her gross tonnage is 2961 tons

 

The UT 745 Platform Supply Vessel are designed by Ulstein International AS for following duties: Transport of pipes, cement, equipment, dry and liquid cargo to and from pipe-laying barges, drilling platfroms and ships. Loading and unloading alongside a pipelaying barge or drilling/production platforms in a North Sea condition. The vessel are also prepared for Oil recovery operation. The vessel are executed as Ulstein Verft yard no. 227. The UT 745 have a deadweight of 4640 t and a deck cargo capacity of 2950 t, pipe cargo capacity 2700t.

 

CLASSIFICATION

The vessel are built outfitted with machinery and provided with equipment in accordance with the latest rules and regulations of Lloyd's Register of Shipping for world wide service with following class and notation: + 100 A1, + LMC, UMS, LNC (AA) "Offshore Supply Ship", Methanol in integral tank. The vessel is complaying with Danish Authorities (DMA) and U.K. Authorities (DOT) for such vessel for world wide.

 

2017: Still active - IMO 9034767

 

MAIN DATA

Length over all: 82,50 m

Length beween p.p: 76,20 m

Breadth moulded: 18,80 m

Depth. mld.: 7,60 m

Draft (summer): 6,23 m

DW: 4640 t

Gross tonnage international: 2961 GRT

Net tonnage international: 1234 NRT

Deck cargo: 2950 t

Deck cargo area: 900 m3

 

ACCOMODATION

Accomodation for 26 persons in total of which:

- 2 off one-bed cabins with dayroom, bedroom and toilet.

- 12 off one-bed cabins with toilet.

- 2 off 6-men cabins with toilet.

In addition:

- 1 off hospital

- 1 off reception

officers and crew mess rooms.

 

PERFORMANCE

Trial Speed: 15,0 knots

 

TECHNICAL DATA

Ulstein Bergen, main engines 2 x BRM-6 each of 2650 kW

Ulstein Propeller:

- Twin screw CP propulsion system: 2 x 2650 kW

- Thrusters: Fore 1 off 883 kW

1 off Compass Thruster 883 kW

Aft: 2 off 590 kW

Motorfabrikken DAN (Svendborg): Steering gear

Ulstein high lift rudders: 2 off

Ulstein passive stab.tank system: 3 off

 

Ulstein Brattvaag:

- 1 off Windlass, 25 t

- 2 off Capstans, 10 t

- 2 off Tuggerwinches, 9,5 t

 

Ulstein Marine Electronics:

- Main Switchboard 440V/220V

- Emergency Switcboard 440V/220V

- Electronic remote control system for propeller system

- Control consoles and general electrical equipment

- Tank Tender/Data Sound

- Microprocessor based alarm system (UMAS)

- Roll indicator

Fish, any of approximately 34,000 species of vertebrate animals (phylum Chordata) found in the fresh and salt waters of the world. Living species range from the primitive jawless lampreys and hagfishes through the cartilaginous sharks, skates, and rays to the abundant and diverse bony fishes. Most fish species are cold-blooded; however, one species, the opah (Lampris guttatus), is warm-blooded.

 

The term fish is applied to a variety of vertebrates of several evolutionary lines. It describes a life-form rather than a taxonomic group. As members of the phylum Chordata, fish share certain features with other vertebrates. These features are gill slits at some point in the life cycle, a notochord, or skeletal supporting rod, a dorsal hollow nerve cord, and a tail. Living fishes represent some five classes, which are as distinct from one another as are the four classes of familiar air-breathing animals—amphibians, reptiles, birds, and mammals. For example, the jawless fishes (Agnatha) have gills in pouches and lack limb girdles. Extant agnathans are the lampreys and the hagfishes. As the name implies, the skeletons of fishes of the class Chondrichthyes (from chondr, “cartilage,” and ichthyes, “fish”) are made entirely of cartilage. Modern fish of this class lack a swim bladder, and their scales and teeth are made up of the same placoid material. Sharks, skates, and rays are examples of cartilaginous fishes. The bony fishes are by far the largest class. Examples range from the tiny seahorse to the 450-kg (1,000-pound) blue marlin, from the flattened soles and flounders to the boxy puffers and ocean sunfishes. Unlike the scales of the cartilaginous fishes, those of bony fishes, when present, grow throughout life and are made up of thin overlapping plates of bone. Bony fishes also have an operculum that covers the gill slits.

 

The study of fishes, the science of ichthyology, is of broad importance. Fishes are of interest to humans for many reasons, the most important being their relationship with and dependence on the environment. A more obvious reason for interest in fishes is their role as a moderate but important part of the world’s food supply. This resource, once thought unlimited, is now realized to be finite and in delicate balance with the biological, chemical, and physical factors of the aquatic environment. Overfishing, pollution, and alteration of the environment are the chief enemies of proper fisheries management, both in fresh waters and in the ocean. (For a detailed discussion of the technology and economics of fisheries, see commercial fishing.) Another practical reason for studying fishes is their use in disease control. As predators on mosquito larvae, they help curb malaria and other mosquito-borne diseases.

 

Fishes are valuable laboratory animals in many aspects of medical and biological research. For example, the readiness of many fishes to acclimate to captivity has allowed biologists to study behaviour, physiology, and even ecology under relatively natural conditions. Fishes have been especially important in the study of animal behaviour, where research on fishes has provided a broad base for the understanding of the more flexible behaviour of the higher vertebrates. The zebra fish is used as a model in studies of gene expression.

 

There are aesthetic and recreational reasons for an interest in fishes. Millions of people keep live fishes in home aquariums for the simple pleasure of observing the beauty and behaviour of animals otherwise unfamiliar to them. Aquarium fishes provide a personal challenge to many aquarists, allowing them to test their ability to keep a small section of the natural environment in their homes. Sportfishing is another way of enjoying the natural environment, also indulged in by millions of people every year. Interest in aquarium fishes and sportfishing supports multimillion-dollar industries throughout the world.

 

Fishes have been in existence for more than 450 million years, during which time they have evolved repeatedly to fit into almost every conceivable type of aquatic habitat. In a sense, land vertebrates are simply highly modified fishes: when fishes colonized the land habitat, they became tetrapod (four-legged) land vertebrates. The popular conception of a fish as a slippery, streamlined aquatic animal that possesses fins and breathes by gills applies to many fishes, but far more fishes deviate from that conception than conform to it. For example, the body is elongate in many forms and greatly shortened in others; the body is flattened in some (principally in bottom-dwelling fishes) and laterally compressed in many others; the fins may be elaborately extended, forming intricate shapes, or they may be reduced or even lost; and the positions of the mouth, eyes, nostrils, and gill openings vary widely. Air breathers have appeared in several evolutionary lines.

 

Many fishes are cryptically coloured and shaped, closely matching their respective environments; others are among the most brilliantly coloured of all organisms, with a wide range of hues, often of striking intensity, on a single individual. The brilliance of pigments may be enhanced by the surface structure of the fish, so that it almost seems to glow. A number of unrelated fishes have actual light-producing organs. Many fishes are able to alter their coloration—some for the purpose of camouflage, others for the enhancement of behavioral signals.

 

Fishes range in adult length from less than 10 mm (0.4 inch) to more than 20 metres (60 feet) and in weight from about 1.5 grams (less than 0.06 ounce) to many thousands of kilograms. Some live in shallow thermal springs at temperatures slightly above 42 °C (100 °F), others in cold Arctic seas a few degrees below 0 °C (32 °F) or in cold deep waters more than 4,000 metres (13,100 feet) beneath the ocean surface. The structural and, especially, the physiological adaptations for life at such extremes are relatively poorly known and provide the scientifically curious with great incentive for study.

 

Almost all natural bodies of water bear fish life, the exceptions being very hot thermal ponds and extremely salt-alkaline lakes, such as the Dead Sea in Asia and the Great Salt Lake in North America. The present distribution of fishes is a result of the geological history and development of Earth as well as the ability of fishes to undergo evolutionary change and to adapt to the available habitats. Fishes may be seen to be distributed according to habitat and according to geographical area. Major habitat differences are marine and freshwater. For the most part, the fishes in a marine habitat differ from those in a freshwater habitat, even in adjacent areas, but some, such as the salmon, migrate from one to the other. The freshwater habitats may be seen to be of many kinds. Fishes found in mountain torrents, Arctic lakes, tropical lakes, temperate streams, and tropical rivers will all differ from each other, both in obvious gross structure and in physiological attributes. Even in closely adjacent habitats where, for example, a tropical mountain torrent enters a lowland stream, the fish fauna will differ. The marine habitats can be divided into deep ocean floors (benthic), mid-water oceanic (bathypelagic), surface oceanic (pelagic), rocky coast, sandy coast, muddy shores, bays, estuaries, and others. Also, for example, rocky coastal shores in tropical and temperate regions will have different fish faunas, even when such habitats occur along the same coastline.

 

Although much is known about the present geographical distribution of fishes, far less is known about how that distribution came about. Many parts of the fish fauna of the fresh waters of North America and Eurasia are related and undoubtedly have a common origin. The faunas of Africa and South America are related, extremely old, and probably an expression of the drifting apart of the two continents. The fauna of southern Asia is related to that of Central Asia, and some of it appears to have entered Africa. The extremely large shore-fish faunas of the Indian and tropical Pacific oceans comprise a related complex, but the tropical shore fauna of the Atlantic, although containing Indo-Pacific components, is relatively limited and probably younger. The Arctic and Antarctic marine faunas are quite different from each other. The shore fauna of the North Pacific is quite distinct, and that of the North Atlantic more limited and probably younger. Pelagic oceanic fishes, especially those in deep waters, are similar the world over, showing little geographical isolation in terms of family groups. The deep oceanic habitat is very much the same throughout the world, but species differences do exist, showing geographical areas determined by oceanic currents and water masses.

 

All aspects of the life of a fish are closely correlated with adaptation to the total environment, physical, chemical, and biological. In studies, all the interdependent aspects of fish, such as behaviour, locomotion, reproduction, and physical and physiological characteristics, must be taken into account.

 

Correlated with their adaptation to an extremely wide variety of habitats is the extremely wide variety of life cycles that fishes display. The great majority hatch from relatively small eggs a few days to several weeks or more after the eggs are scattered in the water. Newly hatched young are still partially undeveloped and are called larvae until body structures such as fins, skeleton, and some organs are fully formed. Larval life is often very short, usually less than a few weeks, but it can be very long, some lampreys continuing as larvae for at least five years. Young and larval fishes, before reaching sexual maturity, must grow considerably, and their small size and other factors often dictate that they live in a habitat different than that of the adults. For example, most tropical marine shore fishes have pelagic larvae. Larval food also is different, and larval fishes often live in shallow waters, where they may be less exposed to predators.

 

After a fish reaches adult size, the length of its life is subject to many factors, such as innate rates of aging, predation pressure, and the nature of the local climate. The longevity of a species in the protected environment of an aquarium may have nothing to do with how long members of that species live in the wild. Many small fishes live only one to three years at the most. In some species, however, individuals may live as long as 10 or 20 or even 100 years.

 

Fish behaviour is a complicated and varied subject. As in almost all animals with a central nervous system, the nature of a response of an individual fish to stimuli from its environment depends upon the inherited characteristics of its nervous system, on what it has learned from past experience, and on the nature of the stimuli. Compared with the variety of human responses, however, that of a fish is stereotyped, not subject to much modification by “thought” or learning, and investigators must guard against anthropomorphic interpretations of fish behaviour.

 

Fishes perceive the world around them by the usual senses of sight, smell, hearing, touch, and taste and by special lateral line water-current detectors. In the few fishes that generate electric fields, a process that might best be called electrolocation aids in perception. One or another of these senses often is emphasized at the expense of others, depending upon the fish’s other adaptations. In fishes with large eyes, the sense of smell may be reduced; others, with small eyes, hunt and feed primarily by smell (such as some eels).

 

Specialized behaviour is primarily concerned with the three most important activities in the fish’s life: feeding, reproduction, and escape from enemies. Schooling behaviour of sardines on the high seas, for instance, is largely a protective device to avoid enemies, but it is also associated with and modified by their breeding and feeding requirements. Predatory fishes are often solitary, lying in wait to dart suddenly after their prey, a kind of locomotion impossible for beaked parrot fishes, which feed on coral, swimming in small groups from one coral head to the next. In addition, some predatory fishes that inhabit pelagic environments, such as tunas, often school.

 

Sleep in fishes, all of which lack true eyelids, consists of a seemingly listless state in which the fish maintains its balance but moves slowly. If attacked or disturbed, most can dart away. A few kinds of fishes lie on the bottom to sleep. Most catfishes, some loaches, and some eels and electric fishes are strictly nocturnal, being active and hunting for food during the night and retiring during the day to holes, thick vegetation, or other protective parts of the environment.

 

Communication between members of a species or between members of two or more species often is extremely important, especially in breeding behaviour (see below Reproduction). The mode of communication may be visual, as between the small so-called cleaner fish and a large fish of a very different species. The larger fish often allows the cleaner to enter its mouth to remove gill parasites. The cleaner is recognized by its distinctive colour and actions and therefore is not eaten, even if the larger fish is normally a predator. Communication is often chemical, signals being sent by specific chemicals called pheromones.

 

Many fishes have a streamlined body and swim freely in open water. Fish locomotion is closely correlated with habitat and ecological niche (the general position of the animal to its environment).

 

Many fishes in both marine and fresh waters swim at the surface and have mouths adapted to feed best (and sometimes only) at the surface. Often such fishes are long and slender, able to dart at surface insects or at other surface fishes and in turn to dart away from predators; needlefishes, halfbeaks, and topminnows (such as killifish and mosquito fish) are good examples. Oceanic flying fishes escape their predators by gathering speed above the water surface, with the lower lobe of the tail providing thrust in the water. They then glide hundreds of yards on enlarged, winglike pectoral and pelvic fins. South American freshwater flying fishes escape their enemies by jumping and propelling their strongly keeled bodies out of the water.

 

So-called mid-water swimmers, the most common type of fish, are of many kinds and live in many habitats. The powerful fusiform tunas and the trouts, for example, are adapted for strong, fast swimming, the tunas to capture prey speedily in the open ocean and the trouts to cope with the swift currents of streams and rivers. The trout body form is well adapted to many habitats. Fishes that live in relatively quiet waters such as bays or lake shores or slow rivers usually are not strong, fast swimmers but are capable of short, quick bursts of speed to escape a predator. Many of these fishes have their sides flattened, examples being the sunfish and the freshwater angelfish of aquarists. Fish associated with the bottom or substrate usually are slow swimmers. Open-water plankton-feeding fishes almost always remain fusiform and are capable of rapid, strong movement (for example, sardines and herrings of the open ocean and also many small minnows of streams and lakes).

 

Bottom-living fishes are of many kinds and have undergone many types of modification of their body shape and swimming habits. Rays, which evolved from strong-swimming mid-water sharks, usually stay close to the bottom and move by undulating their large pectoral fins. Flounders live in a similar habitat and move over the bottom by undulating the entire body. Many bottom fishes dart from place to place, resting on the bottom between movements, a motion common in gobies. One goby relative, the mudskipper, has taken to living at the edge of pools along the shore of muddy mangrove swamps. It escapes its enemies by flipping rapidly over the mud, out of the water. Some catfishes, synbranchid eels, the so-called climbing perch, and a few other fishes venture out over damp ground to find more promising waters than those that they left. They move by wriggling their bodies, sometimes using strong pectoral fins; most have accessory air-breathing organs. Many bottom-dwelling fishes live in mud holes or rocky crevices. Marine eels and gobies commonly are found in such habitats and for the most part venture far beyond their cavelike homes. Some bottom dwellers, such as the clingfishes (Gobiesocidae), have developed powerful adhesive disks that enable them to remain in place on the substrate in areas such as rocky coasts, where the action of the waves is great.

 

The methods of reproduction in fishes are varied, but most fishes lay a large number of small eggs, fertilized and scattered outside of the body. The eggs of pelagic fishes usually remain suspended in the open water. Many shore and freshwater fishes lay eggs on the bottom or among plants. Some have adhesive eggs. The mortality of the young and especially of the eggs is very high, and often only a few individuals grow to maturity out of hundreds, thousands, and in some cases millions of eggs laid.

 

Males produce sperm, usually as a milky white substance called milt, in two (sometimes one) testes within the body cavity. In bony fishes a sperm duct leads from each testis to a urogenital opening behind the vent or anus. In sharks and rays and in cyclostomes the duct leads to a cloaca. Sometimes the pelvic fins are modified to help transmit the milt to the eggs at the female’s vent or on the substrate where the female has placed them. Sometimes accessory organs are used to fertilize females internally—for example, the claspers of many sharks and rays.

 

In the females the eggs are formed in two ovaries (sometimes only one) and pass through the ovaries to the urogenital opening and to the outside. In some fishes the eggs are fertilized internally but are shed before development takes place. Members of about a dozen families each of bony fishes (teleosts) and sharks bear live young. Many skates and rays also bear live young. In some bony fishes the eggs simply develop within the female, the young emerging when the eggs hatch (ovoviviparous). Others develop within the ovary and are nourished by ovarian tissues after hatching (viviparous). There are also other methods utilized by fishes to nourish young within the female. In all live-bearers the young are born at a relatively large size and are few in number. In one family of primarily marine fishes, the surfperches from the Pacific coast of North America, Japan, and Korea, the males of at least one species are born sexually mature, although they are not fully grown.

 

Some fishes are hermaphroditic—an individual producing both sperm and eggs, usually at different stages of its life. Self-fertilization, however, is probably rare.

 

Successful reproduction and, in many cases, defense of the eggs and the young are assured by rather stereotypical but often elaborate courtship and parental behaviour, either by the male or the female or both. Some fishes prepare nests by hollowing out depressions in the sand bottom (cichlids, for example), build nests with plant materials and sticky threads excreted by the kidneys (sticklebacks), or blow a cluster of mucus-covered bubbles at the water surface (gouramis). The eggs are laid in these structures. Some varieties of cichlids and catfishes incubate eggs in their mouths.

 

Some fishes, such as salmon, undergo long migrations from the ocean and up large rivers to spawn in the gravel beds where they themselves hatched (anadromous fishes). Some, such as the freshwater eels (family Anguillidae), live and grow to maturity in fresh water and migrate to the sea to spawn (catadromous fishes). Other fishes undertake shorter migrations from lakes into streams, within the ocean, or enter spawning habitats that they do not ordinarily occupy in other ways.

 

The basic structure and function of the fish body are similar to those of all other vertebrates. The usual four types of tissues are present: surface or epithelial, connective (bone, cartilage, and fibrous tissues, as well as their derivative, blood), nerve, and muscle tissues. In addition, the fish’s organs and organ systems parallel those of other vertebrates.

 

The typical fish body is streamlined and spindle-shaped, with an anterior head, a gill apparatus, and a heart, the latter lying in the midline just below the gill chamber. The body cavity, containing the vital organs, is situated behind the head in the lower anterior part of the body. The anus usually marks the posterior termination of the body cavity and most often occurs just in front of the base of the anal fin. The spinal cord and vertebral column continue from the posterior part of the head to the base of the tail fin, passing dorsal to the body cavity and through the caudal (tail) region behind the body cavity. Most of the body is of muscular tissue, a high proportion of which is necessitated by swimming. In the course of evolution this basic body plan has been modified repeatedly into the many varieties of fish shapes that exist today.

 

The skeleton forms an integral part of the fish’s locomotion system, as well as serving to protect vital parts. The internal skeleton consists of the skull bones (except for the roofing bones of the head, which are really part of the external skeleton), the vertebral column, and the fin supports (fin rays). The fin supports are derived from the external skeleton but will be treated here because of their close functional relationship to the internal skeleton. The internal skeleton of cyclostomes, sharks, and rays is of cartilage; that of many fossil groups and some primitive living fishes is mostly of cartilage but may include some bone. In place of the vertebral column, the earliest vertebrates had a fully developed notochord, a flexible stiff rod of viscous cells surrounded by a strong fibrous sheath. During the evolution of modern fishes the rod was replaced in part by cartilage and then by ossified cartilage. Sharks and rays retain a cartilaginous vertebral column; bony fishes have spool-shaped vertebrae that in the more primitive living forms only partially replace the notochord. The skull, including the gill arches and jaws of bony fishes, is fully, or at least partially, ossified. That of sharks and rays remains cartilaginous, at times partially replaced by calcium deposits but never by true bone.

 

The supportive elements of the fins (basal or radial bones or both) have changed greatly during fish evolution. Some of these changes are described in the section below (Evolution and paleontology). Most fishes possess a single dorsal fin on the midline of the back. Many have two and a few have three dorsal fins. The other fins are the single tail and anal fins and paired pelvic and pectoral fins. A small fin, the adipose fin, with hairlike fin rays, occurs in many of the relatively primitive teleosts (such as trout) on the back near the base of the caudal fin.

 

The skin of a fish must serve many functions. It aids in maintaining the osmotic balance, provides physical protection for the body, is the site of coloration, contains sensory receptors, and, in some fishes, functions in respiration. Mucous glands, which aid in maintaining the water balance and offer protection from bacteria, are extremely numerous in fish skin, especially in cyclostomes and teleosts. Since mucous glands are present in the modern lampreys, it is reasonable to assume that they were present in primitive fishes, such as the ancient Silurian and Devonian agnathans. Protection from abrasion and predation is another function of the fish skin, and dermal (skin) bone arose early in fish evolution in response to this need. It is thought that bone first evolved in skin and only later invaded the cartilaginous areas of the fish’s body, to provide additional support and protection. There is some argument as to which came first, cartilage or bone, and fossil evidence does not settle the question. In any event, dermal bone has played an important part in fish evolution and has different characteristics in different groups of fishes. Several groups are characterized at least in part by the kind of bony scales they possess.

 

Scales have played an important part in the evolution of fishes. Primitive fishes usually had thick bony plates or thick scales in several layers of bone, enamel, and related substances. Modern teleost fishes have scales of bone, which, while still protective, allow much more freedom of motion in the body. A few modern teleosts (some catfishes, sticklebacks, and others) have secondarily acquired bony plates in the skin. Modern and early sharks possessed placoid scales, a relatively primitive type of scale with a toothlike structure, consisting of an outside layer of enamel-like substance (vitrodentine), an inner layer of dentine, and a pulp cavity containing nerves and blood vessels. Primitive bony fishes had thick scales of either the ganoid or the cosmoid type. Cosmoid scales have a hard, enamel-like outer layer, an inner layer of cosmine (a form of dentine), and then a layer of vascular bone (isopedine). In ganoid scales the hard outer layer is different chemically and is called ganoin. Under this is a cosminelike layer and then a vascular bony layer. The thin, translucent bony scales of modern fishes, called cycloid and ctenoid (the latter distinguished by serrations at the edges), lack enameloid and dentine layers.

 

Skin has several other functions in fishes. It is well supplied with nerve endings and presumably receives tactile, thermal, and pain stimuli. Skin is also well supplied with blood vessels. Some fishes breathe in part through the skin, by the exchange of oxygen and carbon dioxide between the surrounding water and numerous small blood vessels near the skin surface.

 

Skin serves as protection through the control of coloration. Fishes exhibit an almost limitless range of colours. The colours often blend closely with the surroundings, effectively hiding the animal. Many fishes use bright colours for territorial advertisement or as recognition marks for other members of their own species, or sometimes for members of other species. Many fishes can change their colour to a greater or lesser degree, by movement of pigment within the pigment cells (chromatophores). Black pigment cells (melanophores), of almost universal occurrence in fishes, are often juxtaposed with other pigment cells. When placed beneath iridocytes or leucophores (bearing the silvery or white pigment guanine), melanophores produce structural colours of blue and green. These colours are often extremely intense, because they are formed by refraction of light through the needlelike crystals of guanine. The blue and green refracted colours are often relatively pure, lacking the red and yellow rays, which have been absorbed by the black pigment (melanin) of the melanophores. Yellow, orange, and red colours are produced by erythrophores, cells containing the appropriate carotenoid pigments. Other colours are produced by combinations of melanophores, erythrophores, and iridocytes.

 

The major portion of the body of most fishes consists of muscles. Most of the mass is trunk musculature, the fin muscles usually being relatively small. The caudal fin is usually the most powerful fin, being moved by the trunk musculature. The body musculature is usually arranged in rows of chevron-shaped segments on each side. Contractions of these segments, each attached to adjacent vertebrae and vertebral processes, bends the body on the vertebral joint, producing successive undulations of the body, passing from the head to the tail, and producing driving strokes of the tail. It is the latter that provides the strong forward movement for most fishes.

 

The digestive system, in a functional sense, starts at the mouth, with the teeth used to capture prey or collect plant foods. Mouth shape and tooth structure vary greatly in fishes, depending on the kind of food normally eaten. Most fishes are predacious, feeding on small invertebrates or other fishes and have simple conical teeth on the jaws, on at least some of the bones of the roof of the mouth, and on special gill arch structures just in front of the esophagus. The latter are throat teeth. Most predacious fishes swallow their prey whole, and the teeth are used for grasping and holding prey, for orienting prey to be swallowed (head first) and for working the prey toward the esophagus. There are a variety of tooth types in fishes. Some fishes, such as sharks and piranhas, have cutting teeth for biting chunks out of their victims. A shark’s tooth, although superficially like that of a piranha, appears in many respects to be a modified scale, while that of the piranha is like that of other bony fishes, consisting of dentine and enamel. Parrot fishes have beaklike mouths with short incisor-like teeth for breaking off coral and have heavy pavementlike throat teeth for crushing the coral. Some catfishes have small brushlike teeth, arranged in rows on the jaws, for scraping plant and animal growth from rocks. Many fishes (such as the Cyprinidae or minnows) have no jaw teeth at all but have very strong throat teeth.

 

Some fishes gather planktonic food by straining it from their gill cavities with numerous elongate stiff rods (gill rakers) anchored by one end to the gill bars. The food collected on these rods is passed to the throat, where it is swallowed. Most fishes have only short gill rakers that help keep food particles from escaping out the mouth cavity into the gill chamber.

 

Once reaching the throat, food enters a short, often greatly distensible esophagus, a simple tube with a muscular wall leading into a stomach. The stomach varies greatly in fishes, depending upon the diet. In most predacious fishes it is a simple straight or curved tube or pouch with a muscular wall and a glandular lining. Food is largely digested there and leaves the stomach in liquid form.

 

Between the stomach and the intestine, ducts enter the digestive tube from the liver and pancreas. The liver is a large, clearly defined organ. The pancreas may be embedded in it, diffused through it, or broken into small parts spread along some of the intestine. The junction between the stomach and the intestine is marked by a muscular valve. Pyloric ceca (blind sacs) occur in some fishes at this junction and have a digestive or absorptive function or both.

 

The intestine itself is quite variable in length, depending upon the fish’s diet. It is short in predacious forms, sometimes no longer than the body cavity, but long in herbivorous forms, being coiled and several times longer than the entire length of the fish in some species of South American catfishes. The intestine is primarily an organ for absorbing nutrients into the bloodstream. The larger its internal surface, the greater its absorptive efficiency, and a spiral valve is one method of increasing its absorption surface.

 

Sharks, rays, chimaeras, lungfishes, surviving chondrosteans, holosteans, and even a few of the more primitive teleosts have a spiral valve or at least traces of it in the intestine. Most modern teleosts have increased the area of the intestinal walls by having numerous folds and villi (fingerlike projections) somewhat like those in humans. Undigested substances are passed to the exterior through the anus in most teleost fishes. In lungfishes, sharks, and rays, it is first passed through the cloaca, a common cavity receiving the intestinal opening and the ducts from the urogenital system.

 

Oxygen and carbon dioxide dissolve in water, and most fishes exchange dissolved oxygen and carbon dioxide in water by means of the gills. The gills lie behind and to the side of the mouth cavity and consist of fleshy filaments supported by the gill arches and filled with blood vessels, which give gills a bright red colour. Water taken in continuously through the mouth passes backward between the gill bars and over the gill filaments, where the exchange of gases takes place. The gills are protected by a gill cover in teleosts and many other fishes but by flaps of skin in sharks, rays, and some of the older fossil fish groups. The blood capillaries in the gill filaments are close to the gill surface to take up oxygen from the water and to give up excess carbon dioxide to the water.

 

Most modern fishes have a hydrostatic (ballast) organ, called the swim bladder, that lies in the body cavity just below the kidney and above the stomach and intestine. It originated as a diverticulum of the digestive canal. In advanced teleosts, especially the acanthopterygians, the bladder has lost its connection with the digestive tract, a condition called physoclistic. The connection has been retained (physostomous) by many relatively primitive teleosts. In several unrelated lines of fishes, the bladder has become specialized as a lung or, at least, as a highly vascularized accessory breathing organ. Some fishes with such accessory organs are obligate air breathers and will drown if denied access to the surface, even in well-oxygenated water. Fishes with a hydrostatic form of swim bladder can control their depth by regulating the amount of gas in the bladder. The gas, mostly oxygen, is secreted into the bladder by special glands, rendering the fish more buoyant; the gas is absorbed into the bloodstream by another special organ, reducing the overall buoyancy and allowing the fish to sink. Some deep-sea fishes may have oils, rather than gas, in the bladder. Other deep-sea and some bottom-living forms have much-reduced swim bladders or have lost the organ entirely.

 

The swim bladder of fishes follows the same developmental pattern as the lungs of land vertebrates. There is no doubt that the two structures have the same historical origin in primitive fishes. More or less intermediate forms still survive among the more primitive types of fishes, such as the lungfishes Lepidosiren and Protopterus.

 

The circulatory, or blood vascular, system consists of the heart, the arteries, the capillaries, and the veins. It is in the capillaries that the interchange of oxygen, carbon dioxide, nutrients, and other substances such as hormones and waste products takes place. The capillaries lead to the veins, which return the venous blood with its waste products to the heart, kidneys, and gills. There are two kinds of capillary beds: those in the gills and those in the rest of the body. The heart, a folded continuous muscular tube with three or four saclike enlargements, undergoes rhythmic contractions and receives venous blood in a sinus venosus. It passes the blood to an auricle and then into a thick muscular pump, the ventricle. From the ventricle the blood goes to a bulbous structure at the base of a ventral aorta just below the gills. The blood passes to the afferent (receiving) arteries of the gill arches and then to the gill capillaries. There waste gases are given off to the environment, and oxygen is absorbed. The oxygenated blood enters efferent (exuant) arteries of the gill arches and then flows into the dorsal aorta. From there blood is distributed to the tissues and organs of the body. One-way valves prevent backflow. The circulation of fishes thus differs from that of the reptiles, birds, and mammals in that oxygenated blood is not returned to the heart prior to distribution to the other parts of the body.

 

The primary excretory organ in fishes, as in other vertebrates, is the kidney. In fishes some excretion also takes place in the digestive tract, skin, and especially the gills (where ammonia is given off). Compared with land vertebrates, fishes have a special problem in maintaining their internal environment at a constant concentration of water and dissolved substances, such as salts. Proper balance of the internal environment (homeostasis) of a fish is in a great part maintained by the excretory system, especially the kidney.

 

The kidney, gills, and skin play an important role in maintaining a fish’s internal environment and checking the effects of osmosis. Marine fishes live in an environment in which the water around them has a greater concentration of salts than they can have inside their body and still maintain life. Freshwater fishes, on the other hand, live in water with a much lower concentration of salts than they require inside their bodies. Osmosis tends to promote the loss of water from the body of a marine fish and absorption of water by that of a freshwater fish. Mucus in the skin tends to slow the process but is not a sufficient barrier to prevent the movement of fluids through the permeable skin. When solutions on two sides of a permeable membrane have different concentrations of dissolved substances, water will pass through the membrane into the more concentrated solution, while the dissolved chemicals move into the area of lower concentration (diffusion).

 

The kidney of freshwater fishes is often larger in relation to body weight than that of marine fishes. In both groups the kidney excretes wastes from the body, but the kidney of freshwater fishes also excretes large amounts of water, counteracting the water absorbed through the skin. Freshwater fishes tend to lose salt to the environment and must replace it. They get some salt from their food, but the gills and skin inside the mouth actively absorb salt from water passed through the mouth. This absorption is performed by special cells capable of moving salts against the diffusion gradient. Freshwater fishes drink very little water and take in little water with their food.

 

Marine fishes must conserve water, and therefore their kidneys excrete little water. To maintain their water balance, marine fishes drink large quantities of seawater, retaining most of the water and excreting the salt. Most nitrogenous waste in marine fishes appears to be secreted by the gills as ammonia. Marine fishes can excrete salt by clusters of special cells (chloride cells) in the gills.

 

There are several teleosts—for example, the salmon—that travel between fresh water and seawater and must adjust to the reversal of osmotic gradients. They adjust their physiological processes by spending time (often surprisingly little time) in the intermediate brackish environment.

 

Marine hagfishes, sharks, and rays have osmotic concentrations in their blood about equal to that of seawater and so do not have to drink water nor perform much physiological work to maintain their osmotic balance. In sharks and rays the osmotic concentration is kept high by retention of urea in the blood. Freshwater sharks have a lowered concentration of urea in the blood.

 

Endocrine glands secrete their products into the bloodstream and body tissues and, along with the central nervous system, control and regulate many kinds of body functions. Cyclostomes have a well-developed endocrine system, and presumably it was well developed in the early Agnatha, ancestral to modern fishes. Although the endocrine system in fishes is similar to that of higher vertebrates, there are numerous differences in detail. The pituitary, the thyroid, the suprarenals, the adrenals, the pancreatic islets, the sex glands (ovaries and testes), the inner wall of the intestine, and the bodies of the ultimobranchial gland make up the endocrine system in fishes. There are some others whose function is not well understood. These organs regulate sexual activity and reproduction, growth, osmotic pressure, general metabolic activities such as the storage of fat and the utilization of foodstuffs, blood pressure, and certain aspects of skin colour. Many of these activities are also controlled in part by the central nervous system, which works with the endocrine system in maintaining the life of a fish. Some parts of the endocrine system are developmentally, and undoubtedly evolutionarily, derived from the nervous system.

 

As in all vertebrates, the nervous system of fishes is the primary mechanism coordinating body activities, as well as integrating these activities in the appropriate manner with stimuli from the environment. The central nervous system, consisting of the brain and spinal cord, is the primary integrating mechanism. The peripheral nervous system, consisting of nerves that connect the brain and spinal cord to various body organs, carries sensory information from special receptor organs such as the eyes, internal ears, nares (sense of smell), taste glands, and others to the integrating centres of the brain and spinal cord. The peripheral nervous system also carries information via different nerve cells from the integrating centres of the brain and spinal cord. This coded information is carried to the various organs and body systems, such as the skeletal muscular system, for appropriate action in response to the original external or internal stimulus. Another branch of the nervous system, the autonomic nervous system, helps to coordinate the activities of many glands and organs and is itself closely connected to the integrating centres of the brain.

 

The brain of the fish is divided into several anatomical and functional parts, all closely interconnected but each serving as the primary centre of integrating particular kinds of responses and activities. Several of these centres or parts are primarily associated with one type of sensory perception, such as sight, hearing, or smell (olfaction).

 

The sense of smell is important in almost all fishes. Certain eels with tiny eyes depend mostly on smell for location of food. The olfactory, or nasal, organ of fishes is located on the dorsal surface of the snout. The lining of the nasal organ has special sensory cells that perceive chemicals dissolved in the water, such as substances from food material, and send sensory information to the brain by way of the first cranial nerve. Odour also serves as an alarm system. Many fishes, especially various species of freshwater minnows, react with alarm to a chemical released from the skin of an injured member of their own species.

 

Many fishes have a well-developed sense of taste, and tiny pitlike taste buds or organs are located not only within their mouth cavities but also over their heads and parts of their body. Catfishes, which often have poor vision, have barbels (“whiskers”) that serve as supplementary taste organs, those around the mouth being actively used to search out food on the bottom. Some species of naturally blind cave fishes are especially well supplied with taste buds, which often cover most of their body surface.

 

Sight is extremely important in most fishes. The eye of a fish is basically like that of all other vertebrates, but the eyes of fishes are extremely varied in structure and adaptation. In general, fishes living in dark and dim water habitats have large eyes, unless they have specialized in some compensatory way so that another sense (such as smell) is dominant, in which case the eyes will often be reduced. Fishes living in brightly lighted shallow waters often will have relatively small but efficient eyes. Cyclostomes have somewhat less elaborate eyes than other fishes, with skin stretched over the eyeball perhaps making their vision somewhat less effective. Most fishes have a spherical lens and accommodate their vision to far or near subjects by moving the lens within the eyeball. A few sharks accommodate by changing the shape of the lens, as in land vertebrates. Those fishes that are heavily dependent upon the eyes have especially strong muscles for accommodation. Most fishes see well, despite the restrictions imposed by frequent turbidity of the water and by light refraction.

 

Fossil evidence suggests that colour vision evolved in fishes more than 300 million years ago, but not all living fishes have retained this ability. Experimental evidence indicates that many shallow-water fishes, if not all, have colour vision and see some colours especially well, but some bottom-dwelling shore fishes live in areas where the water is sufficiently deep to filter out most if not all colours, and these fishes apparently never see colours. When tested in shallow water, they apparently are unable to respond to colour differences.

 

Sound perception and balance are intimately associated senses in a fish. The organs of hearing are entirely internal, located within the skull, on each side of the brain and somewhat behind the eyes. Sound waves, especially those of low frequencies, travel readily through water and impinge directly upon the bones and fluids of the head and body, to be transmitted to the hearing organs. Fishes readily respond to sound; for example, a trout conditioned to escape by the approach of fishermen will take flight upon perceiving footsteps on a stream bank even if it cannot see a fisherman. Compared with humans, however, the range of sound frequencies heard by fishes is greatly restricted. Many fishes communicate with each other by producing sounds in their swim bladders, in their throats by rasping their teeth, and in other ways.

 

A fish or other vertebrate seldom has to rely on a single type of sensory information to determine the nature of the environment around it. A catfish uses taste and touch when examining a food object with its oral barbels. Like most other animals, fishes have many touch receptors over their body surface. Pain and temperature receptors also are present in fishes and presumably produce the same kind of information to a fish as to humans. Fishes react in a negative fashion to stimuli that would be painful to human beings, suggesting that they feel a sensation of pain.

 

An important sensory system in fishes that is absent in other vertebrates (except some amphibians) is the lateral line system. This consists of a series of heavily innervated small canals located in the skin and bone around the eyes, along the lower jaw, over the head, and down the mid-side of the body, where it is associated with the scales. Intermittently along these canals are located tiny sensory organs (pit organs) that apparently detect changes in pressure. The system allows a fish to sense changes in water currents and pressure, thereby helping the fish to orient itself to the various changes that occur in the physical environment.

  

A signal style of insulator produced for the Standard Glass Insulator Company for low voltage distribution. The Standard Glass Insulator Company business was located at 120 Tremont Street in Boston, Massachusetts 1893-1894. At the present time the location of the company's glassworks remains unknown. All seven style of Standard insulators are lettered around their base rim and seems to be produce with consistency in their glass of light aqua or light blue with much clarity in the glass.

 

The particular CD 157.5 insulators are unique only to Standard's manufacture and were used in the state of Massachusetts. In the late 1890's to about 1970 it would of been a common sight around the Boston area seeing these insulators used on the fire alarm telegraph systems. Electric utilities north of Boston also used them on their primary and secondary distribution circuits. Greenfield, MA also used them on their municipal fire alarm systems.

 

Quanities of these CD 157.5 Standard insulators were liberated by collectors starting in 1970 on the Boston fire alarm circuit lines and by the late 1980's all the insulators have been picked over.

 

Embossing (Base) THE STANDARD GLASS INSULATOR CO. / BOSTON MASS

Index # 010

HISTORY & DESCRIPTION

 

FORTUNA II , designed by Frederick R Parker is an attractive Gentleman’s Motor-Yacht built in 1959 by Nunn Brothers of Waldringfield, Suffolk.

 

Fred. R Parker (1912-1984) affectionately known as FRP established, after the Second World War a solid reputation for sail and motor-craft – both racing and cruising. During the 1950’s and 1960’s he was the favoured naval architect at Moody’s with over thirty yachts built to his designs at Swanwick. FRP’s motor-yachts have attractive, pleasing lines and are sea-kindly capable vessels and as such are much sought-after.

 

Nunn Bros. established in 1921 by brothers Harry and Ernie on the River Deben have a good reputation as traditional wooden boat-builders with the business now run by the third generation of the family.

 

Fortuna 11 was built for Graham MacAndrew of Bury Hill, Woodbridge and was launched in August 1959 and registered the following June, classed Lloyds A1, grade 15. She remained in class until October 1973.

 

In the late 1960’s Graham sold Fortuna 11 to The Orwell Charter Company, who were based in Ipswich. The original 54hp Lister Blackstone diesel was replaced in 1973 by the present Man Diesel.

 

The charter company kept the vessel at Burnham on Crouch until 1975 when she was sold to Woodford Litho Ltd of London. A few years later R V Fox of Spanbrook, Essex acquired Fortuna 11 keeping her throughout the 1980’s in Burnham. During the 1990’s John Trafford of London owned the vessel keeping her in Brighton Marina.

Acquired by the current owners about ten years ago the vessel has been on the River Severn navigation and in more recent years the Exeter Ship Canal.

 

OWNERS REMARKS:

 

From the board of the well known and respected designer Frederick Parker and built by the excellent yard of Nunn Bros. of Waldringfield, Fortuna II is truly a beautiful example of a classic “”gentleman’s motor yacht’ Originally constructed to Lloyds 100A1, she is an extremely comfortable and strongly built yacht with good sea-keeping ability. She was further improved at the outset by the bespoke installation of Vosper mini fin stabilizers- a rarely found and highly desirable feature on a yacht of this size.

Fortuna II has been kept up to a very high standard and improved only where necessary.

 

Vessel Information

 

Name: FORTUNA II

Vessel Type - Detailed: Pleasure Craft

Status: Active

MMSI: 232008929

Call Sign: MBGJ5

Flag: United Kingdom [GB]

Builder: Ernie Nunn, Waldringfield, Suffolk. (1959)

Dimensions:-

LOA: 42′ 0″ (12.8m)

Beam: 13′ 6″ (4.1m)

Draft: 4′ 0” (1.2m)

Capacities:-

Weight: 15 tons (15,245kgs)

Fuel: 200 gallons (908 litres)

Water: 150 gallons (681 litres)

 

CONSTRUCTION:

 

Heavy traditional all timber construction with 1.25″” pitch pine carvel planking on steamed oak timbers, oak grown floors and heavy oak centreline framing with mahogany transom. Cast iron ballast keel with keel hung bronze rudder.

Wills Ridley hydraulic wheel steering with emergency tiller facility

Solid pine mast and spars pine.

Teak wheelhouse and cockpit structure with pine fore, side and aft decks.

All decking has been re-surfaced with West Epoxy / glass sheathing 2001

Last re-paint 2011.

 

ENGINE:

 

130 hp MAN D0846HM 6-cylinder marine diesel producing 130hp @2100rpm.

Freshwater cooled via heat exchanger. (Engine serial No.40011280-June 1970)

Fitted with ZF BW 26H 30hydraulic gearbox with 2:86 to 1 reduction and drive

To 2″ 316 stainless steel shaft (renewed 1999) with a four bladed fixed pitch bronze propeller. Fuel consumption of approximately 2.5 gallons per hour at cruising speed of 8.5 knots @1600rpm. Maximum speed 9.3 knots @2100rpm.

Complete with all original workshop manuals and spare parts lists

Deck and anchor wash pump system off main engine.

Vosper Mini Fin stabilizers.

 

ELECTRICS:

 

24-volt main system with engine belt-driven alternator charging 2 x 12v.

220Ah batteries (new 2008) Mase 220 volt AC 1.5 Kw generator with 12 volt / 20 amp and 24 volt /15 amp. Output.

Shore supply via meter and circuit breakers

Navigation lights

Intruder alarm system

Comprehensive interior cabin lighting- both 220Ah and 24v DC

2 x Kent clear view screens and Wynn pantograph wipers.

 

ACCOMMODATION:

 

Sleeps seven in three cabins, or nine if the couchettes in the main saloon are used. Full standing headroom throughout.

The beautiful panelled interior décor in figured English Oak is in excellent condition with original oak joinery throughout having period chrome plated fittings.

The saloon and forward cabins both have new carpeting and furnishings.

Forward Cabin: with a single berth to port and two single berths to starboard.

There are spacious drawers and lockers under the berths together with a hanging

Locker. The chain locker and stowage racks are forward.

Saloon: with settee berths. Portside settee converts to full-size double with couchette overhead. The Starboard settee converts to very comfortable single berth with couchette above. Numerous cupboards and wardrobe, TV wall bracket, aTaylor’s 4.5Kw diesel fire in the main saloon serves radiators in the forward cabin and the wheelhouse. There are four electric tube heaters under the berths as well as an integral Webasto hot air heater system

Galley: to starboard in main saloon with New World Cadet gas cooker with two top burners, grill and good sized oven. Electric extractor fan. Electric refrigerator, brackets in place for Microwave cooker, sink with hot and cold water supply, washing machine and dishwasher are to be found in aft Cockpit with all required plumbing.

Heads Compartment: situated at the forward end of saloon on portside having a Rinnai gas water heater with ultra safe flame failure device, vented through deck, and complying with British Waterways safety regulations which serves heads, basin and shower plus galley. Shower tray with auto extraction pump plus manual override switch. (New shower extraction pump, new pressurised water pump with accumulator tank, fitted 2011 with new shower and mixer, and new tray.) Fitted sea toilet, with large storage cupboard over and useful fold down top over the wc.

Wheelhouse: with access from the aft cockpit and passage down through into the saloon. Wooden Venetian blinds fitted to side windows for privacy. Centreline steering with full engine instrumentation and navigational equipment. The portside chart table is collapsible with two benches, one side, a settee / berth extends along the starboard side.

Cockpit: situated aft with lockers to port and starboard, access to aft peak and overboard cockpit drains. New canvas canopy fitted 2011 with removable side and rear panels.

On deck the vessel is fitted with a stainless steel pulpit and stanchions with lifelines fitted around the raised foredeck. There is a handrail fitted to the wheelhouse top for use on side decks.

Third generation (2008–present)

 

The Dodge Challenger Concept was unveiled at the 2006 Detroit Motor Show and was a preview for the 3rd generation Dodge Challenger that started its production in 2007. Many design cues of the Dodge Challenger Concept were adapted from the 1970 Dodge Challenger R/T.

 

Initial release

 

On December 3, 2007, Chrysler started taking deposits for the third-generation Dodge Challenger which debuted on February 6, 2008, simultaneously at the Chicago Auto Show and Philadelphia International Auto Show. Listing at US$40,095, the new version was a 2-door coupe which shared common design elements with the first generation Challenger, despite being significantly longer and taller. As with Chevrolet's new Camaro, the Challenger concept car's pillarless hardtop body was replaced with a fixed "B" pillar, hidden behind the side glass to give an illusion of the hardtop. The LC chassis is a modified (shortened wheelbase) version of the LX platform that underpins the Dodge Charger (LX), Dodge Magnum, and the Chrysler 300. The LX was developed in America from the previous Chrysler LH platform, which had been designed to allow it to be easily upgraded to rear and all-wheel drive. Many Mercedes components were incorporated, or used for inspiration, including the Mercedes-Benz W220 S-class control arm front suspension, the Mercedes-Benz W211 E-Class 5-link rear suspension, the W5A580 5-speed automatic, the rear differential, and the ESP system. All (7119) 2008 models were SRT8s and equipped with the 6.1 L (370 cu in) Hemi and a 5-speed AutoStick automatic transmission. The entire 2008 U.S. run of 6,400 cars were pre-sold (many of which for above MSRP), and production commenced on May 8, 2008;

 

The base model Challenger SE was initially powered by a 3.5 L (214 cu in) SOHC V6 producing 250 brake horsepower (190 kW) (SAE) and 250 lbf·ft (340 N·m) torque which was coupled to a 4-speed automatic transmission for the first half of 2009, and was then changed to have a standard 5-speed automatic transmission. Several different exterior colors, with either cloth or leather interiors became available. Standard features included air conditioning, power windows, locks, and mirrors; cruise control, and 17-inch (430 mm) aluminum wheels. Leather upholstery, heated front seats, sunroof, 18-inch aluminum wheels, and a premium audio system are available as options, as are ABS, and stability and traction control. The Canadian market also sports the SXT trim, similar to the SE, but more generous in terms of standard features. Some of these features being ESP, an alarm system, and 18-inch (460 mm) wheels. Starting with the 2012 model year, the SE was replaced in the U.S. with the SXT model.

 

Previous to the 2012 model year, the SXT version of the Challenger was only sold in Canada and is a more well-equipped variation of the SE. It adds fog lamps, a rear spoiler, larger wheels, illuminated vanity mirrors, security alarm and a leather-wrapped shifter. In addition, the SXT has increased option packages available to it that aren't available on the SE, and are also available to the R/T. (Such as the high-end navigation-enabled entertainment system.)

 

2015 model year

 

Changes include:

 

5-speed automatic transmission replaced by a new 8-speed ZF 8HP automatic transmission,

Power output on the 6.4 liter V8 increased by 15 for a total of 485 horsepower and torque increased by 5 for a total of 475 Ib Ft.

 

A slightly revamped exterior features a new grille with design cues from the 1971 grill/split tail lights, Quad LED 'Halo Ring" Head lights, LED Tail lights, and a functional hood intake on HEMI models.

 

Inside, the Challenger gets a 7-inch (780mm) TFT Thin Film Transistor display with over one hundred possible configurations, 8.4-inch Uconnect touchscreen radio with available navigation, and a retro styled gauge cluster.

 

2015 HellCat

 

It is a version of the 2015 Dodge Challenger with a supercharged 6.2-liter HEMI engine rated at 707 hp (527 kW) and 650 lb·ft (881 N·m) of torque. This engine is also available in the Dodge Charger SRT Hellcat. Chrysler claims that this makes the Challenger SRT Hellcat "the most powerful muscle car ever," with a top speed of 199 mph (320 km/h). The inner driving light on the left front has been removed to allow air to get into the engine resulting in more torque, and the wheel wells are different from the standard SRT to accommodate the 20-inch aluminum wheels. The SRT Hellcat will come equipped with two separate key fobs; use of the "black" fob will limit engine output to 500 horsepower, while the "red" fob will enable the full output capability. The Hellcat has a quarter mile time of 10.85 seconds; this was accomplished with street legal drag tires. On stock tires the Hellcat was able to achieve 11.2 seconds @ 125 mph on the quarter mile.

 

Drag performance

 

0-400 m (0.25 mi): 11.2 seconds @ 125 mph (201 km/h), 11.34 seconds @ 125.57 mph (202.09 km/h)

0-100 km/h (62 mph): 3.8 seconds

0-200 km/h (120 mph): 10.7 seconds

0-300 km/h (190 mph): 38.0 seconds

 

[Text from Wikipedia]

 

This Lego miniland scale Dodge Challenger SRT Hellcat (2015) has been created for Flickr LUGNuts' 96th Build Challenge - The 8th Birthday, titled - 'Happy Crazy Eight Birthday, LUGNuts' - where all previous build challenges are available to build to. This model is built to the LUGNuts 91st build challenge, - &quotAnger Management" featuring vehicles themed to being angry.

USS Olympia (C-6/CA-15/CL-15/IX-40) is a protected cruiser that saw service in the United States Navy from her commissioning in 1895 until 1922. This vessel became famous as the flagship of Commodore George Dewey at the Battle of Manila Bay during the Spanish-American War in 1898. The ship was decommissioned after returning to the U.S. in 1899, but was returned to active service in 1902.

 

She served until World War I as a training ship for naval cadets and as a floating barracks in Charleston, South Carolina. In 1917, she was mobilized again for war service, patrolling the American coast and escorting transport ships.

 

Following the end of World War I, Olympia participated in the 1919 Allied intervention in the Russian Civil War, and conducted cruises in the Mediterranean and Adriatic Seas to promote peace in the unstable Balkan countries. In 1921, the ship carried the remains of World War I's Unknown Soldier from France to Washington, DC, where his body was interred in Arlington National Cemetery. Olympia was decommissioned for the last time in December 1922 and placed in reserve.

 

In 1957, the U.S. Navy ceded title to the Cruiser Olympia Association, which restored the ship to her 1898 configuration. Since then, Olympia has been a museum ship in Philadelphia, Pennsylvania, and is now part of the Independence Seaport Museum. Olympia is the oldest steel US warship still afloat. However, the Museum has been unable to fund essential maintenance for the old ship, and attempts to secure outside funding have failed. Therefore the current steward, under direction of the US Navy has put the ship up for availability to new stewards. It will take an estimated ten million dollars to put Olympia in a stable condition.

 

Olympia was designated a National Historic Landmark in 1966.

 

As of 2012, Olympia's future was uncertain; repairs are desperately needed to keep the ship afloat. Four entities from San Francisco, California, Beaufort, South Carolina, Philadelphia, Pennsylvania, and Washington, DC, are vying to be a new steward, but it is a race against time due to the waterline deterioration of the hull. As the current entities are in competition for the ship, no significant repairs have been made, although the current steward has done some minor repairs. In reaction to this gap in coverage, the National Trust for Historic Preservation (NTHP) has set up a fund repository which, if funds are raised, will be directly applied to immediate repairs of the vessel with the cooperation of the current steward. At the present time, March 2012, the NTHP is considering a triple application by the Naval Historical Foundation, the Historic Naval Ships Association, and the National Maritime Association to have Olympia placed on the NTHP's list of the eleven most endangered "places". The steward applicants from San Francisco (Mare Island), and Beaufort, S.C., have endorsed the application. Despite these positive steps, Olympia is in critical danger due to the lack of funds.

 

Since 2011, Independence Seaport Museum has renewed its commitment to the continued preservation of the Cruiser Olympia until the Transfer Application Process reaches its conclusion in summer 2014. The Museum has invested in extensive stabilization measures including reinforcing the most deteriorated areas of the hull, expanding the alarm system, installing a network of bilge pumping stand pipes (which will provide greater damage control capability in the unlikely event of a hull breech), extensive deck patching and extensive repair and recoating of the ship’s rigging. Although still in need of dry docking and substantial restoration, the Olympia is in a more stable condition now than it has been for years. This work was made possible by donations from the National Trust for Historic Preservation, The U.S. Cruiser Sailors Association and many individual donors.

 

Of the six candidates that originally applied for stewardship of the cruiser Olympia, only two remain: an organization in California and an organization in South Carolina. The Museum continues to seek resources to preserve the ship for education and interpretation. The ship will remain open to the public seven days a week from 10:00 am to 5:00 pm, and until 7:00 pm on Thursdays, Fridays and Saturdays from Memorial Day weekend through Labor Day weekend.

 

www.phillyseaport.org/olympia

en.wikipedia.org/wiki/USS_Olympia_%28C-6%29

USS Olympia (C-6/CA-15/CL-15/IX-40) is a protected cruiser that saw service in the United States Navy from her commissioning in 1895 until 1922. This vessel became famous as the flagship of Commodore George Dewey at the Battle of Manila Bay during the Spanish-American War in 1898. The ship was decommissioned after returning to the U.S. in 1899, but was returned to active service in 1902.

 

She served until World War I as a training ship for naval cadets and as a floating barracks in Charleston, South Carolina. In 1917, she was mobilized again for war service, patrolling the American coast and escorting transport ships.

 

Following the end of World War I, Olympia participated in the 1919 Allied intervention in the Russian Civil War, and conducted cruises in the Mediterranean and Adriatic Seas to promote peace in the unstable Balkan countries. In 1921, the ship carried the remains of World War I's Unknown Soldier from France to Washington, DC, where his body was interred in Arlington National Cemetery. Olympia was decommissioned for the last time in December 1922 and placed in reserve.

 

In 1957, the U.S. Navy ceded title to the Cruiser Olympia Association, which restored the ship to her 1898 configuration. Since then, Olympia has been a museum ship in Philadelphia, Pennsylvania, and is now part of the Independence Seaport Museum. Olympia is the oldest steel US warship still afloat. However, the Museum has been unable to fund essential maintenance for the old ship, and attempts to secure outside funding have failed. Therefore the current steward, under direction of the US Navy has put the ship up for availability to new stewards. It will take an estimated ten million dollars to put Olympia in a stable condition.

 

Olympia was designated a National Historic Landmark in 1966.

 

As of 2012, Olympia's future was uncertain; repairs are desperately needed to keep the ship afloat. Four entities from San Francisco, California, Beaufort, South Carolina, Philadelphia, Pennsylvania, and Washington, DC, are vying to be a new steward, but it is a race against time due to the waterline deterioration of the hull. As the current entities are in competition for the ship, no significant repairs have been made, although the current steward has done some minor repairs. In reaction to this gap in coverage, the National Trust for Historic Preservation (NTHP) has set up a fund repository which, if funds are raised, will be directly applied to immediate repairs of the vessel with the cooperation of the current steward. At the present time, March 2012, the NTHP is considering a triple application by the Naval Historical Foundation, the Historic Naval Ships Association, and the National Maritime Association to have Olympia placed on the NTHP's list of the eleven most endangered "places". The steward applicants from San Francisco (Mare Island), and Beaufort, S.C., have endorsed the application. Despite these positive steps, Olympia is in critical danger due to the lack of funds.

 

Since 2011, Independence Seaport Museum has renewed its commitment to the continued preservation of the Cruiser Olympia until the Transfer Application Process reaches its conclusion in summer 2014. The Museum has invested in extensive stabilization measures including reinforcing the most deteriorated areas of the hull, expanding the alarm system, installing a network of bilge pumping stand pipes (which will provide greater damage control capability in the unlikely event of a hull breech), extensive deck patching and extensive repair and recoating of the ship’s rigging. Although still in need of dry docking and substantial restoration, the Olympia is in a more stable condition now than it has been for years. This work was made possible by donations from the National Trust for Historic Preservation, The U.S. Cruiser Sailors Association and many individual donors.

 

Of the six candidates that originally applied for stewardship of the cruiser Olympia, only two remain: an organization in California and an organization in South Carolina. The Museum continues to seek resources to preserve the ship for education and interpretation. The ship will remain open to the public seven days a week from 10:00 am to 5:00 pm, and until 7:00 pm on Thursdays, Fridays and Saturdays from Memorial Day weekend through Labor Day weekend.

 

www.phillyseaport.org/olympia

en.wikipedia.org/wiki/USS_Olympia_%28C-6%29

Third generation (2008–present)

 

The Dodge Challenger Concept was unveiled at the 2006 Detroit Motor Show and was a preview for the 3rd generation Dodge Challenger that started its production in 2007. Many design cues of the Dodge Challenger Concept were adapted from the 1970 Dodge Challenger R/T.

 

Initial release

 

On December 3, 2007, Chrysler started taking deposits for the third-generation Dodge Challenger which debuted on February 6, 2008, simultaneously at the Chicago Auto Show and Philadelphia International Auto Show. Listing at US$40,095, the new version was a 2-door coupe which shared common design elements with the first generation Challenger, despite being significantly longer and taller. As with Chevrolet's new Camaro, the Challenger concept car's pillarless hardtop body was replaced with a fixed "B" pillar, hidden behind the side glass to give an illusion of the hardtop. The LC chassis is a modified (shortened wheelbase) version of the LX platform that underpins the Dodge Charger (LX), Dodge Magnum, and the Chrysler 300. The LX was developed in America from the previous Chrysler LH platform, which had been designed to allow it to be easily upgraded to rear and all-wheel drive. Many Mercedes components were incorporated, or used for inspiration, including the Mercedes-Benz W220 S-class control arm front suspension, the Mercedes-Benz W211 E-Class 5-link rear suspension, the W5A580 5-speed automatic, the rear differential, and the ESP system. All (7119) 2008 models were SRT8s and equipped with the 6.1 L (370 cu in) Hemi and a 5-speed AutoStick automatic transmission. The entire 2008 U.S. run of 6,400 cars were pre-sold (many of which for above MSRP), and production commenced on May 8, 2008;

 

The base model Challenger SE was initially powered by a 3.5 L (214 cu in) SOHC V6 producing 250 brake horsepower (190 kW) (SAE) and 250 lbf·ft (340 N·m) torque which was coupled to a 4-speed automatic transmission for the first half of 2009, and was then changed to have a standard 5-speed automatic transmission. Several different exterior colors, with either cloth or leather interiors became available. Standard features included air conditioning, power windows, locks, and mirrors; cruise control, and 17-inch (430 mm) aluminum wheels. Leather upholstery, heated front seats, sunroof, 18-inch aluminum wheels, and a premium audio system are available as options, as are ABS, and stability and traction control. The Canadian market also sports the SXT trim, similar to the SE, but more generous in terms of standard features. Some of these features being ESP, an alarm system, and 18-inch (460 mm) wheels. Starting with the 2012 model year, the SE was replaced in the U.S. with the SXT model.

 

2015 model year

 

Changes include:

 

5-speed automatic transmission replaced by a new 8-speed ZF 8HP automatic transmission,

Power output on the 6.4 liter V8 increased by 15 for a total of 485 horsepower and torque increased by 5 for a total of 475 Ib Ft.

 

A slightly revamped exterior features a new grille with design cues from the 1971 grill/split tail lights, Quad LED 'Halo Ring" Head lights, LED Tail lights, and a functional hood intake on HEMI models.

 

Inside, the Challenger gets a 7-inch (780mm) TFT Thin Film Transistor display with over one hundred possible configurations, 8.4-inch Uconnect touchscreen radio with available navigation, and a retro styled gauge cluster.

 

[Text from Wikipedia]

LEGAL NOTICE | protected work • All Rights reserved! © B. Egger photographer retains ownership and all copyrights in this work.

 

photographer | Bernard Egger.. • collections • sets

location | Schloss Pichlarn, Irdning 💚 Styria, Austria

 

© Dieses Foto darf ohne vorherige Lizenzvereinbarung keinesfalls publiziert oder an nicht berechtigte Nutzer weiter gegeben werden.

 

Todos los Derechos Reservados • Tous droits réservés • Todos os Direitos Reservados • Все права защищены • Tutti i diritti riservati

 

licence | for any user agreement please contact Bernard Egger.

 

Auf herrlich gewundenen Küsten- oder Passstraßen die Lust und das lockere Spiel zwischen Schwerkraft und Fliehkraft zu erleben. Zu erleben wie von Kilometer zu Kilometer die positiven Gefühle intensiver werden - links, rechts, links - Landschaften und Gedanken dahin gleiten... bald schon jene Augenblicke kommen, wo die Enge der Zivilisation der überwältigenden Szenerie der Natur Platz macht und beruhigende Geräusche des Motors und Formen verschmelzen...

 

- - -

Woodcliff Lake, New Jersey, August 2002 ...

 

Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.

 

Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.

 

Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.

 

Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.

 

The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.

 

The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).

 

The R 1200 CL Engine: Gearing For The Long Haul

 

BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.

 

While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.

 

In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.

 

The CL Chassis: Wheeled Luggage Never Worked This Well

 

Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.

 

Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.

 

The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.

 

All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.

 

The CL Bodywork: Dressed To The Nines

 

Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).

 

The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.

 

Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.

 

Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.

 

Options & Accessories: More Personal Than A Monogram

 

Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.

 

Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.

 

BMW R 1200 CL motorcycle trip Styria Austria (c) 2008 Bernard Egger :: rumoto images 2668

Garden at Caloola, Sunbury. Caloola buildings are set in extensive grounds with plantings of mature trees and remnant farmland. Caloola commenced in 1864 as an Industrial School, was redeveloped in 1879 as a Lunatic Asylum, substantially enlarged in the period 1891 to 1914 and was maintained in use as a psychiatric hospital (1879-1968) and later a training centre for the intellectually disabled (1962-1992). Part of the site became a Victoria University campus from 1994 to 2011 and the remainder is in use by the Department of Education.

  

The Industrial School consisted of ten basalt buildings (nine extant), designed under the direction of Public Works Department Inspector General William Wardell and constructed in 1865-66, four workrooms, kitchen, hospital, basalt farm building, road and stone wall remnants which were used to house and train neglected children in the 1860s. Boys in the Sunbury Industrial School worked on the farm and in the tailoring and shoe-making workshops to maintain themselves whilst in the institution and were given some basic education. Major alterations were undertaken to the earlier basalt wards in the period 1908-12 when the buildings were linked.

  

The Industrial School at Sunbury is believed to be the earliest surviving example in Victoria; of the original twelve industrial schools: only one other, constructed in 1875-76, survives at North West Hospital, Parkville.

  

The purpose built Sunbury Lunatic Asylum, constructed mainly between 1892 and 1912, was designed and constructed mainly under the direction of the Chief Architect of the Victorian Public Works Department, George Watson. A site plan was prepared by the talented architect Henry Bastow in 1888. Its pavilion wards in brick with terra cotta roofing tiles conformed to international standards of asylum and hospital planning adopted in the later nineteenth century and were a departure from the single monolithic buildings constructed at Kew and Beechworth. Electric lighting was installed in the wards in 1905-6. A tramway was laid linking the rear of the wards with the kitchen (built 1906-7) in 1908. Telephone and fire alarm systems were installed to connect the 20 separate buildings of the asylum in 1911.

  

The landscape designed by prominent landscape designer Hugh Linaker dates principally from the inter-war period The landscape also includes mature trees , mainly pines, cypress, oaks and elms and the remains of a drystone perimeter wall and a later brick ha ha wall.

  

How is it significant?

  

Caloola is of historical, architectural, aesthetic, archaeological and social significance to the State of Victoria.

  

Why is it significant?

  

The Caloola complex is of historical significance for its demonstration of attitudes to child welfare and mental health in its early industrial school buildings and asylum buildings, airing courts and gardens. .

  

Caloola is historically significant for the former Industrial School buildings constructed mainly from 1865-66. The school operated from 1865 to 1879 as the first purpose-built Industrial School in Victoria. The buildings at Sunbury are demonstrative of the harsh conditions which characterised such schools for neglected or delinquent children. The former Industrial School hospital (1865) is amongst the earliest hospital buildings surviving in the state.

  

Caloola is of historical significance for its typical asylum landscaping and site planning, its airing courts (many of which retain early sunshades and privies) and a complete example of a sunken wall (or ha ha wall). Asylums were typically distant from population centres, with extensive grounds and ha ha walls to prevent escape.

  

Caloola is historically significant for its purpose built Sunbury Lunatic Asylum, constructed between 1892 and 1912. Caloola's large and architecturally impressive buildings in a curved detached pavilion arrangement demonstrate changes in the accommodation and treatment of mentally ill patients in the nineteenth century. The clear evidence of farming operations also demonstrates the policy of employing boys in industrial schools to train them in farm work and the later policy of involving physically able mentally ill patients in outdoor work.

  

Caloola is of historical significance for its physical fabric and spaces which demonstrate nineteenth century attitudes to the treatment of mental illness, including the padded cells, ripple iron cells and dormitory accommodation. The female refractory ward, originally designed for male criminally insane patients, demonstrates contemporary practices in dealing with female patients who were transferred from the general wards for disruptive behaviour.

  

The Caloola complex is of historical significance for their association with the talented Public Works Department architects from the 1860s, and particularly associated with Henry Bastow and Chief Architect George Watson, who were responsible for the design of the pavilion buildings from the 1890s to 1912. Its association with noted landscape designer, Hugh Linaker, who was responsible for the grounds from 1912, is also significant.

  

The Caloola site is of archaeological significance for its potential to contain historical archaeological features, deposits and relics that relate to the construction and use of the Industrial School and the Lunatic Asylum.

  

Caloola is of architectural significance for its institutional buildings of the 1860s and the 1890s. Its industrial school buildings of the 1860s are typical of the Public Works Department output of the 1860s, use local material, have simple classically derived detailing and gain much of their importance by the repetition of forms. Major alterations were undertaken to the earlier basalt wards in the period 1908-12 when the buildings were linked. The planning of these links is accomplished and contributed to the continuity of use of the site and represented changing attitudes to mental health.

  

The site at Sunbury is architecturally significant for its rare and intact examples of an industrial school and a late nineteenth century lunatic asylum. The site contains rare examples of hairpin fencing used to enclose airing courts for patients. Outdoor shelters or sunshades for patients are also uncommon in Victoria.

  

The Caloola complex is of architectural significance for its industrial school and asylum buildings. The earliest of the remaining buildings of the Sunbury Industrial School are architecturally significant as forming the earliest purpose built example of its type,. They are important for their bluestone construction and austere style which distinguished them from the later asylum buildings. The 1860s buildings which exhibit classically derived detailing are constructed of local basalt. The red brick and timber buildings of the principal phase of asylum expansion of 1891 to 1912 are of architectural significance for innovative design as a pavilion hospital grouping and include distinctive detailing.

  

Caloola is architecturally significant as a former lunatic asylum, one of several surviving in the state. It demonstrates typical characteristics such as formal planning, use of sunken walls (ha ha walls), airing courts and a diverse range of building types to cater for the patient and staff population. They gain their architectural significance from the unity of materials, overall cohesiveness of design, consistent and distinctive detailing (especially in the unusual use of buttresses and steep roofs in the former hospital wards), impressive site planning and spacious setting.

  

The Caloola complex is of aesthetic significance for the quality and range of its architecture and garden elements, consistent use of basalt, red brick and terra cotta tiles, its consistency of architectural styles and materials within the two major building phases, for its landscape planning and plantings and for its prominent siting on the hill with views to and from the site...(VHR)

Rover 220 Turbo Coupe (1992-96) Engine 1994cc S4 16v Turbo

Registration Number N 265 FDH

ROVER SET

 

www.flickr.com/photos/45676495@N05/sets/72157623690660271...

 

The Rover 200 Coupé was a two-door coupé, based on the Rover 200 Mark II, with most of the body panels and the bumpers unique in the range. Launched at the 1992 Paris Motorshow, under its project name of Tomcat.

The Rover 200 Coupé was equipped with a specially shaped split glass roof system with a central T-Bar. The twin panels could be tilted or detached independently, and the bar itself could also be removed and stored in the boot in a special protective cover. The glass was an advanced, semi-reflective material, coated with titanium. The lines of the 200 Coupé resulted from a completely new monoside and front and rear roof panels, new front and rear bumpers and a deep front spoiler extension with large intake grille.The interior was finished in burr walnut veneer and quality fabrics, in the Rover traditions of elegance and refinement. Optional leather trim was also available.

A specially developed version of the established 'Torsen' torque-sensing traction control system - previously only applied to four-wheel-drive and some rear-wheel-drive vehicles was developed to optimise handling Standard on the 220 Turbo and optional on the normally aspirated 220 model.

At launch there were three models, the 216 Coupe powered by a 1.6 litre Honda D series engine of 109bhp, the 220 Coupe and 220 Turbo Coupe both with Rover 2.0 T-Series engines;the naturally aspirated car producing 134bhp and the Turbo 197bhp.

In 1994 changes were introduced to the 200 Coupé range, most obviously with a chrome grille being added to bring in line with the rest of the 200 series. Cost saving changes were also seen, such as a reduction in the amount of leather used, ignition barrel light removed and dash light dimming deleted. The alarm system received several changes to keep up with current security requirements.

In 1996 the range was revised Two, all new, models were introduced to replace the previous models. The Coupé 1.6 was now fiited with Rover Group's own K-Series 16 valve double overhead camshaft power unit instead of the previous Honda unit. The 2.0 and Turbo models were replaced by the 1.8 VVC Coupe. The interiors were revamped

 

Shot 13:04:2013 at The Pride of Longbridge Rally, Cofton Park, Birmingham REF 90b-531

 

TEIGN C Damen Stan 1405

 

IMO: - N/A

MMSI: 235082804

Call Sign: MWBM9

AIS Vessel Type: Dredger

 

GENERAL

DAMEN YARD NUMBER: 503705

Avelingen-West 20

4202 MS Gorinchem

The Netherlands

Phone: +31 (0)183 63 99 11

info@damen.com

DELIVERY DATE August 2001

BASIC FUNCTIONS Towing, mooring, pushing and dredging operations

FLAG United Kingdom [GB]

OWNED Teignmouth Harbour Commission

 

CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch

 

DIMENSIONS

LENGTH 14.40 m

BEAM 4.73 m

DEPTH AT SIDES 205 m

DRAUGHT AFT 171 m

DISPLACEMENT 48 ton

  

TANK CAPACITIES

Fuel oil 6.9 m³

 

PERFORMANCES (TRIALS)

BOLLARD PULL AHEAD 8.0 ton

SPEED 9.8 knots

 

PROPULSION SYSTEM

MAIN ENGINE 2x Caterpillar 3406C TA/A

TOTAL POWER 477 bmW (640i hp) at 1800 rpm

GEARBOX 2x Twin Disc MG 5091/3.82:1

PROPELLERS Bronze fixed pitch propeller

KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings

ENGINE CONTROL Kobelt

STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator

 

AUXILIARY EQUIPMENT

BILGE PUMP Sterling SIH 20, 32 m/hr

BATTERY SETS 2x 24V, 200 Ah + change over facility

COOLING SYSTEM Closed cooling system

ALARM SYSTEM Engines, gearboxes and bilge alarms

FRESH WATER PRESSURE SET Speck 24V

 

DECK LAY-OUT

ANCHORS 2x 48 kg Pool (HHP)

CHAIN 70 m, Ø 13mm, shortlink U2

ANCHOR WINCH Hand-operated

TOWING HOOK Mampaey, 15.3 ton SWL

COUPLING WINCH

PUSHBOW Cylindrical nubber fender Ø 380 mm

 

ACCOMMODATION

The wheelhouse ceiling and sides are insulated with mineral wool and

panelled. The wheelhouse floor is covered with rubber/synthetic floor

covering, make Bolidt, color blue The wheelhouse has one

helmsman seat, a bench and table with chair Below deck two berths, a

kitchen unit and a toilet space are arranged.

 

NAUTICAL AND COMMUNICATION EQUIPMENT

SEARCHLIGHT Den Haan 170 W 24 V

VHF RADIO Sailor RT 2048 25 W

NAVIGATION Navigation lights incl towing and pilot lights

 

Teignmouth Harbour Commission

The Harbour Commission is a Trust Port created by Statute.

The principal Order is the Teignmouth Harbour Order 1924

as amended by the Teignmouth Harbour Revision Order 2003

Garden at Caloola, Sunbury. Caloola buildings are set in extensive grounds with plantings of mature trees and remnant farmland. Caloola commenced in 1864 as an Industrial School, was redeveloped in 1879 as a Lunatic Asylum, substantially enlarged in the period 1891 to 1914 and was maintained in use as a psychiatric hospital (1879-1968) and later a training centre for the intellectually disabled (1962-1992). Part of the site became a Victoria University campus from 1994 to 2011 and the remainder is in use by the Department of Education.

  

The Industrial School consisted of ten basalt buildings (nine extant), designed under the direction of Public Works Department Inspector General William Wardell and constructed in 1865-66, four workrooms, kitchen, hospital, basalt farm building, road and stone wall remnants which were used to house and train neglected children in the 1860s. Boys in the Sunbury Industrial School worked on the farm and in the tailoring and shoe-making workshops to maintain themselves whilst in the institution and were given some basic education. Major alterations were undertaken to the earlier basalt wards in the period 1908-12 when the buildings were linked.

  

The Industrial School at Sunbury is believed to be the earliest surviving example in Victoria; of the original twelve industrial schools: only one other, constructed in 1875-76, survives at North West Hospital, Parkville.

  

The purpose built Sunbury Lunatic Asylum, constructed mainly between 1892 and 1912, was designed and constructed mainly under the direction of the Chief Architect of the Victorian Public Works Department, George Watson. A site plan was prepared by the talented architect Henry Bastow in 1888. Its pavilion wards in brick with terra cotta roofing tiles conformed to international standards of asylum and hospital planning adopted in the later nineteenth century and were a departure from the single monolithic buildings constructed at Kew and Beechworth. Electric lighting was installed in the wards in 1905-6. A tramway was laid linking the rear of the wards with the kitchen (built 1906-7) in 1908. Telephone and fire alarm systems were installed to connect the 20 separate buildings of the asylum in 1911.

  

The landscape designed by prominent landscape designer Hugh Linaker dates principally from the inter-war period The landscape also includes mature trees , mainly pines, cypress, oaks and elms and the remains of a drystone perimeter wall and a later brick ha ha wall.

  

How is it significant?

  

Caloola is of historical, architectural, aesthetic, archaeological and social significance to the State of Victoria.

  

Why is it significant?

  

The Caloola complex is of historical significance for its demonstration of attitudes to child welfare and mental health in its early industrial school buildings and asylum buildings, airing courts and gardens. .

  

Caloola is historically significant for the former Industrial School buildings constructed mainly from 1865-66. The school operated from 1865 to 1879 as the first purpose-built Industrial School in Victoria. The buildings at Sunbury are demonstrative of the harsh conditions which characterised such schools for neglected or delinquent children. The former Industrial School hospital (1865) is amongst the earliest hospital buildings surviving in the state.

  

Caloola is of historical significance for its typical asylum landscaping and site planning, its airing courts (many of which retain early sunshades and privies) and a complete example of a sunken wall (or ha ha wall). Asylums were typically distant from population centres, with extensive grounds and ha ha walls to prevent escape.

  

Caloola is historically significant for its purpose built Sunbury Lunatic Asylum, constructed between 1892 and 1912. Caloola's large and architecturally impressive buildings in a curved detached pavilion arrangement demonstrate changes in the accommodation and treatment of mentally ill patients in the nineteenth century. The clear evidence of farming operations also demonstrates the policy of employing boys in industrial schools to train them in farm work and the later policy of involving physically able mentally ill patients in outdoor work.

  

Caloola is of historical significance for its physical fabric and spaces which demonstrate nineteenth century attitudes to the treatment of mental illness, including the padded cells, ripple iron cells and dormitory accommodation. The female refractory ward, originally designed for male criminally insane patients, demonstrates contemporary practices in dealing with female patients who were transferred from the general wards for disruptive behaviour.

  

The Caloola complex is of historical significance for their association with the talented Public Works Department architects from the 1860s, and particularly associated with Henry Bastow and Chief Architect George Watson, who were responsible for the design of the pavilion buildings from the 1890s to 1912. Its association with noted landscape designer, Hugh Linaker, who was responsible for the grounds from 1912, is also significant.

  

The Caloola site is of archaeological significance for its potential to contain historical archaeological features, deposits and relics that relate to the construction and use of the Industrial School and the Lunatic Asylum.

  

Caloola is of architectural significance for its institutional buildings of the 1860s and the 1890s. Its industrial school buildings of the 1860s are typical of the Public Works Department output of the 1860s, use local material, have simple classically derived detailing and gain much of their importance by the repetition of forms. Major alterations were undertaken to the earlier basalt wards in the period 1908-12 when the buildings were linked. The planning of these links is accomplished and contributed to the continuity of use of the site and represented changing attitudes to mental health.

  

The site at Sunbury is architecturally significant for its rare and intact examples of an industrial school and a late nineteenth century lunatic asylum. The site contains rare examples of hairpin fencing used to enclose airing courts for patients. Outdoor shelters or sunshades for patients are also uncommon in Victoria.

  

The Caloola complex is of architectural significance for its industrial school and asylum buildings. The earliest of the remaining buildings of the Sunbury Industrial School are architecturally significant as forming the earliest purpose built example of its type,. They are important for their bluestone construction and austere style which distinguished them from the later asylum buildings. The 1860s buildings which exhibit classically derived detailing are constructed of local basalt. The red brick and timber buildings of the principal phase of asylum expansion of 1891 to 1912 are of architectural significance for innovative design as a pavilion hospital grouping and include distinctive detailing.

  

Caloola is architecturally significant as a former lunatic asylum, one of several surviving in the state. It demonstrates typical characteristics such as formal planning, use of sunken walls (ha ha walls), airing courts and a diverse range of building types to cater for the patient and staff population. They gain their architectural significance from the unity of materials, overall cohesiveness of design, consistent and distinctive detailing (especially in the unusual use of buttresses and steep roofs in the former hospital wards), impressive site planning and spacious setting.

  

The Caloola complex is of aesthetic significance for the quality and range of its architecture and garden elements, consistent use of basalt, red brick and terra cotta tiles, its consistency of architectural styles and materials within the two major building phases, for its landscape planning and plantings and for its prominent siting on the hill with views to and from the site...(VHR)

Visited this huge location and was surprised how much is still to see there in relative good state. Unfortunately the copper kettles are not accessible anymore and are secured by motion alarm system.

 

Please visit www.preciousdecay.com for more pictures or like my facebook fanpage on www.facebook.com/Preciousdecay

©AVucha 2014

A 30-year-old Cary man was safely escorted from a neighborhood residence and to a hospital after he barricaded himself from a large police contingent for roughly four hours Wednesday.

Cary Police Deputy Chief James Fillmore said the man, who was threatening to harm himself and "under a lot of emotional stress," was taken to Centegra Hospital-McHenry at 3:12 p.m. after first responders arrived on the scene at Hillhurst Drive at 11 a.m. The man was unarmed and no one was hurt during the situation, Fillmore said.

The man had climbed into the garage attic and refused to come down for family members, police said.

Fillmore said no charges would be filed in the incident. Fillmore said police have responded to domestic disturbances at the home on the 300 block of Hillhurst Drive several times in the past.

The four-hour operation required a heavy police presence that included officers from Cary, Streamwood, Round Lake, Roselle, Fox River Grove and other municipalities. On scene, marked and unmarked vehicles lined the surrounding streets, and armed, vested officers, including K9 units, were seen walking toward the residence.

A large Northern Illinois Police Alarm System vehicle also was on scene. Cary Police blocked off a square area from Decker Drive to Hillhurst Drive bordered by Bryan and Bell drives. School bus routes were also redirected because of the situation.

The incident comes within a week of a Holiday Hills man shooting and wounding two McHenry County Sheriff’s officers. That incident led to an even larger police response as a 16-hour manhunt ensued before Scott B. Peters was arrested and charged with shooting the officers.

 

*Article obtained from the Northwest Herald

Rover 216 SE Coupe (1996-98) Engine 1589cc S4 Rover K series

Registration Number L 691 DOP (Birmingham)

ROVER SET

 

www.flickr.com/photos/45676495@N05/sets/72157623690660271...

 

The Rover 200 Coupé was a two-door coupé, based on the Rover 200 Mark II, with most of the body panels and the bumpers unique in the range. Launched at the 1992 Paris Motorshow, under its project name of Tomcat.

The Rover 200 Coupé was equipped with a specially shaped split glass roof system with a central T-Bar. The twin panels could be tilted or detached independently, and the bar itself could also be removed and stored in the boot in a special protective cover. The glass was an advanced, semi-reflective material, coated with titanium. The lines of the 200 Coupé resulted from a completely new monoside and front and rear roof panels, new front and rear bumpers and a deep front spoiler extension with large intake grille.The interior was finished in burr walnut veneer and quality fabrics, in the Rover traditions of elegance and refinement. Optional leather trim was also available.

A specially developed version of the established 'Torsen' torque-sensing traction control system - previously only applied to four-wheel-drive and some rear-wheel-drive vehicles was developed to optimise handling Standard on the 220 Turbo and optional on the normally aspirated 220 model.

At launch there were three models, the 216 Coupe powered by a 1.6 litre Honda D series engine of 109bhp, the 220 Coupe and 220 Turbo Coupe both with Rover 2.0 T-Series engines;the naturally aspirated car producing 134bhp and the Turbo 197bhp.

In 1994 changes were introduced to the 200 Coupé range, most obviously with a chrome grille being added to bring in line with the rest of the 200 series. Cost saving changes were also seen, such as a reduction in the amount of leather used, ignition barrel light removed and dash light dimming deleted. The alarm system received several changes to keep up with current security requirements.

In 1996 the range was revised Two, all new, models were introduced to replace the previous models. The Coupé 1.6 was now fiited with Rover Group's own K-Series 16 valve double overhead camshaft power unit instead of the previous Honda unit. The 2.0 and Turbo models were replaced by the 1.8 VVC Coupe. The interiors were revamped

This is a post facelift 216SE Coupe featurimg a body coloured rear spoiler and front fog lamps over the standard 216 Coupé. The K-Series 1.6 litre engine produced the same 109bhp as the previous Honda unit, Automatic transmission was available for the 216 and 216SE models only. The 1.6 was fitted with steel wheels with plastic trims or could be specified with a cost option 6-spoke 'turbo' alloy wheels. The SE came with an all new 5-spoke alloy wheels.

 

Diolch yn fawr am 67,936,798 o olygfeydd anhygoel, mwynhewch ac arhoswch yn ddiogel

 

Thank you 67,936,798 amazing views, enjoy and stay safe

 

Shot 02.09.2018 at Himley Hall, Wolverhampton Ref 136-242

      

Third generation (2008–present)

 

The Dodge Challenger Concept was unveiled at the 2006 Detroit Motor Show and was a preview for the 3rd generation Dodge Challenger that started its production in 2007. Many design cues of the Dodge Challenger Concept were adapted from the 1970 Dodge Challenger R/T.

 

Initial release

 

On December 3, 2007, Chrysler started taking deposits for the third-generation Dodge Challenger which debuted on February 6, 2008, simultaneously at the Chicago Auto Show and Philadelphia International Auto Show. Listing at US$40,095, the new version was a 2-door coupe which shared common design elements with the first generation Challenger, despite being significantly longer and taller. As with Chevrolet's new Camaro, the Challenger concept car's pillarless hardtop body was replaced with a fixed "B" pillar, hidden behind the side glass to give an illusion of the hardtop. The LC chassis is a modified (shortened wheelbase) version of the LX platform that underpins the Dodge Charger (LX), Dodge Magnum, and the Chrysler 300. The LX was developed in America from the previous Chrysler LH platform, which had been designed to allow it to be easily upgraded to rear and all-wheel drive. Many Mercedes components were incorporated, or used for inspiration, including the Mercedes-Benz W220 S-class control arm front suspension, the Mercedes-Benz W211 E-Class 5-link rear suspension, the W5A580 5-speed automatic, the rear differential, and the ESP system. All (7119) 2008 models were SRT8s and equipped with the 6.1 L (370 cu in) Hemi and a 5-speed AutoStick automatic transmission. The entire 2008 U.S. run of 6,400 cars were pre-sold (many of which for above MSRP), and production commenced on May 8, 2008;

 

The base model Challenger SE was initially powered by a 3.5 L (214 cu in) SOHC V6 producing 250 brake horsepower (190 kW) (SAE) and 250 lbf·ft (340 N·m) torque which was coupled to a 4-speed automatic transmission for the first half of 2009, and was then changed to have a standard 5-speed automatic transmission. Several different exterior colors, with either cloth or leather interiors became available. Standard features included air conditioning, power windows, locks, and mirrors; cruise control, and 17-inch (430 mm) aluminum wheels. Leather upholstery, heated front seats, sunroof, 18-inch aluminum wheels, and a premium audio system are available as options, as are ABS, and stability and traction control. The Canadian market also sports the SXT trim, similar to the SE, but more generous in terms of standard features. Some of these features being ESP, an alarm system, and 18-inch (460 mm) wheels. Starting with the 2012 model year, the SE was replaced in the U.S. with the SXT model.

 

2015 model year

 

Changes include:

 

5-speed automatic transmission replaced by a new 8-speed ZF 8HP automatic transmission,

Power output on the 6.4 liter V8 increased by 15 for a total of 485 horsepower and torque increased by 5 for a total of 475 Ib Ft.

 

A slightly revamped exterior features a new grille with design cues from the 1971 grill/split tail lights, Quad LED 'Halo Ring" Head lights, LED Tail lights, and a functional hood intake on HEMI models.

 

Inside, the Challenger gets a 7-inch (780mm) TFT Thin Film Transistor display with over one hundred possible configurations, 8.4-inch Uconnect touchscreen radio with available navigation, and a retro styled gauge cluster.

 

[Text from Wikipedia]

A gorgeous rainbow under a severe thunderstorm in the valley. Stunning! This was around the outskirts of Firebaugh, CA. I was chasing this amazing thunderstorm that had formed all the way from near Los Banos. This was during my epic storm chase around the vast Central Valley this day, chasing severe thunderstorms that have developed in and around the vicinity… Conditions were perfect for storm development in the valley. Temps were in the mid 60’s and was a bit humid. It’s been a while since I’ve done a storm chase in the Central Valley. Places traveled included areas from Los Banos all the way down to Fresno, CA. Heavy rain, hail (the most intense I’ve seen in person), Midwest-like skies, and plentiful lightning were all observed this day. It was nice to finally be out in California’s version of the Great Plains once again! ‘Til next time, safe travels out there! (Outing taken place Sunday, March 12, 2023)

 

*Weather scenario: Multiple weather advisories were issued this day due to extreme weather. The ground zero for the strongest storms were to be in the counties of Merced and Madera, with the combination of a stronger upper-level jet, upslope lifting, or, orographic lift west of the Sierra Nevada Mountain Range, and acceptable low-level shear. Supercells were expected to form as a result, even some with tops over 25-30kft. Tornado warnings and severe thunderstorms have pounded the Central Valley along with hail and lightning. Emergency alerts were sent out on cellphones and broadcasted on TV early Sunday afternoon as a powerful storm made its way through the Central Valley… A tornado warning was issued for the 2nd time this weekend shortly after 3 o'clock for Merced and Madera County near Los Banos... Residents in Dos Palos got their attention with a tornado warning on their home alarm system. Hail the size of dimes and nickels was what residents across the valley were reporting. Weather chasers (myself included) were out in full force in capturing this weekend’s rare Midwest-like active weather pattern… Fun stuff!

:)

MABAS Division 10

Mutual Aid Box Alarm System

Mobile Ventilation Unit MVU

Today's story and sketch "by me" you see Reginald Gofish and his lovely wife of five hundred and thirteen years

Dotty. Reginald and Dottie are just leaving the secret side exit of their London tower bridge flat.

(flat English term for nice, but not to big apartment), It is the tower to the left side of the bridge,

they are on the way to visit the Queen who wants a new necklace for the upcoming Buckingham palace garden party.

Before we get to far ahead of our readers, we will start the tale of Reginald before he became the Jewelry

designer for the Royal Family, and even before he arrived in London or,

before he meet the Queens great, great, great Grandmother Queen Victoria daughter of King George the Third.

Reggi had studied to become a costume jewelry designer at "FSU" Fake Stuff University.

After graduation he meet Dotty and Wed, but on their honeymoon to Earth they had a bit of Space craft trouble, It was

on a very foggy night, and Reggi's rig did not have a watch out for things in the fog

alarm system, it was what is known as a stripper model for the young less upwardly Mobil aliens, on a budget.

So anyway they collided with the very tower which became their home here on Earth. As they crashed through the

solid stone walls, they were impressed with the quality of construction, but not to happy with how damaged their

Pinto Glider looked. It was actually much worse than first glance, in fact it was now what you or I would call

Silvery Living Room Art. The anti gravity anion drive system was kaput, it was of course lucky the ins ta water

purifier and ins ta moon pie cooker were fine. The front Slithering Gator Skin reclining, pilot and copilot lounges

were unscratched. The big screen monitor was also fine, which was ready when the BBC finally began to broadcast

many years later. OK back to Queen Victoria and the first time she meet Reggi, that chance encounter happened

while the Queen was having a sleepless night worrying about what to wear to the upcoming Palace Garden Party,

as she was wandering through the grounds she noticed a short grey figure picking her Raspberries, It was very close to

Guy Falks night, she thought at first it was a costumed kitchen helper, or even a poor London Waif, but the closer she

got to Reggi she figured he was an Alien from Lippo, she had many previous encounters with aliens in her childhood.

She was not afraid and she and Reggi began talking about this and that, and Reggi told Vicki about his crash, and

where he and Dotty had made a nice home in the tower. After an hour of small talk, she learned that Reggi was a

jewelry designer, and from that night forward Reggi was to become the Palace Jeweler, and is to this day,

Taa ta the Rod Blog

Expensive jewelry may impress many, but to empress everyone it only takes a little class. Rod