View allAll Photos Tagged Refinement
DISCLAIMER
Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!
The Chinese J-7FS was a direct descendant of the J-7E. The Chengdu J-7 itself has a long heritage of development, even though it is originally a Soviet design, a license-built MiG-21F, which has its roots in the mid 50ies.
It took China long way to develop and produce a true supersonic fighter aircraft: in March, 1964, Shenyang Aircraft Factory began the first domestic production of the J-7 jet fighter. However, the mass production of the aircraft, which had been developed through Soviet help, license production and reverse-engineering, was severely hindered by an unexpected problem—the Cultural Revolution. This incident and its consequences resulted in poor initial quality and slow progress.
This, in turn, resulted in full scale production only coming about in the 1980s, by which time the J-7 design was showing its age. However, through the years the J-7 saw constant development and refinement in China, and the J-7FS was one of the many directions the simple, basic design went in order to imporve performance and to keep it up to date.
The J-7FS was designed in the late 90ies as a dedicated interceptor, and as a lighter option than the twin-engined J-8 fighter of indigenous design. Main task was to incorporate a true air-to-air radar with surveillance capabilities, since the J-7 only featured a rader-based range finder in the central shock cone of the air intake.
Fitting a more capable radar required a larger radome, which meant either a bigger central shock cone (as in the 2nd generation MiG-21 fighters) or a totally new nose and air intake arrangement. The accordingly modified J-7FS saw first daylight as a technology demonstration aircraft built by CAC. Its most prominent feature was a redesigned under-chin inlet, reminiscent of the F-8 or A-7 nose, which provided air for a WP-13IIS engine. Above the air intake, a fixed conical radome offered space for a bigger radar dish. “139 Red”, how the first aircraft was coded, first flew in June 1998, starting a 22-month test program. Two prototypes were built, but only the first aircraft was to fly – the second machine was only used for static tests.
"139 Red" soon saw major progress in design and equipment: it received a new double-delta wing which nearly doubled internal fuel capacity and improved performance, a modified fin, a more potent WP-13F turbojet engine, and a new 600 mm slot antenna planar array radar using coherent technology to achieve scan, look-down and shoot-down capabilities.
The revamped aircraft also received a sand/green camouflage paint scheme, less flashy than the original white/red livery. The new wing, which was also introduced on the J-7E, made the aircraft 45% more maneuverable than the MiG-21F-like J/F-7M, while the take-off and landing distance is reduced to 600 meters, in comparison to the 1.000 meter take-off distance and 900 meter landing distance of earlier versions of the J-7.
The production J-7FS which was ready for service in summer 2000 featured even more changes and novelties: the J-7FS incorporated HOTAS, which has since become standard on other late J-7 versions, too. This version is also the first of J-7 series to be later upgraded with helmet mounted sights (HMS). However, it is reported that the helmet mounted sight is not compatible with radars, and air-to-air missiles must be independently controlled by either HMS or radar, but not both.
The serial production radome now had an ogival shape with an even larger base diameter, and for additional avionics such as weapon management, global positioning and flight data recording systems, the production J-7FS featured a bulged spine, reminiscent of the 3rd generation MiG-21 (or the respective Chengdu J-7C, a reverse-engineered MiG-21MF). The aircraft was even able to carry medium range AAMs, e .g. the Chinese PL-11 missile, a license-built Selenia Aspide AAM from Italia, itself a modernized descendant of the venerable AIM-7 Sparrow. Another feature which set the FS version apart was the ventral, twin-barreled Type 23-III gun instead of the single-barelled 30mm cannon at the flank.
The role of the J-7FS in the People's Liberation Army was to provide local air defense and tactical air superiority, even though it certainly was only a stop-gap until the introduction of the much more potent Chengdu J-10, which started to enter PLAAF service in 2005 after a long development time. With its more powerful radar the J-7FS was supposed to act as a kind of mini AWACS platform, guiding groups of less potent J-7Es to potential targets. It is known that the J-7FS’s new radar had a range greater than 50 km and could track up to eight targets simultaneously. The aircraft's overall performance is expected to be similar to early F-16 variants.
The number of built specimen is uncertain, but it is supposed to be less than 100, probably even less than 50. It is rumored that the type had also been offered to Bangladesh and Sri Lanka around 2001, but was not bought.
General characteristics:
Crew: 1
Length: 14.885 m (Overall) (48 ft 10 in)
Wingspan: 8.32 m (27 ft 3½ in)
Height: 4.11 m (13 ft 5½ in)
Wing area: 24.88 m² (267.8 ft²)
Aspect ratio: 2.8:1
Empty weight: 5,292 kg (11.667 lb)
Loaded weight: 7,540 kg (16.620 lb)
Max. take-off weight: 9.100 kg (20.062 lb)
Powerplant:
1 × Guizhou Liyang WP-13F(C) afterburning turbojet with 44.1 kN (9.914 lb) dry thrust and 66.7 kN (14.650 lb) with afterburner:
Performance
Maximum speed: Mach 2.0, 2,200 km/h (1.189 knots, 1.375 mph)
Stall speed: 210 km/h (114 knots, 131 mph) IAS
Combat radius: 850 km (459 nmi, 528 mi) (air superiority, two AAMs and three drop tanks)
Ferry range: 2,200 km (1.187 nmi, 1.367 mi)
Service ceiling: 17,500 m (57.420 ft)
Rate of climb: 195 m/s (38.386 ft/min)
Armament:
1× twin-barreled Type 23-III 23mm (0.9") cannon with 250 rounds under the fuselage;
5× hardpoints (4× under-wing, 1× centerline under-fuselage) with a capacity of 2,000 kg maximum (up to 500 kg each); Ordnance primarily comprises air-to-air missiles, including PL-2, PL-5, PL-7, PL-8, PL-9 and PL-11 AAMs, but in a secondary CAS role various rocket pods an unguided bombs of up to 500kg caliber could be carried
The kit and its assembly:
This whif is based on the real world J-7FS, which actually flew but never made it beyond the technical demonstrator stage. However, I found the air intake design with its raked shape and the pointed radome interesting, and since I had a crappy Matchbox MiG-21MF with misprinted decals in store I decided to use that kit for a whif conversion. There’s even a resin kit of the first J-7FS (still with the standard delta wing, though, and horribly expensive) available, but I wanted to create a more advanced what-if model, if the type had somehow entered service.
The kit saw major modification all around the fuselage: the wing tips were clipped and scratch-built ends for the J-7E double delta wing shape attached. The shape is certainly not correct, but it's IMHO the impression that counts. The MiG-21MF's deep fin was replaced by a donation part from an F-16 – the 2nd J-7FS already featured a distinctive kink at the fin’s top which made it already look rather F-16ish, and the taller and more slender fin suits the MiG-21 well.
A brake parachute housing with a disctinctive, blunt end was added just above the jet exhaust, and some antennae and pitots were added in order to enhance the bleak Matchbox kit a little. The Type 23-III cannon was sculpted from a piece of sprue, just like the brake parachute housing.
The nose section/radome is the front half of an F-18 drop tank. An oval, tapered piece of styrene was implanted as the raked intake lip, trying to copy the look of the real thing according to the few pictures I had at hand. I also added a central splitter in the air intake, which houses the front wheel bay.
Some putty work was necessary to blend the new nose into the front fuselage, as well as the dorsal spine into the new fin, but that turned out to be easier than expected.
The jet exhaust originally is just a vertical "plate" in the MiG-21's tail. I opened it and implanted a new cover inside of the fuselage, in a deeper position. For some more detail I also added a (simple) jet nozzle, IIRC it is a leftover part from a Matchbox Jaguar kit, probably 30 years old... Not much, but it defininitively enhances the rear view of the machine.
The original cockpit only consists of a bulky seat and the pilot figure, and the clear canopy is clear but horribly thick. Hence, I decided to keep the cockpit closed, but nevertheless I added a floor and some side panels, and used an Airfix pilot figure.
The missile ordnance comes from the scrap box, reflecting “modern” Chinese air-to-air weaponry: two PL-7 (Matra Magic AAMs from an Italeri NATO weapons kit) on the outer and two PL-11 (two Aspide missiles from the same set ) on the inner wing hardpoints. All wing hardpoints come from MiG-21F kits, one pair is from the Academy kit, the other from the vintage Hasegawa kit, both have the launch rails molded into the weapon pylon. The drop tank is a typical Chinese item - it resembles the Russian/soviet PTB-490 drop tank, but has a more blunt nose and smaller fins - it comes from a FC-1 kit from Trumpeter.
Paintings and markings:
Since it is an air superiority aircraft, I wanted an appropriate livery, but not the dull overall grey of contemporary PLAAF fighters. But I found some weird real life paint schemes which inspired the final camouflage.
Since the plane was not supposed to look too American through FS tones I rather used 'other' colors for a wraparound scheme. The basic tone is Testors 2123 (Russian Underside Blue), and from above a darker contrast color was added, Humbrol 230 (PRU Blue). Both tones have a greenish/teal hue, which complements each other well. Together they create a pretty distinctive look, though, esp. with the red and yellow insignia and codes. IMHO these colors suit the fighter well.
The kit received a light black ink wash and some dry painting with lighter blue-grey shades (Humbrol 87 and 128), but no weathering, since modern Chinese aircraft tend to look pretty clean and pristine.
The decals were puzzled together from the scrap box, IIRC the insignia originally they belong to a Il-28 Trumpeter kit. The 5 digit code comes from a Revell MiG-29 and the number itself is based on the information published in the 2010 book “Chinese Air Power” by Yefim Gordon und Dmitriy Komissarov, where the Chinese code system is explained – I hope that it is more or less authentic ;)
So, all in all a rather simple kit conversion, and certainly not a creative masterpiece. To be honest, the similarity with the real thing is just at first glance - but since it is whif world, I am fine with the outcome. ^^
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!
The Chinese J-7FS was a direct descendant of the J-7E. The Chengdu J-7 itself has a long heritage of development, even though it is originally a Soviet design, a license-built MiG-21F, which has its roots in the mid 50ies.
It took China long way to develop and produce a true supersonic fighter aircraft: in March, 1964, Shenyang Aircraft Factory began the first domestic production of the J-7 jet fighter. However, the mass production of the aircraft, which had been developed through Soviet help, license production and reverse-engineering, was severely hindered by an unexpected problem—the Cultural Revolution. This incident and its consequences resulted in poor initial quality and slow progress.
This, in turn, resulted in full scale production only coming about in the 1980s, by which time the J-7 design was showing its age. However, through the years the J-7 saw constant development and refinement in China, and the J-7FS was one of the many directions the simple, basic design went in order to imporve performance and to keep it up to date.
The J-7FS was designed in the late 90ies as a dedicated interceptor, and as a lighter option than the twin-engined J-8 fighter of indigenous design. Main task was to incorporate a true air-to-air radar with surveillance capabilities, since the J-7 only featured a rader-based range finder in the central shock cone of the air intake.
Fitting a more capable radar required a larger radome, which meant either a bigger central shock cone (as in the 2nd generation MiG-21 fighters) or a totally new nose and air intake arrangement. The accordingly modified J-7FS saw first daylight as a technology demonstration aircraft built by CAC. Its most prominent feature was a redesigned under-chin inlet, reminiscent of the F-8 or A-7 nose, which provided air for a WP-13IIS engine. Above the air intake, a fixed conical radome offered space for a bigger radar dish. “139 Red”, how the first aircraft was coded, first flew in June 1998, starting a 22-month test program. Two prototypes were built, but only the first aircraft was to fly – the second machine was only used for static tests.
"139 Red" soon saw major progress in design and equipment: it received a new double-delta wing which nearly doubled internal fuel capacity and improved performance, a modified fin, a more potent WP-13F turbojet engine, and a new 600 mm slot antenna planar array radar using coherent technology to achieve scan, look-down and shoot-down capabilities.
The revamped aircraft also received a sand/green camouflage paint scheme, less flashy than the original white/red livery. The new wing, which was also introduced on the J-7E, made the aircraft 45% more maneuverable than the MiG-21F-like J/F-7M, while the take-off and landing distance is reduced to 600 meters, in comparison to the 1.000 meter take-off distance and 900 meter landing distance of earlier versions of the J-7.
The production J-7FS which was ready for service in summer 2000 featured even more changes and novelties: the J-7FS incorporated HOTAS, which has since become standard on other late J-7 versions, too. This version is also the first of J-7 series to be later upgraded with helmet mounted sights (HMS). However, it is reported that the helmet mounted sight is not compatible with radars, and air-to-air missiles must be independently controlled by either HMS or radar, but not both.
The serial production radome now had an ogival shape with an even larger base diameter, and for additional avionics such as weapon management, global positioning and flight data recording systems, the production J-7FS featured a bulged spine, reminiscent of the 3rd generation MiG-21 (or the respective Chengdu J-7C, a reverse-engineered MiG-21MF). The aircraft was even able to carry medium range AAMs, e .g. the Chinese PL-11 missile, a license-built Selenia Aspide AAM from Italia, itself a modernized descendant of the venerable AIM-7 Sparrow. Another feature which set the FS version apart was the ventral, twin-barreled Type 23-III gun instead of the single-barelled 30mm cannon at the flank.
The role of the J-7FS in the People's Liberation Army was to provide local air defense and tactical air superiority, even though it certainly was only a stop-gap until the introduction of the much more potent Chengdu J-10, which started to enter PLAAF service in 2005 after a long development time. With its more powerful radar the J-7FS was supposed to act as a kind of mini AWACS platform, guiding groups of less potent J-7Es to potential targets. It is known that the J-7FS’s new radar had a range greater than 50 km and could track up to eight targets simultaneously. The aircraft's overall performance is expected to be similar to early F-16 variants.
The number of built specimen is uncertain, but it is supposed to be less than 100, probably even less than 50. It is rumored that the type had also been offered to Bangladesh and Sri Lanka around 2001, but was not bought.
General characteristics:
Crew: 1
Length: 14.885 m (Overall) (48 ft 10 in)
Wingspan: 8.32 m (27 ft 3½ in)
Height: 4.11 m (13 ft 5½ in)
Wing area: 24.88 m² (267.8 ft²)
Aspect ratio: 2.8:1
Empty weight: 5,292 kg (11.667 lb)
Loaded weight: 7,540 kg (16.620 lb)
Max. take-off weight: 9.100 kg (20.062 lb)
Powerplant:
1 × Guizhou Liyang WP-13F(C) afterburning turbojet with 44.1 kN (9.914 lb) dry thrust and 66.7 kN (14.650 lb) with afterburner:
Performance
Maximum speed: Mach 2.0, 2,200 km/h (1.189 knots, 1.375 mph)
Stall speed: 210 km/h (114 knots, 131 mph) IAS
Combat radius: 850 km (459 nmi, 528 mi) (air superiority, two AAMs and three drop tanks)
Ferry range: 2,200 km (1.187 nmi, 1.367 mi)
Service ceiling: 17,500 m (57.420 ft)
Rate of climb: 195 m/s (38.386 ft/min)
Armament:
1× twin-barreled Type 23-III 23mm (0.9") cannon with 250 rounds under the fuselage;
5× hardpoints (4× under-wing, 1× centerline under-fuselage) with a capacity of 2,000 kg maximum (up to 500 kg each); Ordnance primarily comprises air-to-air missiles, including PL-2, PL-5, PL-7, PL-8, PL-9 and PL-11 AAMs, but in a secondary CAS role various rocket pods an unguided bombs of up to 500kg caliber could be carried
The kit and its assembly:
This whif is based on the real world J-7FS, which actually flew but never made it beyond the technical demonstrator stage. However, I found the air intake design with its raked shape and the pointed radome interesting, and since I had a crappy Matchbox MiG-21MF with misprinted decals in store I decided to use that kit for a whif conversion. There’s even a resin kit of the first J-7FS (still with the standard delta wing, though, and horribly expensive) available, but I wanted to create a more advanced what-if model, if the type had somehow entered service.
The kit saw major modification all around the fuselage: the wing tips were clipped and scratch-built ends for the J-7E double delta wing shape attached. The shape is certainly not correct, but it's IMHO the impression that counts. The MiG-21MF's deep fin was replaced by a donation part from an F-16 – the 2nd J-7FS already featured a distinctive kink at the fin’s top which made it already look rather F-16ish, and the taller and more slender fin suits the MiG-21 well.
A brake parachute housing with a disctinctive, blunt end was added just above the jet exhaust, and some antennae and pitots were added in order to enhance the bleak Matchbox kit a little. The Type 23-III cannon was sculpted from a piece of sprue, just like the brake parachute housing.
The nose section/radome is the front half of an F-18 drop tank. An oval, tapered piece of styrene was implanted as the raked intake lip, trying to copy the look of the real thing according to the few pictures I had at hand. I also added a central splitter in the air intake, which houses the front wheel bay.
Some putty work was necessary to blend the new nose into the front fuselage, as well as the dorsal spine into the new fin, but that turned out to be easier than expected.
The jet exhaust originally is just a vertical "plate" in the MiG-21's tail. I opened it and implanted a new cover inside of the fuselage, in a deeper position. For some more detail I also added a (simple) jet nozzle, IIRC it is a leftover part from a Matchbox Jaguar kit, probably 30 years old... Not much, but it defininitively enhances the rear view of the machine.
The original cockpit only consists of a bulky seat and the pilot figure, and the clear canopy is clear but horribly thick. Hence, I decided to keep the cockpit closed, but nevertheless I added a floor and some side panels, and used an Airfix pilot figure.
The missile ordnance comes from the scrap box, reflecting “modern” Chinese air-to-air weaponry: two PL-7 (Matra Magic AAMs from an Italeri NATO weapons kit) on the outer and two PL-11 (two Aspide missiles from the same set ) on the inner wing hardpoints. All wing hardpoints come from MiG-21F kits, one pair is from the Academy kit, the other from the vintage Hasegawa kit, both have the launch rails molded into the weapon pylon. The drop tank is a typical Chinese item - it resembles the Russian/soviet PTB-490 drop tank, but has a more blunt nose and smaller fins - it comes from a FC-1 kit from Trumpeter.
Paintings and markings:
Since it is an air superiority aircraft, I wanted an appropriate livery, but not the dull overall grey of contemporary PLAAF fighters. But I found some weird real life paint schemes which inspired the final camouflage.
Since the plane was not supposed to look too American through FS tones I rather used 'other' colors for a wraparound scheme. The basic tone is Testors 2123 (Russian Underside Blue), and from above a darker contrast color was added, Humbrol 230 (PRU Blue). Both tones have a greenish/teal hue, which complements each other well. Together they create a pretty distinctive look, though, esp. with the red and yellow insignia and codes. IMHO these colors suit the fighter well.
The kit received a light black ink wash and some dry painting with lighter blue-grey shades (Humbrol 87 and 128), but no weathering, since modern Chinese aircraft tend to look pretty clean and pristine.
The decals were puzzled together from the scrap box, IIRC the insignia originally they belong to a Il-28 Trumpeter kit. The 5 digit code comes from a Revell MiG-29 and the number itself is based on the information published in the 2010 book “Chinese Air Power” by Yefim Gordon und Dmitriy Komissarov, where the Chinese code system is explained – I hope that it is more or less authentic ;)
So, all in all a rather simple kit conversion, and certainly not a creative masterpiece. To be honest, the similarity with the real thing is just at first glance - but since it is whif world, I am fine with the outcome. ^^
I set up some strobes for my L photo... I'm still undecided on those shots, so I figured I'd upload something - anything. I couldn't let good (read "half decent") lighting go to waste so I had fun with it. :)
And in other news... My family has two weekends... One for the kids and me, and one for my husband. I'm finding it really hard balancing the two and choosing which one to make Flickr-lite. I didn't have that problem in 2011.
Alfred Michael Nicholas (1881-1937) and George Richard Nicholas (1884-1960) were the founders of the pharmaceutical company that bore their surname. When WW1 cut off supplies of acetylsalicylic acid, better known as the pain killer aspirin (produced by the German company, Bayer), Attorney-General William "Billy" Hughes, announced that German patents and trade marks would be suspended; they would then granted to any home-based manufacturer who could meet the required standards of purity. George was a pharmacist with a store in Punt Rd and the brothers, with the help of Henry Woolf Shmith, managed to produce what Hughes wanted. The government subsequently granted Shmith, Nicholas & Co a licence to make and sell aspirin in Australia.
Shmith withdrew from the company in 1916, leaving the Nicholas brothers to form Geo. R. Nicholas and Co. The company's aspirin was initially marketing as Nicholas Aspirin before brothers trade marked the name Aspro in April 1917; this was to protect their aspirin product when Bayer inevitably returned to Australian market after the war. A further refinement of the company's name came in 1921, when it was renamed renamed Nicholas Pty Ltd.. The names Nicholas and Apsro would become synonymous over the next several decades.
By 1946 Nicholas was making a substantial portfolio of pharmaceutical, nutritional, personal care and veterinary products, not just for Australia, but also for export. The brothers had become well known for their wealth and philanthropy and Aspro was a household name in Australia and overseas through extensive advertising (see our gallery of Aspro ads and promotional material). The Home Beautiful even published articles on Alfred's family home (and research centre) Burnham Beeches in 1934 and again in
1935.
The intention of Nicholas Pty Ltd to build a factory on Warrigal Rd became public in May 1946. The Dandenong Journal reported in its 8 May edition that the company had acquired a "23 acre" site for a price "in the vicinity of £lO,OOO." The Sun News Pictorial wrote on the 22nd that "planning would probably continue for another year, when tenders would be called."
The site offered room for extensive staff amenities. Referencing Dr. Francis Chllson, "a leading New York industrial consultant," The Herald wrote that the site "would include an Australian rules football field, a cricket pitch, a basketball field, tennis court and a putting green." In what might later be called an open plan office, "executives will sit behind fences and not walls" in what was termed a "smooth industrial flow."
Interestingly, the Dandenong Journal called the suburb Holmesglen and The Herald and The Sun call it East Malvern. For our purposes, we'll call it Chadstone.
However, the road to construction was anything but a smooth industrial flow. In December 1947 The Herald reported that the construction of the "£200,000 factory" had been postponed due to "the building situation." This is likely a reference to the post-war shortages of labour and materials available for building.
The Dandenong Journal noted in June 1950 that Nicholas had contacted the Mulgrave Shire to say that "we have as yet been unable to proceed with this project on account of factors beyond our control.” By then, the land (which was know said to be "24 acres") had been zoned residential, requiring the company to apply for an exemption. As the land had been purchased with the intention to build a factory, this was granted.
Even then, the building of a factory on the site was not a done deal. Just a month later, in July 1950, The Dandenong Journal ran an article about the Department of Education seeking properties in the Oakleigh area for future schools. In an intriguing what-if scenario, the Mulgrave Shire President, Cr. J. Stocks, had "revealed that in addition to the area south of Highbury Rd. adjacent to Montpellier St., the Department was seeking two other sites about 50 acres in all. The area referred to above was Harrison’s Estate and although the Department was not going to build there for some time, it realised the growth of the district and was going to acquire a site now." Cr Stocks had accompanied Mr. Percival Inchbold (Minister for Education) on a tour of inspection of other sites and said that the Department "was very interested in the Nicholas Aspro site at the corner of Warrigal Rd. and Waverley Rd., Holmsglen (sic), as a site for a future High School. They had looked at other sites on Moroney’s Hill in Oakleigh, but the Department preferred Nicholas’ land (about 20 acres). Negotiations were proceeding with them and the Department was quite willing to help that firm obtain an alternative site if it so desired."
The tenders were finally called for building the
"£1 million factory" in January 1956 with an expected completion date of about June 1957.
The building was designed by Melbourne architect D Graeme Lumsden and was opened in July 1957. A Victorian Heritage Database Report on the building noted that it was "a pioneer in the use of double-glazed curtain wall construction and free-form reinforced concrete in the form of the porte-cochere, while the pharmaceutical factory behind was laid out to facilitate a U-shaped production flow to and from the vast warehouse." The Report noted that the "extensive landscaping of the site, with plants propagated at the Nicholas country property, Burnham Beeches at Sassafras" were "maintained at the highest standard by a team of gardeners [that] set the standard for industrial buildings in Victoria."
Amenities for workers included "extensive facilities provided for the health, welfare and recreational needs of the 250 employees." There was a "fully-equipped commercial kitchen providing subsidised hot meals for all employees [and] a spacious cafeteria opening onto a cafeteria garden." The cafeteria included a "stage at one end and space for table tennis and pool tables at the other. A bio-box for showing movies was built at the south end of the cafeteria." The building included a "medical centre with a surgery and consulting rooms, large male and female locker rooms, free issue and cleaning of protective clothing and shoes, a squash court, a gymnasium and a large staff lounge."
In September 1981 it was announced that "Nicholas International Ltd and shoe polish and house products group Kiwi International Co Ltd would merge to form Australia's largest manufacturer and distributor of pharmaceutical and consumer products." The new company, to be known as Nicholas Kiwi Ltd "would have manufacturing facilities in 47 countries and total sales of more than S250 million in more than 170 countries."
As if to demonstrate the virulence of 1980s business culture,
Castlemaine Tooheys Ltd announced a $307 million takeover bid for Nicholas Kiwi Ltd in July 1984. This was followed by Reckitt and Colman PLC announcing a $340 million takeover bid in September.
In October Nicholas Kiwi announced a massive restructuring that split its operations, selling its highly profitable overseas interests to the Chicago-based Consolidated Foods Corporation, which owned Sara Lee. Sara Lee completed its takeover of Nicholas Kiwi in 1986.
On 11 July 1990 it was announced that the Chadstone factory would close and that the company would relocate to the Sara Lee site at 610 Heatherton Rd, Clayton South. The production of the company's pharmaceutical products would be outsourced, but it would continue to make toiletries, confectionery, shoe-care products and household cleaning products. The Chadstone factory was said to be too outdated to meet the company's needs and too expensive to refurbish. "More than 140 jobs" were axed.
In June 1991 the Sara Lee Corporation sold its over-the-counter pharmaceutical interests, including Aspro and other Nicholas brands, to Hoffman La Roche. The Aspro story came full circle when Roche Consumer Health was sold to Bayer in 2004.
By then the Nicholas buildings on Warrigal Road had been demolished and the site turned into a bulky goods retail park.
In May 1992, the Australian Financial Review reported that much of the Nicholas family's wealth had been lost.
MPLSLH000663
My thinking and drawing process on location. I made some refinement at home when the lighting condition was better.
DISCLAIMER
Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!
The Chinese J-7FS was a direct descendant of the J-7E. The Chengdu J-7 itself has a long heritage of development, even though it is originally a Soviet design, a license-built MiG-21F, which has its roots in the mid 50ies.
It took China long way to develop and produce a true supersonic fighter aircraft: in March, 1964, Shenyang Aircraft Factory began the first domestic production of the J-7 jet fighter. However, the mass production of the aircraft, which had been developed through Soviet help, license production and reverse-engineering, was severely hindered by an unexpected problem—the Cultural Revolution. This incident and its consequences resulted in poor initial quality and slow progress.
This, in turn, resulted in full scale production only coming about in the 1980s, by which time the J-7 design was showing its age. However, through the years the J-7 saw constant development and refinement in China, and the J-7FS was one of the many directions the simple, basic design went in order to imporve performance and to keep it up to date.
The J-7FS was designed in the late 90ies as a dedicated interceptor, and as a lighter option than the twin-engined J-8 fighter of indigenous design. Main task was to incorporate a true air-to-air radar with surveillance capabilities, since the J-7 only featured a rader-based range finder in the central shock cone of the air intake.
Fitting a more capable radar required a larger radome, which meant either a bigger central shock cone (as in the 2nd generation MiG-21 fighters) or a totally new nose and air intake arrangement. The accordingly modified J-7FS saw first daylight as a technology demonstration aircraft built by CAC. Its most prominent feature was a redesigned under-chin inlet, reminiscent of the F-8 or A-7 nose, which provided air for a WP-13IIS engine. Above the air intake, a fixed conical radome offered space for a bigger radar dish. “139 Red”, how the first aircraft was coded, first flew in June 1998, starting a 22-month test program. Two prototypes were built, but only the first aircraft was to fly – the second machine was only used for static tests.
"139 Red" soon saw major progress in design and equipment: it received a new double-delta wing which nearly doubled internal fuel capacity and improved performance, a modified fin, a more potent WP-13F turbojet engine, and a new 600 mm slot antenna planar array radar using coherent technology to achieve scan, look-down and shoot-down capabilities.
The revamped aircraft also received a sand/green camouflage paint scheme, less flashy than the original white/red livery. The new wing, which was also introduced on the J-7E, made the aircraft 45% more maneuverable than the MiG-21F-like J/F-7M, while the take-off and landing distance is reduced to 600 meters, in comparison to the 1.000 meter take-off distance and 900 meter landing distance of earlier versions of the J-7.
The production J-7FS which was ready for service in summer 2000 featured even more changes and novelties: the J-7FS incorporated HOTAS, which has since become standard on other late J-7 versions, too. This version is also the first of J-7 series to be later upgraded with helmet mounted sights (HMS). However, it is reported that the helmet mounted sight is not compatible with radars, and air-to-air missiles must be independently controlled by either HMS or radar, but not both.
The serial production radome now had an ogival shape with an even larger base diameter, and for additional avionics such as weapon management, global positioning and flight data recording systems, the production J-7FS featured a bulged spine, reminiscent of the 3rd generation MiG-21 (or the respective Chengdu J-7C, a reverse-engineered MiG-21MF). The aircraft was even able to carry medium range AAMs, e .g. the Chinese PL-11 missile, a license-built Selenia Aspide AAM from Italia, itself a modernized descendant of the venerable AIM-7 Sparrow. Another feature which set the FS version apart was the ventral, twin-barreled Type 23-III gun instead of the single-barelled 30mm cannon at the flank.
The role of the J-7FS in the People's Liberation Army was to provide local air defense and tactical air superiority, even though it certainly was only a stop-gap until the introduction of the much more potent Chengdu J-10, which started to enter PLAAF service in 2005 after a long development time. With its more powerful radar the J-7FS was supposed to act as a kind of mini AWACS platform, guiding groups of less potent J-7Es to potential targets. It is known that the J-7FS’s new radar had a range greater than 50 km and could track up to eight targets simultaneously. The aircraft's overall performance is expected to be similar to early F-16 variants.
The number of built specimen is uncertain, but it is supposed to be less than 100, probably even less than 50. It is rumored that the type had also been offered to Bangladesh and Sri Lanka around 2001, but was not bought.
General characteristics:
Crew: 1
Length: 14.885 m (Overall) (48 ft 10 in)
Wingspan: 8.32 m (27 ft 3½ in)
Height: 4.11 m (13 ft 5½ in)
Wing area: 24.88 m² (267.8 ft²)
Aspect ratio: 2.8:1
Empty weight: 5,292 kg (11.667 lb)
Loaded weight: 7,540 kg (16.620 lb)
Max. take-off weight: 9.100 kg (20.062 lb)
Powerplant:
1 × Guizhou Liyang WP-13F(C) afterburning turbojet with 44.1 kN (9.914 lb) dry thrust and 66.7 kN (14.650 lb) with afterburner:
Performance
Maximum speed: Mach 2.0, 2,200 km/h (1.189 knots, 1.375 mph)
Stall speed: 210 km/h (114 knots, 131 mph) IAS
Combat radius: 850 km (459 nmi, 528 mi) (air superiority, two AAMs and three drop tanks)
Ferry range: 2,200 km (1.187 nmi, 1.367 mi)
Service ceiling: 17,500 m (57.420 ft)
Rate of climb: 195 m/s (38.386 ft/min)
Armament:
1× twin-barreled Type 23-III 23mm (0.9") cannon with 250 rounds under the fuselage;
5× hardpoints (4× under-wing, 1× centerline under-fuselage) with a capacity of 2,000 kg maximum (up to 500 kg each); Ordnance primarily comprises air-to-air missiles, including PL-2, PL-5, PL-7, PL-8, PL-9 and PL-11 AAMs, but in a secondary CAS role various rocket pods an unguided bombs of up to 500kg caliber could be carried
The kit and its assembly:
This whif is based on the real world J-7FS, which actually flew but never made it beyond the technical demonstrator stage. However, I found the air intake design with its raked shape and the pointed radome interesting, and since I had a crappy Matchbox MiG-21MF with misprinted decals in store I decided to use that kit for a whif conversion. There’s even a resin kit of the first J-7FS (still with the standard delta wing, though, and horribly expensive) available, but I wanted to create a more advanced what-if model, if the type had somehow entered service.
The kit saw major modification all around the fuselage: the wing tips were clipped and scratch-built ends for the J-7E double delta wing shape attached. The shape is certainly not correct, but it's IMHO the impression that counts. The MiG-21MF's deep fin was replaced by a donation part from an F-16 – the 2nd J-7FS already featured a distinctive kink at the fin’s top which made it already look rather F-16ish, and the taller and more slender fin suits the MiG-21 well.
A brake parachute housing with a disctinctive, blunt end was added just above the jet exhaust, and some antennae and pitots were added in order to enhance the bleak Matchbox kit a little. The Type 23-III cannon was sculpted from a piece of sprue, just like the brake parachute housing.
The nose section/radome is the front half of an F-18 drop tank. An oval, tapered piece of styrene was implanted as the raked intake lip, trying to copy the look of the real thing according to the few pictures I had at hand. I also added a central splitter in the air intake, which houses the front wheel bay.
Some putty work was necessary to blend the new nose into the front fuselage, as well as the dorsal spine into the new fin, but that turned out to be easier than expected.
The jet exhaust originally is just a vertical "plate" in the MiG-21's tail. I opened it and implanted a new cover inside of the fuselage, in a deeper position. For some more detail I also added a (simple) jet nozzle, IIRC it is a leftover part from a Matchbox Jaguar kit, probably 30 years old... Not much, but it defininitively enhances the rear view of the machine.
The original cockpit only consists of a bulky seat and the pilot figure, and the clear canopy is clear but horribly thick. Hence, I decided to keep the cockpit closed, but nevertheless I added a floor and some side panels, and used an Airfix pilot figure.
The missile ordnance comes from the scrap box, reflecting “modern” Chinese air-to-air weaponry: two PL-7 (Matra Magic AAMs from an Italeri NATO weapons kit) on the outer and two PL-11 (two Aspide missiles from the same set ) on the inner wing hardpoints. All wing hardpoints come from MiG-21F kits, one pair is from the Academy kit, the other from the vintage Hasegawa kit, both have the launch rails molded into the weapon pylon. The drop tank is a typical Chinese item - it resembles the Russian/soviet PTB-490 drop tank, but has a more blunt nose and smaller fins - it comes from a FC-1 kit from Trumpeter.
Paintings and markings:
Since it is an air superiority aircraft, I wanted an appropriate livery, but not the dull overall grey of contemporary PLAAF fighters. But I found some weird real life paint schemes which inspired the final camouflage.
Since the plane was not supposed to look too American through FS tones I rather used 'other' colors for a wraparound scheme. The basic tone is Testors 2123 (Russian Underside Blue), and from above a darker contrast color was added, Humbrol 230 (PRU Blue). Both tones have a greenish/teal hue, which complements each other well. Together they create a pretty distinctive look, though, esp. with the red and yellow insignia and codes. IMHO these colors suit the fighter well.
The kit received a light black ink wash and some dry painting with lighter blue-grey shades (Humbrol 87 and 128), but no weathering, since modern Chinese aircraft tend to look pretty clean and pristine.
The decals were puzzled together from the scrap box, IIRC the insignia originally they belong to a Il-28 Trumpeter kit. The 5 digit code comes from a Revell MiG-29 and the number itself is based on the information published in the 2010 book “Chinese Air Power” by Yefim Gordon und Dmitriy Komissarov, where the Chinese code system is explained – I hope that it is more or less authentic ;)
So, all in all a rather simple kit conversion, and certainly not a creative masterpiece. To be honest, the similarity with the real thing is just at first glance - but since it is whif world, I am fine with the outcome. ^^
See more photos of this, and the Wikipedia article.
Details, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:
No reconnaissance aircraft in history has operated globally in more hostile airspace or with such complete impunity than the SR-71, the world's fastest jet-propelled aircraft. The Blackbird's performance and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War.
This Blackbird accrued about 2,800 hours of flight time during 24 years of active service with the U.S. Air Force. On its last flight, March 6, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, 4 minutes, and 20 seconds, averaging 3,418 kilometers (2,124 miles) per hour. At the flight's conclusion, they landed at Washington-Dulles International Airport and turned the airplane over to the Smithsonian.
Transferred from the United States Air Force.
Manufacturer:
Designer:
Date:
1964
Country of Origin:
United States of America
Dimensions:
Overall: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft 5 15/16in. x 107ft 5in. x 55ft 7in. (5.638m x 32.741m x 16.942m)
Materials:
Titanium
Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft; airframe constructed largley of titanium and its alloys; vertical tail fins are constructed of a composite (laminated plastic-type material) to reduce radar cross-section; Pratt and Whitney J58 (JT11D-20B) turbojet engines feature large inlet shock cones.
Long Description:
No reconnaissance aircraft in history has operated in more hostile airspace or with such complete impunity than the SR-71 Blackbird. It is the fastest aircraft propelled by air-breathing engines. The Blackbird's performance and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War. The airplane was conceived when tensions with communist Eastern Europe reached levels approaching a full-blown crisis in the mid-1950s. U.S. military commanders desperately needed accurate assessments of Soviet worldwide military deployments, particularly near the Iron Curtain. Lockheed Aircraft Corporation's subsonic U-2 (see NASM collection) reconnaissance aircraft was an able platform but the U. S. Air Force recognized that this relatively slow aircraft was already vulnerable to Soviet interceptors. They also understood that the rapid development of surface-to-air missile systems could put U-2 pilots at grave risk. The danger proved reality when a U-2 was shot down by a surface to air missile over the Soviet Union in 1960.
Lockheed's first proposal for a new high speed, high altitude, reconnaissance aircraft, to be capable of avoiding interceptors and missiles, centered on a design propelled by liquid hydrogen. This proved to be impracticable because of considerable fuel consumption. Lockheed then reconfigured the design for conventional fuels. This was feasible and the Central Intelligence Agency (CIA), already flying the Lockheed U-2, issued a production contract for an aircraft designated the A-12. Lockheed's clandestine 'Skunk Works' division (headed by the gifted design engineer Clarence L. "Kelly" Johnson) designed the A-12 to cruise at Mach 3.2 and fly well above 18,288 m (60,000 feet). To meet these challenging requirements, Lockheed engineers overcame many daunting technical challenges. Flying more than three times the speed of sound generates 316° C (600° F) temperatures on external aircraft surfaces, which are enough to melt conventional aluminum airframes. The design team chose to make the jet's external skin of titanium alloy to which shielded the internal aluminum airframe. Two conventional, but very powerful, afterburning turbine engines propelled this remarkable aircraft. These power plants had to operate across a huge speed envelope in flight, from a takeoff speed of 334 kph (207 mph) to more than 3,540 kph (2,200 mph). To prevent supersonic shock waves from moving inside the engine intake causing flameouts, Johnson's team had to design a complex air intake and bypass system for the engines.
Skunk Works engineers also optimized the A-12 cross-section design to exhibit a low radar profile. Lockheed hoped to achieve this by carefully shaping the airframe to reflect as little transmitted radar energy (radio waves) as possible, and by application of special paint designed to absorb, rather than reflect, those waves. This treatment became one of the first applications of stealth technology, but it never completely met the design goals.
Test pilot Lou Schalk flew the single-seat A-12 on April 24, 1962, after he became airborne accidentally during high-speed taxi trials. The airplane showed great promise but it needed considerable technical refinement before the CIA could fly the first operational sortie on May 31, 1967 - a surveillance flight over North Vietnam. A-12s, flown by CIA pilots, operated as part of the Air Force's 1129th Special Activities Squadron under the "Oxcart" program. While Lockheed continued to refine the A-12, the U. S. Air Force ordered an interceptor version of the aircraft designated the YF-12A. The Skunk Works, however, proposed a "specific mission" version configured to conduct post-nuclear strike reconnaissance. This system evolved into the USAF's familiar SR-71.
Lockheed built fifteen A-12s, including a special two-seat trainer version. Two A-12s were modified to carry a special reconnaissance drone, designated D-21. The modified A-12s were redesignated M-21s. These were designed to take off with the D-21 drone, powered by a Marquart ramjet engine mounted on a pylon between the rudders. The M-21 then hauled the drone aloft and launched it at speeds high enough to ignite the drone's ramjet motor. Lockheed also built three YF-12As but this type never went into production. Two of the YF-12As crashed during testing. Only one survives and is on display at the USAF Museum in Dayton, Ohio. The aft section of one of the "written off" YF-12As which was later used along with an SR-71A static test airframe to manufacture the sole SR-71C trainer. One SR-71 was lent to NASA and designated YF-12C. Including the SR-71C and two SR-71B pilot trainers, Lockheed constructed thirty-two Blackbirds. The first SR-71 flew on December 22, 1964. Because of extreme operational costs, military strategists decided that the more capable USAF SR-71s should replace the CIA's A-12s. These were retired in 1968 after only one year of operational missions, mostly over southeast Asia. The Air Force's 1st Strategic Reconnaissance Squadron (part of the 9th Strategic Reconnaissance Wing) took over the missions, flying the SR-71 beginning in the spring of 1968.
After the Air Force began to operate the SR-71, it acquired the official name Blackbird-- for the special black paint that covered the airplane. This paint was formulated to absorb radar signals, to radiate some of the tremendous airframe heat generated by air friction, and to camouflage the aircraft against the dark sky at high altitudes.
Experience gained from the A-12 program convinced the Air Force that flying the SR-71 safely required two crew members, a pilot and a Reconnaissance Systems Officer (RSO). The RSO operated with the wide array of monitoring and defensive systems installed on the airplane. This equipment included a sophisticated Electronic Counter Measures (ECM) system that could jam most acquisition and targeting radar. In addition to an array of advanced, high-resolution cameras, the aircraft could also carry equipment designed to record the strength, frequency, and wavelength of signals emitted by communications and sensor devices such as radar. The SR-71 was designed to fly deep into hostile territory, avoiding interception with its tremendous speed and high altitude. It could operate safely at a maximum speed of Mach 3.3 at an altitude more than sixteen miles, or 25,908 m (85,000 ft), above the earth. The crew had to wear pressure suits similar to those worn by astronauts. These suits were required to protect the crew in the event of sudden cabin pressure loss while at operating altitudes.
To climb and cruise at supersonic speeds, the Blackbird's Pratt & Whitney J-58 engines were designed to operate continuously in afterburner. While this would appear to dictate high fuel flows, the Blackbird actually achieved its best "gas mileage," in terms of air nautical miles per pound of fuel burned, during the Mach 3+ cruise. A typical Blackbird reconnaissance flight might require several aerial refueling operations from an airborne tanker. Each time the SR-71 refueled, the crew had to descend to the tanker's altitude, usually about 6,000 m to 9,000 m (20,000 to 30,000 ft), and slow the airplane to subsonic speeds. As velocity decreased, so did frictional heat. This cooling effect caused the aircraft's skin panels to shrink considerably, and those covering the fuel tanks contracted so much that fuel leaked, forming a distinctive vapor trail as the tanker topped off the Blackbird. As soon as the tanks were filled, the jet's crew disconnected from the tanker, relit the afterburners, and again climbed to high altitude.
Air Force pilots flew the SR-71 from Kadena AB, Japan, throughout its operational career but other bases hosted Blackbird operations, too. The 9th SRW occasionally deployed from Beale AFB, California, to other locations to carryout operational missions. Cuban missions were flown directly from Beale. The SR-71 did not begin to operate in Europe until 1974, and then only temporarily. In 1982, when the U.S. Air Force based two aircraft at Royal Air Force Base Mildenhall to fly monitoring mission in Eastern Europe.
When the SR-71 became operational, orbiting reconnaissance satellites had already replaced manned aircraft to gather intelligence from sites deep within Soviet territory. Satellites could not cover every geopolitical hotspot so the Blackbird remained a vital tool for global intelligence gathering. On many occasions, pilots and RSOs flying the SR-71 provided information that proved vital in formulating successful U. S. foreign policy. Blackbird crews provided important intelligence about the 1973 Yom Kippur War, the Israeli invasion of Lebanon and its aftermath, and pre- and post-strike imagery of the 1986 raid conducted by American air forces on Libya. In 1987, Kadena-based SR-71 crews flew a number of missions over the Persian Gulf, revealing Iranian Silkworm missile batteries that threatened commercial shipping and American escort vessels.
As the performance of space-based surveillance systems grew, along with the effectiveness of ground-based air defense networks, the Air Force started to lose enthusiasm for the expensive program and the 9th SRW ceased SR-71 operations in January 1990. Despite protests by military leaders, Congress revived the program in 1995. Continued wrangling over operating budgets, however, soon led to final termination. The National Aeronautics and Space Administration retained two SR-71As and the one SR-71B for high-speed research projects and flew these airplanes until 1999.
On March 6, 1990, the service career of one Lockheed SR-71A Blackbird ended with a record-setting flight. This special airplane bore Air Force serial number 64-17972. Lt. Col. Ed Yeilding and his RSO, Lieutenant Colonel Joseph Vida, flew this aircraft from Los Angeles to Washington D.C. in 1 hour, 4 minutes, and 20 seconds, averaging a speed of 3,418 kph (2,124 mph). At the conclusion of the flight, '972 landed at Dulles International Airport and taxied into the custody of the Smithsonian's National Air and Space Museum. At that time, Lt. Col. Vida had logged 1,392.7 hours of flight time in Blackbirds, more than that of any other crewman.
This particular SR-71 was also flown by Tom Alison, a former National Air and Space Museum's Chief of Collections Management. Flying with Detachment 1 at Kadena Air Force Base, Okinawa, Alison logged more than a dozen '972 operational sorties. The aircraft spent twenty-four years in active Air Force service and accrued a total of 2,801.1 hours of flight time.
Wingspan: 55'7"
Length: 107'5"
Height: 18'6"
Weight: 170,000 Lbs
Reference and Further Reading:
Crickmore, Paul F. Lockheed SR-71: The Secret Missions Exposed. Oxford: Osprey Publishing, 1996.
Francillon, Rene J. Lockheed Aircraft Since 1913. Annapolis, Md.: Naval Institute Press, 1987.
Johnson, Clarence L. Kelly: More Than My Share of It All. Washington D.C.: Smithsonian Institution Press, 1985.
Miller, Jay. Lockheed Martin's Skunk Works. Leicester, U.K.: Midland Counties Publishing Ltd., 1995.
Lockheed SR-71 Blackbird curatorial file, Aeronautics Division, National Air and Space Museum.
DAD, 11-11-01
The Taj Mahal (/ˌtɑːdʒ məˈhɑːl/, more often /ˈtɑːʒ/; from Persian and Arabic, "crown of palaces", pronounced [ˈt̪aːdʒ mɛˈɦɛl]) is a white marble mausoleum located on the southern bank of Yamuna River in the Indian city of Agra. It was commissioned in 1632 by the Mughal emperor Shah Jahan (reigned 1628–1658) to house the tomb of his favorite wife of three, Mumtaz Mahal.
Construction of the mausoleum was essentially completed in 1643 but work continued on other phases of the project for an additional ten years. The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around 32 million Indian rupees, which in 2015 would be valued at around 52.8 billion Indian rupees ($827 million US). The construction project employed around 20,000 artisans under the guidance of a board of architects led by Ustad Ahmad Lahauri. The domed marble tomb is part of an integrated complex consisting of gardens and two red-sandstone buildings surrounded by a crenellated wall on three sides.
The Taj Mahal is regarded by many as the best example of Mughal architecture and is widely recognized as "the jewel of Muslim art in India". It is one of the world’s most celebrated structures and a symbol of India’s rich history. Designated a UNESCO World Heritage Site in 1983, the Taj Mahal attracts some 3 million visitors a year.
INSPIRATION
In 1631, Shah Jahan, emperor during the Mughal empire's period of greatest prosperity, was grief-stricken when his favorite of three wives and beloved companion, Mumtaz Mahal, a Persian princess, died during the birth of their 14th child, Gauhara Begum. Construction of the Taj Mahal began in 1632. The court chronicles of Shah Jahan's grief illustrate the love story traditionally held as an inspiration for Taj Mahal. The principal mausoleum was completed in 1643 and the surrounding buildings and garden were finished about five years later.
ARCHITECTURE AND DESIGN
The Taj Mahal incorporates and expands on design traditions of Persian and earlier Mughal architecture. Specific inspiration came from successful Timurid and Mughal buildings including; the Gur-e Amir (the tomb of Timur, progenitor of the Mughal dynasty, in Samarkand), Humayun's Tomb, Itmad-Ud-Daulah's Tomb (sometimes called the Baby Taj), and Shah Jahan's own Jama Masjid in Delhi. While earlier Mughal buildings were primarily constructed of red sandstone, Shah Jahan promoted the use of white marble inlaid with semi-precious stones. Buildings under his patronage reached new levels of refinement.
TOMB
The tomb is the central focus of the entire complex of the Taj Mahal. It is a large, white marble structure standing on a square plinth and consists of a symmetrical building with an iwan (an arch-shaped doorway) topped by a large dome and finial. Like most Mughal tombs, the basic elements are Persian in origin.
The base structure is a large multi-chambered cube with chamfered corners forming an unequal eight-sided structure that is approximately 55 metres on each of the four long sides. Each side of the iwan is framed with a huge pishtaq or vaulted archway with two similarly shaped arched balconies stacked on either side. This motif of stacked pishtaqs is replicated on the chamfered corner areas, making the design completely symmetrical on all sides of the building. Four minarets frame the tomb, one at each corner of the plinth facing the chamfered corners. The main chamber houses the false sarcophagi of Mumtaz Mahal and Shah Jahan; the actual graves are at a lower level.
The most spectacular feature is the marble dome that surmounts the tomb. The dome is nearly 35 metres high which is close in measurement to the length of the base, and accentuated by the cylindrical "drum" it sits on which is approximately 7 metres high. Because of its shape, the dome is often called an onion dome or amrud (guava dome). The top is decorated with a lotus design which also serves to accentuate its height. The shape of the dome is emphasized by four smaller domed chattris (kiosks) placed at its corners, which replicate the onion shape of the main dome. Their columned bases open through the roof of the tomb and provide light to the interior. Tall decorative spires (guldastas) extend from edges of base walls, and provide visual emphasis to the height of the dome. The lotus motif is repeated on both the chattris and guldastas. The dome and chattris are topped by a gilded finial which mixes traditional Persian and Hindustani decorative elements.
The main finial was originally made of gold but was replaced by a copy made of gilded bronze in the early 19th century. This feature provides a clear example of integration of traditional Persian and Hindu decorative elements. The finial is topped by a moon, a typical Islamic motif whose horns point heavenward.
The minarets, which are each more than 40 metres tall, display the designer's penchant for symmetry. They were designed as working minarets - a traditional element of mosques, used by the muezzin to call the Islamic faithful to prayer. Each minaret is effectively divided into three equal parts by two working balconies that ring the tower. At the top of the tower is a final balcony surmounted by a chattri that mirrors the design of those on the tomb. The chattris all share the same decorative elements of a lotus design topped by a gilded finial. The minarets were constructed slightly outside of the plinth so that in the event of collapse, a typical occurrence with many tall constructions of the period, the material from the towers would tend to fall away from the tomb.
EXTERIOR DECORATIONS
The exterior decorations of the Taj Mahal are among the finest in Mughal architecture. As the surface area changes, the decorations are refined proportionally. The decorative elements were created by applying paint, stucco, stone inlays or carvings. In line with the Islamic prohibition against the use of anthropomorphic forms, the decorative elements can be grouped into either calligraphy, abstract forms or vegetative motifs. Throughout the complex are passages from the Qur'an that comprise some of the decorative elements. Recent scholarship suggests that the passages were chosen by Amanat Khan.
The calligraphy on the Great Gate reads "O Soul, thou art at rest. Return to the Lord at peace with Him, and He at peace with you." The calligraphy was created in 1609 by a calligrapher named Abdul Haq. Shah Jahan conferred the title of "Amanat Khan" upon him as a reward for his "dazzling virtuosity". Near the lines from the Qur'an at the base of the interior dome is the inscription, "Written by the insignificant being, Amanat Khan Shirazi." Much of the calligraphy is composed of florid thuluth script made of jasper or black marble inlaid in white marble panels. Higher panels are written in slightly larger script to reduce the skewing effect when viewed from below. The calligraphy found on the marble cenotaphs in the tomb is particularly detailed and delicate.
Abstract forms are used throughout, especially in the plinth, minarets, gateway, mosque, jawab and, to a lesser extent, on the surfaces of the tomb. The domes and vaults of the sandstone buildings are worked with tracery of incised painting to create elaborate geometric forms. Herringbone inlays define the space between many of the adjoining elements. White inlays are used in sandstone buildings, and dark or black inlays on the white marbles. Mortared areas of the marble buildings have been stained or painted in a contrasting color which creates a complex array of geometric patterns. Floors and walkways use contrasting tiles or blocks in tessellation patterns.
On the lower walls of the tomb are white marble dados sculpted with realistic bas relief depictions of flowers and vines. The marble has been polished to emphasise the exquisite detailing of the carvings. The dado frames and archway spandrels have been decorated with pietra dura inlays of highly stylised, almost geometric vines, flowers and fruits. The inlay stones are of yellow marble, jasper and jade, polished and levelled to the surface of the walls.
INTERIOR DECORATION
The interior chamber of the Taj Mahal reaches far beyond traditional decorative elements. The inlay work is not pietra dura, but a lapidary of precious and semiprecious gemstones. The inner chamber is an octagon with the design allowing for entry from each face, although only the door facing the garden to the south is used. The interior walls are about 25 metres high and are topped by a "false" interior dome decorated with a sun motif. Eight pishtaq arches define the space at ground level and, as with the exterior, each lower pishtaq is crowned by a second pishtaq about midway up the wall. The four central upper arches form balconies or viewing areas, and each balcony's exterior window has an intricate screen or jali cut from marble. In addition to the light from the balcony screens, light enters through roof openings covered by chattris at the corners. The octagonal marble screen or jali bordering the cenotaphs is made from eight marble panels carved through with intricate pierce work. The remaining surfaces are inlaid in delicate detail with semi-precious stones forming twining vines, fruits and flowers. Each chamber wall is highly decorated with dado bas-relief, intricate lapidary inlay and refined calligraphy panels which reflect, in miniature detail, the design elements seen throughout the exterior of the complex.
Muslim tradition forbids elaborate decoration of graves. Hence, the bodies of Mumtaz and Shah Jahan were put in a relatively plain crypt beneath the inner chamber with their faces turned right, towards Mecca. Mumtaz Mahal's cenotaph is placed at the precise centre of the inner chamber on a rectangular marble base of 1.5 by 2.5 metres. Both the base and casket are elaborately inlaid with precious and semiprecious gems. Calligraphic inscriptions on the casket identify and praise Mumtaz. On the lid of the casket is a raised rectangular lozenge meant to suggest a writing tablet. Shah Jahan's cenotaph is beside Mumtaz's to the western side, and is the only visible asymmetric element in the entire complex. His cenotaph is bigger than his wife's, but reflects the same elements: a larger casket on a slightly taller base precisely decorated with lapidary and calligraphy that identifies him. On the lid of the casket is a traditional sculpture of a small pen box.
The pen box and writing tablet are traditional Mughal funerary icons decorating the caskets of men and women respectively. The Ninety Nine Names of God are calligraphic inscriptions on the sides of the actual tomb of Mumtaz Mahal. Other inscriptions inside the crypt include, "O Noble, O Magnificent, O Majestic, O Unique, O Eternal, O Glorious... ". The tomb of Shah Jahan bears a calligraphic inscription that reads; "He travelled from this world to the banquet-hall of Eternity on the night of the twenty-sixth of the month of Rajab, in the year 1076 Hijri."
GARDEN
The complex is set around a large 300-metre square charbagh or Mughal garden. The garden uses raised pathways that divide each of the four quarters of the garden into 16 sunken parterres or flowerbeds. Halfway between the tomb and gateway in the center of the garden is a raised marble water tank with a reflecting pool positioned on a north-south axis to reflect the image of the mausoleum. The raised marble water tank is called al Hawd al-Kawthar in reference to the "Tank of Abundance" promised to Muhammad.
Elsewhere, the garden is laid out with avenues of trees and fountains. The charbagh garden, a design inspired by Persian gardens, was introduced to India by Babur, the first Mughal emperor. It symbolises the four flowing rivers of Jannah (Paradise) and reflects the Paradise garden derived from the Persian paridaeza, meaning 'walled garden'. In mystic Islamic texts of the Mughal period, Paradise is described as an ideal garden of abundance with four rivers flowing from a central spring or mountain, separating the garden into north, west, south and east.
Most Mughal charbaghs are rectangular with a tomb or pavilion in the center. The Taj Mahal garden is unusual in that the main element, the tomb, is located at the end of the garden. With the discovery of Mahtab Bagh or "Moonlight Garden" on the other side of the Yamuna, the interpretation of the Archaeological Survey of India is that the Yamuna river itself was incorporated into the garden's design and was meant to be seen as one of the rivers of Paradise. Similarities in layout and architectural features with the Shalimar Gardens suggests both gardens may have been designed by the same architect, Ali Mardan. Early accounts of the garden describe its profusion of vegetation, including abundant roses, daffodils, and fruit trees. As the Mughal Empire declined, the Taj Mahal and its gardens also declined. By the end of the 19th century, the British Empire controlled more than three-fifths of India, and assumed management of the Taj Mahal. They changed the landscaping to their liking which more closely resembled the formal lawns of London.
OUTLYING BUILDINGS
The Taj Mahal complex is bordered on three sides by crenellated red sandstone walls; the side facing the river is open. Outside the walls are several additional mausoleums, including those of Shah Jahan's other wives, and a larger tomb for Mumtaz's favourite servant.
The main gateway (darwaza) is a monumental structure built primarily of marble, and reminiscent of the Mughal architecture of earlier emperors. Its archways mirror the shape of the tomb's archways, and its pishtaq arches incorporate the calligraphy that decorates the tomb. The vaulted ceilings and walls have elaborate geometric designs like those found in the other sandstone buildings in the complex.
At the far end of the complex are two grand red sandstone buildings that mirror each other, and face the sides of the tomb. The backs of the buildings parallel the western and eastern walls. The western building is a mosque and the other is the jawab (answer), thought to have been constructed for architectural balance although it may have been used as a guesthouse. Distinctions between the two buildings include the jawab's lack of a mihrab (a niche in a mosque's wall facing Mecca), and its floors of geometric design whereas the floor of the mosque is laid with outlines of 569 prayer rugs in black marble. The mosque's basic design of a long hall surmounted by three domes is similar to others built by Shah Jahan, particularly the Masjid-i Jahān-Numā, or Jama Masjid, Delhi. The Mughal mosques of this period divide the sanctuary hall into three areas comprising a main sanctuary and slightly smaller sanctuaries on either side. At the Taj Mahal, each sanctuary opens onto an expansive vaulting dome. The outlying buildings were completed in 1643.
CONSTRUCTION
The Taj Mahal is built on a parcel of land to the south of the walled city of Agra. Shah Jahan presented Maharajah Jai Singh with a large palace in the center of Agra in exchange for the land. An area of roughly three acres was excavated, filled with dirt to reduce seepage, and leveled at 50 metres above riverbank. In the tomb area, wells were dug and filled with stone and rubble to form the footings of the tomb. Instead of lashed bamboo, workmen constructed a colossal brick scaffold that mirrored the tomb. The scaffold was so enormous that foremen estimated it would take years to dismantle.
The Taj Mahal was constructed using materials from all over India and Asia. It is believed over 1,000 elephants were used to transport building materials. The translucent white marble was brought from Makrana, Rajasthan, the jasper from Punjab, jade and crystal from China. The turquoise was from Tibet and the Lapis lazuli from Afghanistan, while the sapphire came from Sri Lanka and the carnelian from Arabia. In all, twenty eight types of precious and semi-precious stones were inlaid into the white marble.
According to the legend, Shah Jahan decreed that anyone could keep the bricks taken from the scaffold, and thus it was dismantled by peasants overnight. A fifteen kilometer tamped-earth ramp was built to transport marble and materials to the construction site and teams of twenty or thirty oxen pulled the blocks on specially constructed wagons. An elaborate post-and-beam pulley system was used to raise the blocks into desired position. Water was drawn from the river by a series of purs, an animal-powered rope and bucket mechanism, into a large storage tank and raised to a large distribution tank. It was passed into three subsidiary tanks, from which it was piped to the complex.
The plinth and tomb took roughly 12 years to complete. The remaining parts of the complex took an additional 10 years and were completed in order of minarets, mosque and jawab, and gateway. Since the complex was built in stages, discrepancies exist in completion dates due to differing opinions on "completion". Construction of the mausoleum itself was essentially completed by 1643 while work continued on the outlying buildings. Estimates of the cost of construction vary due to difficulties in estimating costs across time. The total cost has been estimated to be about 32 million Indian rupees, which is around 52.8 billion Indian rupees ($827 million US) based on 2015 values.
LATER DAYS
Abdul Hamid Lahauri in his book Badshahnama refers to Taj Mahal as rauza-i munawwara, meaning the illumined or illustrious tomb. Soon after the Taj Mahal's completion, Shah Jahan was deposed by his son Aurangzeb and put under house arrest at nearby Agra Fort. Upon Shah Jahan's death, Aurangzeb buried him in the mausoleum next to his wife. In the 18th century, the Jat rulers of Bharatpur invaded Agra and attacked the Taj Mahal, the two chandeliers, one of agate and another of silver, which were hung over the main cenotaph, were taken away by them, along with the gold and silver screen. Kanbo, a Mughal historian, said the gold shield which covered the 15-foot high finial at the top of the main dome was also removed during the Jat despoliation.
By the late 19th century, parts of the buildings had fallen into disrepair. During the time of the Indian rebellion of 1857, the Taj Mahal was defaced by British soldiers and government officials, who chiselled out precious stones and lapis lazuli from its walls. At the end of the 19th century, British viceroy Lord Curzon ordered a sweeping restoration project, which was completed in 1908. He also commissioned the large lamp in the interior chamber, modelled after one in a Cairo mosque. During this time the garden was remodelled with British-style lawns that are still in place today.
THREATS
In 1942, the government erected a scaffolding to disguise the building in anticipation of air attacks by the Japanese Air Force. During the India-Pakistan wars of 1965 and 1971, scaffoldings were again erected to mislead bomber pilots.
More recent threats have come from environmental pollution on the banks of Yamuna River including acid rain due to the Mathura Oil Refinery, which was opposed by Supreme Court of India directives. The pollution has been turning the Taj Mahal yellow. To help control the pollution, the Indian government has set up the Taj Trapezium Zone (TTZ), a 10,400-square-kilometre area around the monument where strict emissions standards are in place.
Concerns for the tomb's structural integrity have recently been raised because of a decline in the groundwater level in the Yamuna river basin which is falling at a rate of around 5 feet a year. In 2010, cracks appeared in parts of the tomb, and the minarets which surround the monument were showing signs of tilting, as the wooden foundation of the tomb may be rotting due to lack of water. In 2011 it was reported that some predictions indicated that the tomb could collapse within 5 years.
TOURISM
The Taj Mahal attracts a large number of tourists. UNESCO documented more than 2 million visitors in 2001, which increased to about 3 million in 2015. A two tier pricing system is in place, with a significantly lower entrance fee for Indian citizens and a more expensive one for foreigners. Most tourists visit in the cooler months of October, November and February. Polluting traffic is not allowed near the complex and tourists must either walk from parking lots or catch an electric bus. The Khawasspuras (northern courtyards) are currently being restored for use as a new visitor center.
The small town to the south of the Taj, known as Taj Ganji or Mumtazabad, was originally constructed with caravanserais, bazaars and markets to serve the needs of visitors and workmen. Lists of recommended travel destinations often feature the Taj Mahal, which also appears in several listings of seven wonders of the modern world, including the recently announced New Seven Wonders of the World, a recent poll with 100 million votes.
The grounds are open from 06:00 to 19:00 weekdays, except for Friday when the complex is open for prayers at the mosque between 12:00 and 14:00. The complex is open for night viewing on the day of the full moon and two days before and after, excluding Fridays and the month of Ramadan. For security reasons only five items - water in transparent bottles, small video cameras, still cameras, mobile phones and small ladies' purses - are allowed inside the Taj Mahal.
MYTHS
Ever since its construction, the building has been the source of an admiration transcending culture and geography, and so personal and emotional responses have consistently eclipsed scholastic appraisals of the monument. A longstanding myth holds that Shah Jahan planned a mausoleum to be built in black marble as a Black Taj Mahal across the Yamuna river. The idea originates from fanciful writings of Jean-Baptiste Tavernier, a European traveller who visited Agra in 1665. It was suggested that Shah Jahan was overthrown by his son Aurangzeb before it could be built. Ruins of blackened marble across the river in Moonlight Garden, Mahtab Bagh, seemed to support this legend. However, excavations carried out in the 1990s found that they were discolored white stones that had turned black. A more credible theory for the origins of the black mausoleum was demonstrated in 2006 by archaeologists who reconstructed part of the pool in the Moonlight Garden. A dark reflection of the white mausoleum could clearly be seen, befitting Shah Jahan's obsession with symmetry and the positioning of the pool itself.
No evidence exists for claims that describe, often in horrific detail, the deaths, dismemberments and mutilations which Shah Jahan supposedly inflicted on various architects and craftsmen associated with the tomb. Some stories claim that those involved in construction signed contracts committing themselves to have no part in any similar design. Similar claims are made for many famous buildings. No evidence exists for claims that Lord William Bentinck, governor-general of India in the 1830s, supposedly planned to demolish the Taj Mahal and auction off the marble. Bentinck's biographer John Rosselli says that the story arose from Bentinck's fund-raising sale of discarded marble from Agra Fort.
Another myth suggests that beating the silhouette of the finial will cause water to come forth. To this day, officials find broken bangles surrounding the silhouette.
In 2000, India's Supreme Court dismissed P. N. Oak's petition to declare that a Hindu king built the Taj Mahal. In 2005 a similar petition was dismissed by the Allahabad High Court. This case was brought by Amar Nath Mishra, a social worker and preacher who says that the Taj Mahal was built by the Hindu King Parmar Dev in 1196.
WIKIPEDIA
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The Taj Mahal (/ˌtɑːdʒ məˈhɑːl/, more often /ˈtɑːʒ/; from Persian and Arabic, "crown of palaces", pronounced [ˈt̪aːdʒ mɛˈɦɛl]) is a white marble mausoleum located on the southern bank of Yamuna River in the Indian city of Agra. It was commissioned in 1632 by the Mughal emperor Shah Jahan (reigned 1628–1658) to house the tomb of his favorite wife of three, Mumtaz Mahal.
Construction of the mausoleum was essentially completed in 1643 but work continued on other phases of the project for an additional ten years. The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around 32 million Indian rupees, which in 2015 would be valued at around 52.8 billion Indian rupees ($827 million US). The construction project employed around 20,000 artisans under the guidance of a board of architects led by Ustad Ahmad Lahauri. The domed marble tomb is part of an integrated complex consisting of gardens and two red-sandstone buildings surrounded by a crenellated wall on three sides.
The Taj Mahal is regarded by many as the best example of Mughal architecture and is widely recognized as "the jewel of Muslim art in India". It is one of the world’s most celebrated structures and a symbol of India’s rich history. Designated a UNESCO World Heritage Site in 1983, the Taj Mahal attracts some 3 million visitors a year.
INSPIRATION
In 1631, Shah Jahan, emperor during the Mughal empire's period of greatest prosperity, was grief-stricken when his favorite of three wives and beloved companion, Mumtaz Mahal, a Persian princess, died during the birth of their 14th child, Gauhara Begum. Construction of the Taj Mahal began in 1632. The court chronicles of Shah Jahan's grief illustrate the love story traditionally held as an inspiration for Taj Mahal. The principal mausoleum was completed in 1643 and the surrounding buildings and garden were finished about five years later.
ARCHITECTURE AND DESIGN
The Taj Mahal incorporates and expands on design traditions of Persian and earlier Mughal architecture. Specific inspiration came from successful Timurid and Mughal buildings including; the Gur-e Amir (the tomb of Timur, progenitor of the Mughal dynasty, in Samarkand), Humayun's Tomb, Itmad-Ud-Daulah's Tomb (sometimes called the Baby Taj), and Shah Jahan's own Jama Masjid in Delhi. While earlier Mughal buildings were primarily constructed of red sandstone, Shah Jahan promoted the use of white marble inlaid with semi-precious stones. Buildings under his patronage reached new levels of refinement.
TOMB
The tomb is the central focus of the entire complex of the Taj Mahal. It is a large, white marble structure standing on a square plinth and consists of a symmetrical building with an iwan (an arch-shaped doorway) topped by a large dome and finial. Like most Mughal tombs, the basic elements are Persian in origin.
The base structure is a large multi-chambered cube with chamfered corners forming an unequal eight-sided structure that is approximately 55 metres on each of the four long sides. Each side of the iwan is framed with a huge pishtaq or vaulted archway with two similarly shaped arched balconies stacked on either side. This motif of stacked pishtaqs is replicated on the chamfered corner areas, making the design completely symmetrical on all sides of the building. Four minarets frame the tomb, one at each corner of the plinth facing the chamfered corners. The main chamber houses the false sarcophagi of Mumtaz Mahal and Shah Jahan; the actual graves are at a lower level.
The most spectacular feature is the marble dome that surmounts the tomb. The dome is nearly 35 metres high which is close in measurement to the length of the base, and accentuated by the cylindrical "drum" it sits on which is approximately 7 metres high. Because of its shape, the dome is often called an onion dome or amrud (guava dome). The top is decorated with a lotus design which also serves to accentuate its height. The shape of the dome is emphasized by four smaller domed chattris (kiosks) placed at its corners, which replicate the onion shape of the main dome. Their columned bases open through the roof of the tomb and provide light to the interior. Tall decorative spires (guldastas) extend from edges of base walls, and provide visual emphasis to the height of the dome. The lotus motif is repeated on both the chattris and guldastas. The dome and chattris are topped by a gilded finial which mixes traditional Persian and Hindustani decorative elements.
The main finial was originally made of gold but was replaced by a copy made of gilded bronze in the early 19th century. This feature provides a clear example of integration of traditional Persian and Hindu decorative elements. The finial is topped by a moon, a typical Islamic motif whose horns point heavenward.
The minarets, which are each more than 40 metres tall, display the designer's penchant for symmetry. They were designed as working minarets - a traditional element of mosques, used by the muezzin to call the Islamic faithful to prayer. Each minaret is effectively divided into three equal parts by two working balconies that ring the tower. At the top of the tower is a final balcony surmounted by a chattri that mirrors the design of those on the tomb. The chattris all share the same decorative elements of a lotus design topped by a gilded finial. The minarets were constructed slightly outside of the plinth so that in the event of collapse, a typical occurrence with many tall constructions of the period, the material from the towers would tend to fall away from the tomb.
EXTERIOR DECORATIONS
The exterior decorations of the Taj Mahal are among the finest in Mughal architecture. As the surface area changes, the decorations are refined proportionally. The decorative elements were created by applying paint, stucco, stone inlays or carvings. In line with the Islamic prohibition against the use of anthropomorphic forms, the decorative elements can be grouped into either calligraphy, abstract forms or vegetative motifs. Throughout the complex are passages from the Qur'an that comprise some of the decorative elements. Recent scholarship suggests that the passages were chosen by Amanat Khan.
The calligraphy on the Great Gate reads "O Soul, thou art at rest. Return to the Lord at peace with Him, and He at peace with you." The calligraphy was created in 1609 by a calligrapher named Abdul Haq. Shah Jahan conferred the title of "Amanat Khan" upon him as a reward for his "dazzling virtuosity". Near the lines from the Qur'an at the base of the interior dome is the inscription, "Written by the insignificant being, Amanat Khan Shirazi." Much of the calligraphy is composed of florid thuluth script made of jasper or black marble inlaid in white marble panels. Higher panels are written in slightly larger script to reduce the skewing effect when viewed from below. The calligraphy found on the marble cenotaphs in the tomb is particularly detailed and delicate.
Abstract forms are used throughout, especially in the plinth, minarets, gateway, mosque, jawab and, to a lesser extent, on the surfaces of the tomb. The domes and vaults of the sandstone buildings are worked with tracery of incised painting to create elaborate geometric forms. Herringbone inlays define the space between many of the adjoining elements. White inlays are used in sandstone buildings, and dark or black inlays on the white marbles. Mortared areas of the marble buildings have been stained or painted in a contrasting color which creates a complex array of geometric patterns. Floors and walkways use contrasting tiles or blocks in tessellation patterns.
On the lower walls of the tomb are white marble dados sculpted with realistic bas relief depictions of flowers and vines. The marble has been polished to emphasise the exquisite detailing of the carvings. The dado frames and archway spandrels have been decorated with pietra dura inlays of highly stylised, almost geometric vines, flowers and fruits. The inlay stones are of yellow marble, jasper and jade, polished and levelled to the surface of the walls.
INTERIOR DECORATION
The interior chamber of the Taj Mahal reaches far beyond traditional decorative elements. The inlay work is not pietra dura, but a lapidary of precious and semiprecious gemstones. The inner chamber is an octagon with the design allowing for entry from each face, although only the door facing the garden to the south is used. The interior walls are about 25 metres high and are topped by a "false" interior dome decorated with a sun motif. Eight pishtaq arches define the space at ground level and, as with the exterior, each lower pishtaq is crowned by a second pishtaq about midway up the wall. The four central upper arches form balconies or viewing areas, and each balcony's exterior window has an intricate screen or jali cut from marble. In addition to the light from the balcony screens, light enters through roof openings covered by chattris at the corners. The octagonal marble screen or jali bordering the cenotaphs is made from eight marble panels carved through with intricate pierce work. The remaining surfaces are inlaid in delicate detail with semi-precious stones forming twining vines, fruits and flowers. Each chamber wall is highly decorated with dado bas-relief, intricate lapidary inlay and refined calligraphy panels which reflect, in miniature detail, the design elements seen throughout the exterior of the complex.
Muslim tradition forbids elaborate decoration of graves. Hence, the bodies of Mumtaz and Shah Jahan were put in a relatively plain crypt beneath the inner chamber with their faces turned right, towards Mecca. Mumtaz Mahal's cenotaph is placed at the precise centre of the inner chamber on a rectangular marble base of 1.5 by 2.5 metres. Both the base and casket are elaborately inlaid with precious and semiprecious gems. Calligraphic inscriptions on the casket identify and praise Mumtaz. On the lid of the casket is a raised rectangular lozenge meant to suggest a writing tablet. Shah Jahan's cenotaph is beside Mumtaz's to the western side, and is the only visible asymmetric element in the entire complex. His cenotaph is bigger than his wife's, but reflects the same elements: a larger casket on a slightly taller base precisely decorated with lapidary and calligraphy that identifies him. On the lid of the casket is a traditional sculpture of a small pen box.
The pen box and writing tablet are traditional Mughal funerary icons decorating the caskets of men and women respectively. The Ninety Nine Names of God are calligraphic inscriptions on the sides of the actual tomb of Mumtaz Mahal. Other inscriptions inside the crypt include, "O Noble, O Magnificent, O Majestic, O Unique, O Eternal, O Glorious... ". The tomb of Shah Jahan bears a calligraphic inscription that reads; "He travelled from this world to the banquet-hall of Eternity on the night of the twenty-sixth of the month of Rajab, in the year 1076 Hijri."
GARDEN
The complex is set around a large 300-metre square charbagh or Mughal garden. The garden uses raised pathways that divide each of the four quarters of the garden into 16 sunken parterres or flowerbeds. Halfway between the tomb and gateway in the center of the garden is a raised marble water tank with a reflecting pool positioned on a north-south axis to reflect the image of the mausoleum. The raised marble water tank is called al Hawd al-Kawthar in reference to the "Tank of Abundance" promised to Muhammad.
Elsewhere, the garden is laid out with avenues of trees and fountains. The charbagh garden, a design inspired by Persian gardens, was introduced to India by Babur, the first Mughal emperor. It symbolises the four flowing rivers of Jannah (Paradise) and reflects the Paradise garden derived from the Persian paridaeza, meaning 'walled garden'. In mystic Islamic texts of the Mughal period, Paradise is described as an ideal garden of abundance with four rivers flowing from a central spring or mountain, separating the garden into north, west, south and east.
Most Mughal charbaghs are rectangular with a tomb or pavilion in the center. The Taj Mahal garden is unusual in that the main element, the tomb, is located at the end of the garden. With the discovery of Mahtab Bagh or "Moonlight Garden" on the other side of the Yamuna, the interpretation of the Archaeological Survey of India is that the Yamuna river itself was incorporated into the garden's design and was meant to be seen as one of the rivers of Paradise. Similarities in layout and architectural features with the Shalimar Gardens suggests both gardens may have been designed by the same architect, Ali Mardan. Early accounts of the garden describe its profusion of vegetation, including abundant roses, daffodils, and fruit trees. As the Mughal Empire declined, the Taj Mahal and its gardens also declined. By the end of the 19th century, the British Empire controlled more than three-fifths of India, and assumed management of the Taj Mahal. They changed the landscaping to their liking which more closely resembled the formal lawns of London.
OUTLYING BUILDINGS
The Taj Mahal complex is bordered on three sides by crenellated red sandstone walls; the side facing the river is open. Outside the walls are several additional mausoleums, including those of Shah Jahan's other wives, and a larger tomb for Mumtaz's favourite servant.
The main gateway (darwaza) is a monumental structure built primarily of marble, and reminiscent of the Mughal architecture of earlier emperors. Its archways mirror the shape of the tomb's archways, and its pishtaq arches incorporate the calligraphy that decorates the tomb. The vaulted ceilings and walls have elaborate geometric designs like those found in the other sandstone buildings in the complex.
At the far end of the complex are two grand red sandstone buildings that mirror each other, and face the sides of the tomb. The backs of the buildings parallel the western and eastern walls. The western building is a mosque and the other is the jawab (answer), thought to have been constructed for architectural balance although it may have been used as a guesthouse. Distinctions between the two buildings include the jawab's lack of a mihrab (a niche in a mosque's wall facing Mecca), and its floors of geometric design whereas the floor of the mosque is laid with outlines of 569 prayer rugs in black marble. The mosque's basic design of a long hall surmounted by three domes is similar to others built by Shah Jahan, particularly the Masjid-i Jahān-Numā, or Jama Masjid, Delhi. The Mughal mosques of this period divide the sanctuary hall into three areas comprising a main sanctuary and slightly smaller sanctuaries on either side. At the Taj Mahal, each sanctuary opens onto an expansive vaulting dome. The outlying buildings were completed in 1643.
CONSTRUCTION
The Taj Mahal is built on a parcel of land to the south of the walled city of Agra. Shah Jahan presented Maharajah Jai Singh with a large palace in the center of Agra in exchange for the land. An area of roughly three acres was excavated, filled with dirt to reduce seepage, and leveled at 50 metres above riverbank. In the tomb area, wells were dug and filled with stone and rubble to form the footings of the tomb. Instead of lashed bamboo, workmen constructed a colossal brick scaffold that mirrored the tomb. The scaffold was so enormous that foremen estimated it would take years to dismantle.
The Taj Mahal was constructed using materials from all over India and Asia. It is believed over 1,000 elephants were used to transport building materials. The translucent white marble was brought from Makrana, Rajasthan, the jasper from Punjab, jade and crystal from China. The turquoise was from Tibet and the Lapis lazuli from Afghanistan, while the sapphire came from Sri Lanka and the carnelian from Arabia. In all, twenty eight types of precious and semi-precious stones were inlaid into the white marble.
According to the legend, Shah Jahan decreed that anyone could keep the bricks taken from the scaffold, and thus it was dismantled by peasants overnight. A fifteen kilometer tamped-earth ramp was built to transport marble and materials to the construction site and teams of twenty or thirty oxen pulled the blocks on specially constructed wagons. An elaborate post-and-beam pulley system was used to raise the blocks into desired position. Water was drawn from the river by a series of purs, an animal-powered rope and bucket mechanism, into a large storage tank and raised to a large distribution tank. It was passed into three subsidiary tanks, from which it was piped to the complex.
The plinth and tomb took roughly 12 years to complete. The remaining parts of the complex took an additional 10 years and were completed in order of minarets, mosque and jawab, and gateway. Since the complex was built in stages, discrepancies exist in completion dates due to differing opinions on "completion". Construction of the mausoleum itself was essentially completed by 1643 while work continued on the outlying buildings. Estimates of the cost of construction vary due to difficulties in estimating costs across time. The total cost has been estimated to be about 32 million Indian rupees, which is around 52.8 billion Indian rupees ($827 million US) based on 2015 values.
LATER DAYS
Abdul Hamid Lahauri in his book Badshahnama refers to Taj Mahal as rauza-i munawwara, meaning the illumined or illustrious tomb. Soon after the Taj Mahal's completion, Shah Jahan was deposed by his son Aurangzeb and put under house arrest at nearby Agra Fort. Upon Shah Jahan's death, Aurangzeb buried him in the mausoleum next to his wife. In the 18th century, the Jat rulers of Bharatpur invaded Agra and attacked the Taj Mahal, the two chandeliers, one of agate and another of silver, which were hung over the main cenotaph, were taken away by them, along with the gold and silver screen. Kanbo, a Mughal historian, said the gold shield which covered the 15-foot high finial at the top of the main dome was also removed during the Jat despoliation.
By the late 19th century, parts of the buildings had fallen into disrepair. During the time of the Indian rebellion of 1857, the Taj Mahal was defaced by British soldiers and government officials, who chiselled out precious stones and lapis lazuli from its walls. At the end of the 19th century, British viceroy Lord Curzon ordered a sweeping restoration project, which was completed in 1908. He also commissioned the large lamp in the interior chamber, modelled after one in a Cairo mosque. During this time the garden was remodelled with British-style lawns that are still in place today.
THREATS
In 1942, the government erected a scaffolding to disguise the building in anticipation of air attacks by the Japanese Air Force. During the India-Pakistan wars of 1965 and 1971, scaffoldings were again erected to mislead bomber pilots.
More recent threats have come from environmental pollution on the banks of Yamuna River including acid rain due to the Mathura Oil Refinery, which was opposed by Supreme Court of India directives. The pollution has been turning the Taj Mahal yellow. To help control the pollution, the Indian government has set up the Taj Trapezium Zone (TTZ), a 10,400-square-kilometre area around the monument where strict emissions standards are in place.
Concerns for the tomb's structural integrity have recently been raised because of a decline in the groundwater level in the Yamuna river basin which is falling at a rate of around 5 feet a year. In 2010, cracks appeared in parts of the tomb, and the minarets which surround the monument were showing signs of tilting, as the wooden foundation of the tomb may be rotting due to lack of water. In 2011 it was reported that some predictions indicated that the tomb could collapse within 5 years.
TOURISM
The Taj Mahal attracts a large number of tourists. UNESCO documented more than 2 million visitors in 2001, which increased to about 3 million in 2015. A two tier pricing system is in place, with a significantly lower entrance fee for Indian citizens and a more expensive one for foreigners. Most tourists visit in the cooler months of October, November and February. Polluting traffic is not allowed near the complex and tourists must either walk from parking lots or catch an electric bus. The Khawasspuras (northern courtyards) are currently being restored for use as a new visitor center.
The small town to the south of the Taj, known as Taj Ganji or Mumtazabad, was originally constructed with caravanserais, bazaars and markets to serve the needs of visitors and workmen. Lists of recommended travel destinations often feature the Taj Mahal, which also appears in several listings of seven wonders of the modern world, including the recently announced New Seven Wonders of the World, a recent poll with 100 million votes.
The grounds are open from 06:00 to 19:00 weekdays, except for Friday when the complex is open for prayers at the mosque between 12:00 and 14:00. The complex is open for night viewing on the day of the full moon and two days before and after, excluding Fridays and the month of Ramadan. For security reasons only five items - water in transparent bottles, small video cameras, still cameras, mobile phones and small ladies' purses - are allowed inside the Taj Mahal.
MYTHS
Ever since its construction, the building has been the source of an admiration transcending culture and geography, and so personal and emotional responses have consistently eclipsed scholastic appraisals of the monument. A longstanding myth holds that Shah Jahan planned a mausoleum to be built in black marble as a Black Taj Mahal across the Yamuna river. The idea originates from fanciful writings of Jean-Baptiste Tavernier, a European traveller who visited Agra in 1665. It was suggested that Shah Jahan was overthrown by his son Aurangzeb before it could be built. Ruins of blackened marble across the river in Moonlight Garden, Mahtab Bagh, seemed to support this legend. However, excavations carried out in the 1990s found that they were discolored white stones that had turned black. A more credible theory for the origins of the black mausoleum was demonstrated in 2006 by archaeologists who reconstructed part of the pool in the Moonlight Garden. A dark reflection of the white mausoleum could clearly be seen, befitting Shah Jahan's obsession with symmetry and the positioning of the pool itself.
No evidence exists for claims that describe, often in horrific detail, the deaths, dismemberments and mutilations which Shah Jahan supposedly inflicted on various architects and craftsmen associated with the tomb. Some stories claim that those involved in construction signed contracts committing themselves to have no part in any similar design. Similar claims are made for many famous buildings. No evidence exists for claims that Lord William Bentinck, governor-general of India in the 1830s, supposedly planned to demolish the Taj Mahal and auction off the marble. Bentinck's biographer John Rosselli says that the story arose from Bentinck's fund-raising sale of discarded marble from Agra Fort.
Another myth suggests that beating the silhouette of the finial will cause water to come forth. To this day, officials find broken bangles surrounding the silhouette.
In 2000, India's Supreme Court dismissed P. N. Oak's petition to declare that a Hindu king built the Taj Mahal. In 2005 a similar petition was dismissed by the Allahabad High Court. This case was brought by Amar Nath Mishra, a social worker and preacher who says that the Taj Mahal was built by the Hindu King Parmar Dev in 1196.
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The Taj Mahal (/ˌtɑːdʒ məˈhɑːl/, more often /ˈtɑːʒ/; from Persian and Arabic, "crown of palaces", pronounced [ˈt̪aːdʒ mɛˈɦɛl]) is a white marble mausoleum located on the southern bank of Yamuna River in the Indian city of Agra. It was commissioned in 1632 by the Mughal emperor Shah Jahan (reigned 1628–1658) to house the tomb of his favorite wife of three, Mumtaz Mahal.
Construction of the mausoleum was essentially completed in 1643 but work continued on other phases of the project for an additional ten years. The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around 32 million Indian rupees, which in 2015 would be valued at around 52.8 billion Indian rupees ($827 million US). The construction project employed around 20,000 artisans under the guidance of a board of architects led by Ustad Ahmad Lahauri. The domed marble tomb is part of an integrated complex consisting of gardens and two red-sandstone buildings surrounded by a crenellated wall on three sides.
The Taj Mahal is regarded by many as the best example of Mughal architecture and is widely recognized as "the jewel of Muslim art in India". It is one of the world’s most celebrated structures and a symbol of India’s rich history. Designated a UNESCO World Heritage Site in 1983, the Taj Mahal attracts some 3 million visitors a year.
INSPIRATION
In 1631, Shah Jahan, emperor during the Mughal empire's period of greatest prosperity, was grief-stricken when his favorite of three wives and beloved companion, Mumtaz Mahal, a Persian princess, died during the birth of their 14th child, Gauhara Begum. Construction of the Taj Mahal began in 1632. The court chronicles of Shah Jahan's grief illustrate the love story traditionally held as an inspiration for Taj Mahal. The principal mausoleum was completed in 1643 and the surrounding buildings and garden were finished about five years later.
ARCHITECTURE AND DESIGN
The Taj Mahal incorporates and expands on design traditions of Persian and earlier Mughal architecture. Specific inspiration came from successful Timurid and Mughal buildings including; the Gur-e Amir (the tomb of Timur, progenitor of the Mughal dynasty, in Samarkand), Humayun's Tomb, Itmad-Ud-Daulah's Tomb (sometimes called the Baby Taj), and Shah Jahan's own Jama Masjid in Delhi. While earlier Mughal buildings were primarily constructed of red sandstone, Shah Jahan promoted the use of white marble inlaid with semi-precious stones. Buildings under his patronage reached new levels of refinement.
TOMB
The tomb is the central focus of the entire complex of the Taj Mahal. It is a large, white marble structure standing on a square plinth and consists of a symmetrical building with an iwan (an arch-shaped doorway) topped by a large dome and finial. Like most Mughal tombs, the basic elements are Persian in origin.
The base structure is a large multi-chambered cube with chamfered corners forming an unequal eight-sided structure that is approximately 55 metres on each of the four long sides. Each side of the iwan is framed with a huge pishtaq or vaulted archway with two similarly shaped arched balconies stacked on either side. This motif of stacked pishtaqs is replicated on the chamfered corner areas, making the design completely symmetrical on all sides of the building. Four minarets frame the tomb, one at each corner of the plinth facing the chamfered corners. The main chamber houses the false sarcophagi of Mumtaz Mahal and Shah Jahan; the actual graves are at a lower level.
The most spectacular feature is the marble dome that surmounts the tomb. The dome is nearly 35 metres high which is close in measurement to the length of the base, and accentuated by the cylindrical "drum" it sits on which is approximately 7 metres high. Because of its shape, the dome is often called an onion dome or amrud (guava dome). The top is decorated with a lotus design which also serves to accentuate its height. The shape of the dome is emphasized by four smaller domed chattris (kiosks) placed at its corners, which replicate the onion shape of the main dome. Their columned bases open through the roof of the tomb and provide light to the interior. Tall decorative spires (guldastas) extend from edges of base walls, and provide visual emphasis to the height of the dome. The lotus motif is repeated on both the chattris and guldastas. The dome and chattris are topped by a gilded finial which mixes traditional Persian and Hindustani decorative elements.
The main finial was originally made of gold but was replaced by a copy made of gilded bronze in the early 19th century. This feature provides a clear example of integration of traditional Persian and Hindu decorative elements. The finial is topped by a moon, a typical Islamic motif whose horns point heavenward.
The minarets, which are each more than 40 metres tall, display the designer's penchant for symmetry. They were designed as working minarets - a traditional element of mosques, used by the muezzin to call the Islamic faithful to prayer. Each minaret is effectively divided into three equal parts by two working balconies that ring the tower. At the top of the tower is a final balcony surmounted by a chattri that mirrors the design of those on the tomb. The chattris all share the same decorative elements of a lotus design topped by a gilded finial. The minarets were constructed slightly outside of the plinth so that in the event of collapse, a typical occurrence with many tall constructions of the period, the material from the towers would tend to fall away from the tomb.
EXTERIOR DECORATIONS
The exterior decorations of the Taj Mahal are among the finest in Mughal architecture. As the surface area changes, the decorations are refined proportionally. The decorative elements were created by applying paint, stucco, stone inlays or carvings. In line with the Islamic prohibition against the use of anthropomorphic forms, the decorative elements can be grouped into either calligraphy, abstract forms or vegetative motifs. Throughout the complex are passages from the Qur'an that comprise some of the decorative elements. Recent scholarship suggests that the passages were chosen by Amanat Khan.
The calligraphy on the Great Gate reads "O Soul, thou art at rest. Return to the Lord at peace with Him, and He at peace with you." The calligraphy was created in 1609 by a calligrapher named Abdul Haq. Shah Jahan conferred the title of "Amanat Khan" upon him as a reward for his "dazzling virtuosity". Near the lines from the Qur'an at the base of the interior dome is the inscription, "Written by the insignificant being, Amanat Khan Shirazi." Much of the calligraphy is composed of florid thuluth script made of jasper or black marble inlaid in white marble panels. Higher panels are written in slightly larger script to reduce the skewing effect when viewed from below. The calligraphy found on the marble cenotaphs in the tomb is particularly detailed and delicate.
Abstract forms are used throughout, especially in the plinth, minarets, gateway, mosque, jawab and, to a lesser extent, on the surfaces of the tomb. The domes and vaults of the sandstone buildings are worked with tracery of incised painting to create elaborate geometric forms. Herringbone inlays define the space between many of the adjoining elements. White inlays are used in sandstone buildings, and dark or black inlays on the white marbles. Mortared areas of the marble buildings have been stained or painted in a contrasting color which creates a complex array of geometric patterns. Floors and walkways use contrasting tiles or blocks in tessellation patterns.
On the lower walls of the tomb are white marble dados sculpted with realistic bas relief depictions of flowers and vines. The marble has been polished to emphasise the exquisite detailing of the carvings. The dado frames and archway spandrels have been decorated with pietra dura inlays of highly stylised, almost geometric vines, flowers and fruits. The inlay stones are of yellow marble, jasper and jade, polished and levelled to the surface of the walls.
INTERIOR DECORATION
The interior chamber of the Taj Mahal reaches far beyond traditional decorative elements. The inlay work is not pietra dura, but a lapidary of precious and semiprecious gemstones. The inner chamber is an octagon with the design allowing for entry from each face, although only the door facing the garden to the south is used. The interior walls are about 25 metres high and are topped by a "false" interior dome decorated with a sun motif. Eight pishtaq arches define the space at ground level and, as with the exterior, each lower pishtaq is crowned by a second pishtaq about midway up the wall. The four central upper arches form balconies or viewing areas, and each balcony's exterior window has an intricate screen or jali cut from marble. In addition to the light from the balcony screens, light enters through roof openings covered by chattris at the corners. The octagonal marble screen or jali bordering the cenotaphs is made from eight marble panels carved through with intricate pierce work. The remaining surfaces are inlaid in delicate detail with semi-precious stones forming twining vines, fruits and flowers. Each chamber wall is highly decorated with dado bas-relief, intricate lapidary inlay and refined calligraphy panels which reflect, in miniature detail, the design elements seen throughout the exterior of the complex.
Muslim tradition forbids elaborate decoration of graves. Hence, the bodies of Mumtaz and Shah Jahan were put in a relatively plain crypt beneath the inner chamber with their faces turned right, towards Mecca. Mumtaz Mahal's cenotaph is placed at the precise centre of the inner chamber on a rectangular marble base of 1.5 by 2.5 metres. Both the base and casket are elaborately inlaid with precious and semiprecious gems. Calligraphic inscriptions on the casket identify and praise Mumtaz. On the lid of the casket is a raised rectangular lozenge meant to suggest a writing tablet. Shah Jahan's cenotaph is beside Mumtaz's to the western side, and is the only visible asymmetric element in the entire complex. His cenotaph is bigger than his wife's, but reflects the same elements: a larger casket on a slightly taller base precisely decorated with lapidary and calligraphy that identifies him. On the lid of the casket is a traditional sculpture of a small pen box.
The pen box and writing tablet are traditional Mughal funerary icons decorating the caskets of men and women respectively. The Ninety Nine Names of God are calligraphic inscriptions on the sides of the actual tomb of Mumtaz Mahal. Other inscriptions inside the crypt include, "O Noble, O Magnificent, O Majestic, O Unique, O Eternal, O Glorious... ". The tomb of Shah Jahan bears a calligraphic inscription that reads; "He travelled from this world to the banquet-hall of Eternity on the night of the twenty-sixth of the month of Rajab, in the year 1076 Hijri."
GARDEN
The complex is set around a large 300-metre square charbagh or Mughal garden. The garden uses raised pathways that divide each of the four quarters of the garden into 16 sunken parterres or flowerbeds. Halfway between the tomb and gateway in the center of the garden is a raised marble water tank with a reflecting pool positioned on a north-south axis to reflect the image of the mausoleum. The raised marble water tank is called al Hawd al-Kawthar in reference to the "Tank of Abundance" promised to Muhammad.
Elsewhere, the garden is laid out with avenues of trees and fountains. The charbagh garden, a design inspired by Persian gardens, was introduced to India by Babur, the first Mughal emperor. It symbolises the four flowing rivers of Jannah (Paradise) and reflects the Paradise garden derived from the Persian paridaeza, meaning 'walled garden'. In mystic Islamic texts of the Mughal period, Paradise is described as an ideal garden of abundance with four rivers flowing from a central spring or mountain, separating the garden into north, west, south and east.
Most Mughal charbaghs are rectangular with a tomb or pavilion in the center. The Taj Mahal garden is unusual in that the main element, the tomb, is located at the end of the garden. With the discovery of Mahtab Bagh or "Moonlight Garden" on the other side of the Yamuna, the interpretation of the Archaeological Survey of India is that the Yamuna river itself was incorporated into the garden's design and was meant to be seen as one of the rivers of Paradise. Similarities in layout and architectural features with the Shalimar Gardens suggests both gardens may have been designed by the same architect, Ali Mardan. Early accounts of the garden describe its profusion of vegetation, including abundant roses, daffodils, and fruit trees. As the Mughal Empire declined, the Taj Mahal and its gardens also declined. By the end of the 19th century, the British Empire controlled more than three-fifths of India, and assumed management of the Taj Mahal. They changed the landscaping to their liking which more closely resembled the formal lawns of London.
OUTLYING BUILDINGS
The Taj Mahal complex is bordered on three sides by crenellated red sandstone walls; the side facing the river is open. Outside the walls are several additional mausoleums, including those of Shah Jahan's other wives, and a larger tomb for Mumtaz's favourite servant.
The main gateway (darwaza) is a monumental structure built primarily of marble, and reminiscent of the Mughal architecture of earlier emperors. Its archways mirror the shape of the tomb's archways, and its pishtaq arches incorporate the calligraphy that decorates the tomb. The vaulted ceilings and walls have elaborate geometric designs like those found in the other sandstone buildings in the complex.
At the far end of the complex are two grand red sandstone buildings that mirror each other, and face the sides of the tomb. The backs of the buildings parallel the western and eastern walls. The western building is a mosque and the other is the jawab (answer), thought to have been constructed for architectural balance although it may have been used as a guesthouse. Distinctions between the two buildings include the jawab's lack of a mihrab (a niche in a mosque's wall facing Mecca), and its floors of geometric design whereas the floor of the mosque is laid with outlines of 569 prayer rugs in black marble. The mosque's basic design of a long hall surmounted by three domes is similar to others built by Shah Jahan, particularly the Masjid-i Jahān-Numā, or Jama Masjid, Delhi. The Mughal mosques of this period divide the sanctuary hall into three areas comprising a main sanctuary and slightly smaller sanctuaries on either side. At the Taj Mahal, each sanctuary opens onto an expansive vaulting dome. The outlying buildings were completed in 1643.
CONSTRUCTION
The Taj Mahal is built on a parcel of land to the south of the walled city of Agra. Shah Jahan presented Maharajah Jai Singh with a large palace in the center of Agra in exchange for the land. An area of roughly three acres was excavated, filled with dirt to reduce seepage, and leveled at 50 metres above riverbank. In the tomb area, wells were dug and filled with stone and rubble to form the footings of the tomb. Instead of lashed bamboo, workmen constructed a colossal brick scaffold that mirrored the tomb. The scaffold was so enormous that foremen estimated it would take years to dismantle.
The Taj Mahal was constructed using materials from all over India and Asia. It is believed over 1,000 elephants were used to transport building materials. The translucent white marble was brought from Makrana, Rajasthan, the jasper from Punjab, jade and crystal from China. The turquoise was from Tibet and the Lapis lazuli from Afghanistan, while the sapphire came from Sri Lanka and the carnelian from Arabia. In all, twenty eight types of precious and semi-precious stones were inlaid into the white marble.
According to the legend, Shah Jahan decreed that anyone could keep the bricks taken from the scaffold, and thus it was dismantled by peasants overnight. A fifteen kilometer tamped-earth ramp was built to transport marble and materials to the construction site and teams of twenty or thirty oxen pulled the blocks on specially constructed wagons. An elaborate post-and-beam pulley system was used to raise the blocks into desired position. Water was drawn from the river by a series of purs, an animal-powered rope and bucket mechanism, into a large storage tank and raised to a large distribution tank. It was passed into three subsidiary tanks, from which it was piped to the complex.
The plinth and tomb took roughly 12 years to complete. The remaining parts of the complex took an additional 10 years and were completed in order of minarets, mosque and jawab, and gateway. Since the complex was built in stages, discrepancies exist in completion dates due to differing opinions on "completion". Construction of the mausoleum itself was essentially completed by 1643 while work continued on the outlying buildings. Estimates of the cost of construction vary due to difficulties in estimating costs across time. The total cost has been estimated to be about 32 million Indian rupees, which is around 52.8 billion Indian rupees ($827 million US) based on 2015 values.
LATER DAYS
Abdul Hamid Lahauri in his book Badshahnama refers to Taj Mahal as rauza-i munawwara, meaning the illumined or illustrious tomb. Soon after the Taj Mahal's completion, Shah Jahan was deposed by his son Aurangzeb and put under house arrest at nearby Agra Fort. Upon Shah Jahan's death, Aurangzeb buried him in the mausoleum next to his wife. In the 18th century, the Jat rulers of Bharatpur invaded Agra and attacked the Taj Mahal, the two chandeliers, one of agate and another of silver, which were hung over the main cenotaph, were taken away by them, along with the gold and silver screen. Kanbo, a Mughal historian, said the gold shield which covered the 15-foot high finial at the top of the main dome was also removed during the Jat despoliation.
By the late 19th century, parts of the buildings had fallen into disrepair. During the time of the Indian rebellion of 1857, the Taj Mahal was defaced by British soldiers and government officials, who chiselled out precious stones and lapis lazuli from its walls. At the end of the 19th century, British viceroy Lord Curzon ordered a sweeping restoration project, which was completed in 1908. He also commissioned the large lamp in the interior chamber, modelled after one in a Cairo mosque. During this time the garden was remodelled with British-style lawns that are still in place today.
THREATS
In 1942, the government erected a scaffolding to disguise the building in anticipation of air attacks by the Japanese Air Force. During the India-Pakistan wars of 1965 and 1971, scaffoldings were again erected to mislead bomber pilots.
More recent threats have come from environmental pollution on the banks of Yamuna River including acid rain due to the Mathura Oil Refinery, which was opposed by Supreme Court of India directives. The pollution has been turning the Taj Mahal yellow. To help control the pollution, the Indian government has set up the Taj Trapezium Zone (TTZ), a 10,400-square-kilometre area around the monument where strict emissions standards are in place.
Concerns for the tomb's structural integrity have recently been raised because of a decline in the groundwater level in the Yamuna river basin which is falling at a rate of around 5 feet a year. In 2010, cracks appeared in parts of the tomb, and the minarets which surround the monument were showing signs of tilting, as the wooden foundation of the tomb may be rotting due to lack of water. In 2011 it was reported that some predictions indicated that the tomb could collapse within 5 years.
TOURISM
The Taj Mahal attracts a large number of tourists. UNESCO documented more than 2 million visitors in 2001, which increased to about 3 million in 2015. A two tier pricing system is in place, with a significantly lower entrance fee for Indian citizens and a more expensive one for foreigners. Most tourists visit in the cooler months of October, November and February. Polluting traffic is not allowed near the complex and tourists must either walk from parking lots or catch an electric bus. The Khawasspuras (northern courtyards) are currently being restored for use as a new visitor center.
The small town to the south of the Taj, known as Taj Ganji or Mumtazabad, was originally constructed with caravanserais, bazaars and markets to serve the needs of visitors and workmen. Lists of recommended travel destinations often feature the Taj Mahal, which also appears in several listings of seven wonders of the modern world, including the recently announced New Seven Wonders of the World, a recent poll with 100 million votes.
The grounds are open from 06:00 to 19:00 weekdays, except for Friday when the complex is open for prayers at the mosque between 12:00 and 14:00. The complex is open for night viewing on the day of the full moon and two days before and after, excluding Fridays and the month of Ramadan. For security reasons only five items - water in transparent bottles, small video cameras, still cameras, mobile phones and small ladies' purses - are allowed inside the Taj Mahal.
MYTHS
Ever since its construction, the building has been the source of an admiration transcending culture and geography, and so personal and emotional responses have consistently eclipsed scholastic appraisals of the monument. A longstanding myth holds that Shah Jahan planned a mausoleum to be built in black marble as a Black Taj Mahal across the Yamuna river. The idea originates from fanciful writings of Jean-Baptiste Tavernier, a European traveller who visited Agra in 1665. It was suggested that Shah Jahan was overthrown by his son Aurangzeb before it could be built. Ruins of blackened marble across the river in Moonlight Garden, Mahtab Bagh, seemed to support this legend. However, excavations carried out in the 1990s found that they were discolored white stones that had turned black. A more credible theory for the origins of the black mausoleum was demonstrated in 2006 by archaeologists who reconstructed part of the pool in the Moonlight Garden. A dark reflection of the white mausoleum could clearly be seen, befitting Shah Jahan's obsession with symmetry and the positioning of the pool itself.
No evidence exists for claims that describe, often in horrific detail, the deaths, dismemberments and mutilations which Shah Jahan supposedly inflicted on various architects and craftsmen associated with the tomb. Some stories claim that those involved in construction signed contracts committing themselves to have no part in any similar design. Similar claims are made for many famous buildings. No evidence exists for claims that Lord William Bentinck, governor-general of India in the 1830s, supposedly planned to demolish the Taj Mahal and auction off the marble. Bentinck's biographer John Rosselli says that the story arose from Bentinck's fund-raising sale of discarded marble from Agra Fort.
Another myth suggests that beating the silhouette of the finial will cause water to come forth. To this day, officials find broken bangles surrounding the silhouette.
In 2000, India's Supreme Court dismissed P. N. Oak's petition to declare that a Hindu king built the Taj Mahal. In 2005 a similar petition was dismissed by the Allahabad High Court. This case was brought by Amar Nath Mishra, a social worker and preacher who says that the Taj Mahal was built by the Hindu King Parmar Dev in 1196.
WIKIPEDIA
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The Taj Mahal (/ˌtɑːdʒ məˈhɑːl/, more often /ˈtɑːʒ/; from Persian and Arabic, "crown of palaces", pronounced [ˈt̪aːdʒ mɛˈɦɛl]) is a white marble mausoleum located on the southern bank of Yamuna River in the Indian city of Agra. It was commissioned in 1632 by the Mughal emperor Shah Jahan (reigned 1628–1658) to house the tomb of his favorite wife of three, Mumtaz Mahal.
Construction of the mausoleum was essentially completed in 1643 but work continued on other phases of the project for an additional ten years. The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around 32 million Indian rupees, which in 2015 would be valued at around 52.8 billion Indian rupees ($827 million US). The construction project employed around 20,000 artisans under the guidance of a board of architects led by Ustad Ahmad Lahauri. The domed marble tomb is part of an integrated complex consisting of gardens and two red-sandstone buildings surrounded by a crenellated wall on three sides.
The Taj Mahal is regarded by many as the best example of Mughal architecture and is widely recognized as "the jewel of Muslim art in India". It is one of the world’s most celebrated structures and a symbol of India’s rich history. Designated a UNESCO World Heritage Site in 1983, the Taj Mahal attracts some 3 million visitors a year.
INSPIRATION
In 1631, Shah Jahan, emperor during the Mughal empire's period of greatest prosperity, was grief-stricken when his favorite of three wives and beloved companion, Mumtaz Mahal, a Persian princess, died during the birth of their 14th child, Gauhara Begum. Construction of the Taj Mahal began in 1632. The court chronicles of Shah Jahan's grief illustrate the love story traditionally held as an inspiration for Taj Mahal. The principal mausoleum was completed in 1643 and the surrounding buildings and garden were finished about five years later.
ARCHITECTURE AND DESIGN
The Taj Mahal incorporates and expands on design traditions of Persian and earlier Mughal architecture. Specific inspiration came from successful Timurid and Mughal buildings including; the Gur-e Amir (the tomb of Timur, progenitor of the Mughal dynasty, in Samarkand), Humayun's Tomb, Itmad-Ud-Daulah's Tomb (sometimes called the Baby Taj), and Shah Jahan's own Jama Masjid in Delhi. While earlier Mughal buildings were primarily constructed of red sandstone, Shah Jahan promoted the use of white marble inlaid with semi-precious stones. Buildings under his patronage reached new levels of refinement.
TOMB
The tomb is the central focus of the entire complex of the Taj Mahal. It is a large, white marble structure standing on a square plinth and consists of a symmetrical building with an iwan (an arch-shaped doorway) topped by a large dome and finial. Like most Mughal tombs, the basic elements are Persian in origin.
The base structure is a large multi-chambered cube with chamfered corners forming an unequal eight-sided structure that is approximately 55 metres on each of the four long sides. Each side of the iwan is framed with a huge pishtaq or vaulted archway with two similarly shaped arched balconies stacked on either side. This motif of stacked pishtaqs is replicated on the chamfered corner areas, making the design completely symmetrical on all sides of the building. Four minarets frame the tomb, one at each corner of the plinth facing the chamfered corners. The main chamber houses the false sarcophagi of Mumtaz Mahal and Shah Jahan; the actual graves are at a lower level.
The most spectacular feature is the marble dome that surmounts the tomb. The dome is nearly 35 metres high which is close in measurement to the length of the base, and accentuated by the cylindrical "drum" it sits on which is approximately 7 metres high. Because of its shape, the dome is often called an onion dome or amrud (guava dome). The top is decorated with a lotus design which also serves to accentuate its height. The shape of the dome is emphasized by four smaller domed chattris (kiosks) placed at its corners, which replicate the onion shape of the main dome. Their columned bases open through the roof of the tomb and provide light to the interior. Tall decorative spires (guldastas) extend from edges of base walls, and provide visual emphasis to the height of the dome. The lotus motif is repeated on both the chattris and guldastas. The dome and chattris are topped by a gilded finial which mixes traditional Persian and Hindustani decorative elements.
The main finial was originally made of gold but was replaced by a copy made of gilded bronze in the early 19th century. This feature provides a clear example of integration of traditional Persian and Hindu decorative elements. The finial is topped by a moon, a typical Islamic motif whose horns point heavenward.
The minarets, which are each more than 40 metres tall, display the designer's penchant for symmetry. They were designed as working minarets - a traditional element of mosques, used by the muezzin to call the Islamic faithful to prayer. Each minaret is effectively divided into three equal parts by two working balconies that ring the tower. At the top of the tower is a final balcony surmounted by a chattri that mirrors the design of those on the tomb. The chattris all share the same decorative elements of a lotus design topped by a gilded finial. The minarets were constructed slightly outside of the plinth so that in the event of collapse, a typical occurrence with many tall constructions of the period, the material from the towers would tend to fall away from the tomb.
EXTERIOR DECORATIONS
The exterior decorations of the Taj Mahal are among the finest in Mughal architecture. As the surface area changes, the decorations are refined proportionally. The decorative elements were created by applying paint, stucco, stone inlays or carvings. In line with the Islamic prohibition against the use of anthropomorphic forms, the decorative elements can be grouped into either calligraphy, abstract forms or vegetative motifs. Throughout the complex are passages from the Qur'an that comprise some of the decorative elements. Recent scholarship suggests that the passages were chosen by Amanat Khan.
The calligraphy on the Great Gate reads "O Soul, thou art at rest. Return to the Lord at peace with Him, and He at peace with you." The calligraphy was created in 1609 by a calligrapher named Abdul Haq. Shah Jahan conferred the title of "Amanat Khan" upon him as a reward for his "dazzling virtuosity". Near the lines from the Qur'an at the base of the interior dome is the inscription, "Written by the insignificant being, Amanat Khan Shirazi." Much of the calligraphy is composed of florid thuluth script made of jasper or black marble inlaid in white marble panels. Higher panels are written in slightly larger script to reduce the skewing effect when viewed from below. The calligraphy found on the marble cenotaphs in the tomb is particularly detailed and delicate.
Abstract forms are used throughout, especially in the plinth, minarets, gateway, mosque, jawab and, to a lesser extent, on the surfaces of the tomb. The domes and vaults of the sandstone buildings are worked with tracery of incised painting to create elaborate geometric forms. Herringbone inlays define the space between many of the adjoining elements. White inlays are used in sandstone buildings, and dark or black inlays on the white marbles. Mortared areas of the marble buildings have been stained or painted in a contrasting color which creates a complex array of geometric patterns. Floors and walkways use contrasting tiles or blocks in tessellation patterns.
On the lower walls of the tomb are white marble dados sculpted with realistic bas relief depictions of flowers and vines. The marble has been polished to emphasise the exquisite detailing of the carvings. The dado frames and archway spandrels have been decorated with pietra dura inlays of highly stylised, almost geometric vines, flowers and fruits. The inlay stones are of yellow marble, jasper and jade, polished and levelled to the surface of the walls.
INTERIOR DECORATION
The interior chamber of the Taj Mahal reaches far beyond traditional decorative elements. The inlay work is not pietra dura, but a lapidary of precious and semiprecious gemstones. The inner chamber is an octagon with the design allowing for entry from each face, although only the door facing the garden to the south is used. The interior walls are about 25 metres high and are topped by a "false" interior dome decorated with a sun motif. Eight pishtaq arches define the space at ground level and, as with the exterior, each lower pishtaq is crowned by a second pishtaq about midway up the wall. The four central upper arches form balconies or viewing areas, and each balcony's exterior window has an intricate screen or jali cut from marble. In addition to the light from the balcony screens, light enters through roof openings covered by chattris at the corners. The octagonal marble screen or jali bordering the cenotaphs is made from eight marble panels carved through with intricate pierce work. The remaining surfaces are inlaid in delicate detail with semi-precious stones forming twining vines, fruits and flowers. Each chamber wall is highly decorated with dado bas-relief, intricate lapidary inlay and refined calligraphy panels which reflect, in miniature detail, the design elements seen throughout the exterior of the complex.
Muslim tradition forbids elaborate decoration of graves. Hence, the bodies of Mumtaz and Shah Jahan were put in a relatively plain crypt beneath the inner chamber with their faces turned right, towards Mecca. Mumtaz Mahal's cenotaph is placed at the precise centre of the inner chamber on a rectangular marble base of 1.5 by 2.5 metres. Both the base and casket are elaborately inlaid with precious and semiprecious gems. Calligraphic inscriptions on the casket identify and praise Mumtaz. On the lid of the casket is a raised rectangular lozenge meant to suggest a writing tablet. Shah Jahan's cenotaph is beside Mumtaz's to the western side, and is the only visible asymmetric element in the entire complex. His cenotaph is bigger than his wife's, but reflects the same elements: a larger casket on a slightly taller base precisely decorated with lapidary and calligraphy that identifies him. On the lid of the casket is a traditional sculpture of a small pen box.
The pen box and writing tablet are traditional Mughal funerary icons decorating the caskets of men and women respectively. The Ninety Nine Names of God are calligraphic inscriptions on the sides of the actual tomb of Mumtaz Mahal. Other inscriptions inside the crypt include, "O Noble, O Magnificent, O Majestic, O Unique, O Eternal, O Glorious... ". The tomb of Shah Jahan bears a calligraphic inscription that reads; "He travelled from this world to the banquet-hall of Eternity on the night of the twenty-sixth of the month of Rajab, in the year 1076 Hijri."
GARDEN
The complex is set around a large 300-metre square charbagh or Mughal garden. The garden uses raised pathways that divide each of the four quarters of the garden into 16 sunken parterres or flowerbeds. Halfway between the tomb and gateway in the center of the garden is a raised marble water tank with a reflecting pool positioned on a north-south axis to reflect the image of the mausoleum. The raised marble water tank is called al Hawd al-Kawthar in reference to the "Tank of Abundance" promised to Muhammad.
Elsewhere, the garden is laid out with avenues of trees and fountains. The charbagh garden, a design inspired by Persian gardens, was introduced to India by Babur, the first Mughal emperor. It symbolises the four flowing rivers of Jannah (Paradise) and reflects the Paradise garden derived from the Persian paridaeza, meaning 'walled garden'. In mystic Islamic texts of the Mughal period, Paradise is described as an ideal garden of abundance with four rivers flowing from a central spring or mountain, separating the garden into north, west, south and east.
Most Mughal charbaghs are rectangular with a tomb or pavilion in the center. The Taj Mahal garden is unusual in that the main element, the tomb, is located at the end of the garden. With the discovery of Mahtab Bagh or "Moonlight Garden" on the other side of the Yamuna, the interpretation of the Archaeological Survey of India is that the Yamuna river itself was incorporated into the garden's design and was meant to be seen as one of the rivers of Paradise. Similarities in layout and architectural features with the Shalimar Gardens suggests both gardens may have been designed by the same architect, Ali Mardan. Early accounts of the garden describe its profusion of vegetation, including abundant roses, daffodils, and fruit trees. As the Mughal Empire declined, the Taj Mahal and its gardens also declined. By the end of the 19th century, the British Empire controlled more than three-fifths of India, and assumed management of the Taj Mahal. They changed the landscaping to their liking which more closely resembled the formal lawns of London.
OUTLYING BUILDINGS
The Taj Mahal complex is bordered on three sides by crenellated red sandstone walls; the side facing the river is open. Outside the walls are several additional mausoleums, including those of Shah Jahan's other wives, and a larger tomb for Mumtaz's favourite servant.
The main gateway (darwaza) is a monumental structure built primarily of marble, and reminiscent of the Mughal architecture of earlier emperors. Its archways mirror the shape of the tomb's archways, and its pishtaq arches incorporate the calligraphy that decorates the tomb. The vaulted ceilings and walls have elaborate geometric designs like those found in the other sandstone buildings in the complex.
At the far end of the complex are two grand red sandstone buildings that mirror each other, and face the sides of the tomb. The backs of the buildings parallel the western and eastern walls. The western building is a mosque and the other is the jawab (answer), thought to have been constructed for architectural balance although it may have been used as a guesthouse. Distinctions between the two buildings include the jawab's lack of a mihrab (a niche in a mosque's wall facing Mecca), and its floors of geometric design whereas the floor of the mosque is laid with outlines of 569 prayer rugs in black marble. The mosque's basic design of a long hall surmounted by three domes is similar to others built by Shah Jahan, particularly the Masjid-i Jahān-Numā, or Jama Masjid, Delhi. The Mughal mosques of this period divide the sanctuary hall into three areas comprising a main sanctuary and slightly smaller sanctuaries on either side. At the Taj Mahal, each sanctuary opens onto an expansive vaulting dome. The outlying buildings were completed in 1643.
CONSTRUCTION
The Taj Mahal is built on a parcel of land to the south of the walled city of Agra. Shah Jahan presented Maharajah Jai Singh with a large palace in the center of Agra in exchange for the land. An area of roughly three acres was excavated, filled with dirt to reduce seepage, and leveled at 50 metres above riverbank. In the tomb area, wells were dug and filled with stone and rubble to form the footings of the tomb. Instead of lashed bamboo, workmen constructed a colossal brick scaffold that mirrored the tomb. The scaffold was so enormous that foremen estimated it would take years to dismantle.
The Taj Mahal was constructed using materials from all over India and Asia. It is believed over 1,000 elephants were used to transport building materials. The translucent white marble was brought from Makrana, Rajasthan, the jasper from Punjab, jade and crystal from China. The turquoise was from Tibet and the Lapis lazuli from Afghanistan, while the sapphire came from Sri Lanka and the carnelian from Arabia. In all, twenty eight types of precious and semi-precious stones were inlaid into the white marble.
According to the legend, Shah Jahan decreed that anyone could keep the bricks taken from the scaffold, and thus it was dismantled by peasants overnight. A fifteen kilometer tamped-earth ramp was built to transport marble and materials to the construction site and teams of twenty or thirty oxen pulled the blocks on specially constructed wagons. An elaborate post-and-beam pulley system was used to raise the blocks into desired position. Water was drawn from the river by a series of purs, an animal-powered rope and bucket mechanism, into a large storage tank and raised to a large distribution tank. It was passed into three subsidiary tanks, from which it was piped to the complex.
The plinth and tomb took roughly 12 years to complete. The remaining parts of the complex took an additional 10 years and were completed in order of minarets, mosque and jawab, and gateway. Since the complex was built in stages, discrepancies exist in completion dates due to differing opinions on "completion". Construction of the mausoleum itself was essentially completed by 1643 while work continued on the outlying buildings. Estimates of the cost of construction vary due to difficulties in estimating costs across time. The total cost has been estimated to be about 32 million Indian rupees, which is around 52.8 billion Indian rupees ($827 million US) based on 2015 values.
LATER DAYS
Abdul Hamid Lahauri in his book Badshahnama refers to Taj Mahal as rauza-i munawwara, meaning the illumined or illustrious tomb. Soon after the Taj Mahal's completion, Shah Jahan was deposed by his son Aurangzeb and put under house arrest at nearby Agra Fort. Upon Shah Jahan's death, Aurangzeb buried him in the mausoleum next to his wife. In the 18th century, the Jat rulers of Bharatpur invaded Agra and attacked the Taj Mahal, the two chandeliers, one of agate and another of silver, which were hung over the main cenotaph, were taken away by them, along with the gold and silver screen. Kanbo, a Mughal historian, said the gold shield which covered the 15-foot high finial at the top of the main dome was also removed during the Jat despoliation.
By the late 19th century, parts of the buildings had fallen into disrepair. During the time of the Indian rebellion of 1857, the Taj Mahal was defaced by British soldiers and government officials, who chiselled out precious stones and lapis lazuli from its walls. At the end of the 19th century, British viceroy Lord Curzon ordered a sweeping restoration project, which was completed in 1908. He also commissioned the large lamp in the interior chamber, modelled after one in a Cairo mosque. During this time the garden was remodelled with British-style lawns that are still in place today.
THREATS
In 1942, the government erected a scaffolding to disguise the building in anticipation of air attacks by the Japanese Air Force. During the India-Pakistan wars of 1965 and 1971, scaffoldings were again erected to mislead bomber pilots.
More recent threats have come from environmental pollution on the banks of Yamuna River including acid rain due to the Mathura Oil Refinery, which was opposed by Supreme Court of India directives. The pollution has been turning the Taj Mahal yellow. To help control the pollution, the Indian government has set up the Taj Trapezium Zone (TTZ), a 10,400-square-kilometre area around the monument where strict emissions standards are in place.
Concerns for the tomb's structural integrity have recently been raised because of a decline in the groundwater level in the Yamuna river basin which is falling at a rate of around 5 feet a year. In 2010, cracks appeared in parts of the tomb, and the minarets which surround the monument were showing signs of tilting, as the wooden foundation of the tomb may be rotting due to lack of water. In 2011 it was reported that some predictions indicated that the tomb could collapse within 5 years.
TOURISM
The Taj Mahal attracts a large number of tourists. UNESCO documented more than 2 million visitors in 2001, which increased to about 3 million in 2015. A two tier pricing system is in place, with a significantly lower entrance fee for Indian citizens and a more expensive one for foreigners. Most tourists visit in the cooler months of October, November and February. Polluting traffic is not allowed near the complex and tourists must either walk from parking lots or catch an electric bus. The Khawasspuras (northern courtyards) are currently being restored for use as a new visitor center.
The small town to the south of the Taj, known as Taj Ganji or Mumtazabad, was originally constructed with caravanserais, bazaars and markets to serve the needs of visitors and workmen. Lists of recommended travel destinations often feature the Taj Mahal, which also appears in several listings of seven wonders of the modern world, including the recently announced New Seven Wonders of the World, a recent poll with 100 million votes.
The grounds are open from 06:00 to 19:00 weekdays, except for Friday when the complex is open for prayers at the mosque between 12:00 and 14:00. The complex is open for night viewing on the day of the full moon and two days before and after, excluding Fridays and the month of Ramadan. For security reasons only five items - water in transparent bottles, small video cameras, still cameras, mobile phones and small ladies' purses - are allowed inside the Taj Mahal.
MYTHS
Ever since its construction, the building has been the source of an admiration transcending culture and geography, and so personal and emotional responses have consistently eclipsed scholastic appraisals of the monument. A longstanding myth holds that Shah Jahan planned a mausoleum to be built in black marble as a Black Taj Mahal across the Yamuna river. The idea originates from fanciful writings of Jean-Baptiste Tavernier, a European traveller who visited Agra in 1665. It was suggested that Shah Jahan was overthrown by his son Aurangzeb before it could be built. Ruins of blackened marble across the river in Moonlight Garden, Mahtab Bagh, seemed to support this legend. However, excavations carried out in the 1990s found that they were discolored white stones that had turned black. A more credible theory for the origins of the black mausoleum was demonstrated in 2006 by archaeologists who reconstructed part of the pool in the Moonlight Garden. A dark reflection of the white mausoleum could clearly be seen, befitting Shah Jahan's obsession with symmetry and the positioning of the pool itself.
No evidence exists for claims that describe, often in horrific detail, the deaths, dismemberments and mutilations which Shah Jahan supposedly inflicted on various architects and craftsmen associated with the tomb. Some stories claim that those involved in construction signed contracts committing themselves to have no part in any similar design. Similar claims are made for many famous buildings. No evidence exists for claims that Lord William Bentinck, governor-general of India in the 1830s, supposedly planned to demolish the Taj Mahal and auction off the marble. Bentinck's biographer John Rosselli says that the story arose from Bentinck's fund-raising sale of discarded marble from Agra Fort.
Another myth suggests that beating the silhouette of the finial will cause water to come forth. To this day, officials find broken bangles surrounding the silhouette.
In 2000, India's Supreme Court dismissed P. N. Oak's petition to declare that a Hindu king built the Taj Mahal. In 2005 a similar petition was dismissed by the Allahabad High Court. This case was brought by Amar Nath Mishra, a social worker and preacher who says that the Taj Mahal was built by the Hindu King Parmar Dev in 1196.
WIKIPEDIA
5.56x45mm universal combat rifle.
A refinement on an old yet venerable classic, the UCR delivers stopping power in spades. No other rifle can compare with this beast..
~ Excerpt from a UNSC testing ground evaluation document.
A lightweight assault rifle designed by Archwell and is based off of the Steyr AUG. Noticeably heavier than its parent design, due to the modified externals, but should not prove to be a hindrance.
The main feature of this weapon is the built-in grenade launcher that fires caseless 30mm multipurpose airburst grenade rounds. This launcher can be accessed via the fire/safety selector.
An additional sighting peripheral is also attached to the weapon to assist in airburst distance calculation.
Additional features include a 50 round magazine and integrated foregrip.
The Natchez-Vidalia Bridge at Sunset. 7 exposure composite from Photomatix, pp in Noiseware, Lightroom for cropping and final color refinements.
Now available as a print by request (contact for pricing)
We were there for the Great Mississippi River Balloon Race, 2010
1859 Concentrates. CO2 OG Kush sap and oils. Made with wax pulled from an Apeks Supercritical 1500-20L.
1859 Concentrates. CO2 OG Kush sap and oils. Made with wax pulled from an Apeks Supercritical 1500-20L.
A big success by any standard both in and out of competition, the Lancia Stratos was developed as a homologation Special for European rallying. After production ceased it became a cult car and is now highly priced as the ‘modern classis' it is. Conceived strictly for rallying, the Lancia Stratos however makes an exciting road car, though it is very far from GT standards in both luxury and refinement.
The concept vehicle responsible for providing the inspiration for the Lancia Stratos Rally car is the Lancia (Bertone) Stratos. The Stratos featured a 1584 cc V4 DOHC with 115 bhp horsepower at 200 rpm. Designed by Marcello Gandini, the same designer responsible for the Lamborghini Countach and Lamborghini Miura, the Stratos concept was a development of the Bertone designed Alfa Romeo Carabo concept from 1968. The Carabo concept was also a Gandini creation.
First revealed at the Turin Motor Show in October of 1970, the Lancia Stratos HF prototype was a styling exercise for Bertone. A futuristic design, the Stratos featured a wedge shaped profile that stood just 33 inches from the ground. Since the vehicle was so low, conventional doors could not be used and instead one accessed the interior of the Stratos by a hinged windscreen. Drivers had to flip up the windscreen and walk into the vehicle. Once inside, visibility was quite restricted since the front windscreen was narrow. The cockpit of the Lancia Stratos was designed specifically for fast forest flying.
The body design was predictably minimal to hold down weight and bulk with its most distinctive features being semi-concealed A-pillars and a door beltline that sharply upswept to the top of the daylight opening. The shape of the resulting unbroken expanse of glass gave the tunnelback roof the appearance of a futuristic crash helmet.
The main body structure was steel, like the chassis, and weight-saving fiberglass was used for tilt-up nose and tail sections. A small box above and behind the powertrain was where cargo space was held. Bins were also molded into the interior door panels for storing helmets.
The same engine utilized on the Lancia 1600 HF Fulvia was used on the Bertone designed Lancia Stratos Zero prototype. A triangular shaped panel hinged upwards to allow access to the mid-mounted engine. Developed for rallying purposes, the legendary Lancia Stratos was unveiled in 1974. The production vehicle Stratos was powered by a 2.4 liter mid-mounted V6 from the Ferrari Dino.
Like no other Lancia before or after, the Lancia Stratos was a shock that left enthusiasts and rally fans breathless. For almost a decade the Stratos streaked across the rally landscape much like a brilliant comet, while discarding past principles, it also fearlessly represented something undeniably new. A phenomenal rally car, the Lancia Stratos set an example to every other car manufacturer in the world. The first viable purpose-built rally car ever built, the Stratos was probably the last purpose-built rally car.
Created by the Bertone coachbuilding company, the Stratos was both radical, yet fully functional. Fiorio realized that for Lancia to continue to compete in the World Rally Championship, the Fulvia HF would need a much more powerful replacement. A the time, four-wheel drive was not an option, so a mid-engined configuration seemed ideal. To reinforce Fiori's convictions, the Bertone show car was featured soon after with a mid-engine Fulvia V4.
The introduction of the Ford mid-engine purpose-built GT70 rally car at the 1971Brussels Motor Show was what truly inspired the impetus behind the Stratos proect. It was after this appearance that Lancia's general manager, Pierugo Gobbato contacted Nuccio Bertone. Though the GT70 was actually never put in production by Ford, it was this that sparked the inspiration of the Lancia Stratos.
As always, there was a minimum production requirement, 500 units for the Lancia Stratos. This was an awkward figure that would necessitate funds for at least semi-permanent tooling as well as design and development. This was a job well suited to the Italian industry. Fiorio masterminded the project, and he envisioned a short, wide coupe with transverse midships drivetrain. Bertone was immediately contracted to style the vehicle and built its unit body/chassis structure.
43 months passed in between the time of conception to the actual birth of the Lancia Stratos. The vehicle was developed to take over and make Lancia the outright world rally champ. The Stratos was both short and wide, with a wheelbase of only 7 feet 1.8 inches, the width of the vehicle was only 5 feet 8.9 inches. Weighing only 1958 lbs, the Stratos was only 3 feet 7.9 inches high. Able to easily exceed 140 mph, the Stratos featured 190 horsepower in roadgoing trim.
Having studied every possible powerteam in the Fiat/Lancia group, Fiorio secured 2.4 liter V-6s and 5-speed transaxles from Ferrari, which was an ideal chouse as they'd be installed exactly as the Dino 246. All-independent suspension, rack-and-pinion steering and four-wheel disc brakes were all specifically designed for the Lancia Stratos.
After 1978 the Stratos was officially retired and no longer was officially entered by the Lancia factory, the vehicle was still going strong. The Lancia team was headed by by Sandro Munari who won its first event as a homologated entry in October of 1974. Mun ari entered alone 40 events with the Lancia Stratos and won 14. The Stratos also won the World Rally Championship in 1974, 1975, and 1976 and remained competitive for another four years. The final major win came in 1979 when a Lancia Stratos entered by the Monaco importer won the famed Monte Carlo Rally. Finally the factory retired the Stratos.
By Jessica Donaldson
[Text from ConceptCarz.com]
www.conceptcarz.com/z21737/Lancia-Stratos-HF.aspx
This Lego miniland-scale Lancia Stratos Rally Racer has been created for Flickr LUGNuts' 100th Build Challenge - our Centenary, titled 'One Hundred Ways to Win!'. In this challenge, a list of 100 challenges is available, kept by the admins. Individuals wishing to enter, request a number from 1-100 (so long as it has not already been requested) - and the admins assign the individual build challenge associated with that number.
In the case of admins entering models - they request that a general LUGNuts member assigns a number - and the admin must build to that challenge number.
In this case, the number 78 was chosen for me, corresponding to the challenge: '78.Any vehicle from the year you were born'. I was born in 1972, the year that the first Stratos rally cars were built, entering in the Rally Championship as Group 5 (un-homologated) entries.
The road cars required to homologate for Group 4 were built through 1973 to 1978.
As can be seen in some of the images here, not only does the car open and close (a real challenge when you look at the chassis), but it also uses the Lego Group RC Rollerskate - so it can zoom around under its own power.
Land Rover and renowned Magnum photographer Jonas Bendiksen have revealed the first in a series of unique works entitled ‘Ultimate Vistas’, extraordinary landscape photographs captured with help from the world’s ultimate SUV: the Range Rover.
Land Rover and renowned Magnum photographer Jonas Bendiksen have revealed the first in a series of unique works entitled ‘Ultimate Vistas’, extraordinary landscape photographs captured with help from the world’s ultimate SUV: the Range Rover.
Bonnie’s turn to wear the hat! She teamed it with Refinement Vanessa’s fab coat from 2015.
_DSC9027S
Land Rover and renowned Magnum photographer Jonas Bendiksen have revealed the first in a series of unique works entitled ‘Ultimate Vistas’, extraordinary landscape photographs captured with help from the world’s ultimate SUV: the Range Rover.
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!
Some background:
Cunliffe-Owen Aircraft was a British aircraft manufacturer of the World War II era. They were primarily a repair and overhaul shop, but also a construction shop for other companies' designs, notably the Supermarine Seafire. But the company also undertook contract work for the Air Ministry, Lord Rootes, Shorts and Armstrong Siddeley worth £1.5 million, and undertook design and development work.
The Marlin torpedo bomber was designed by Cunliffe-Owen Aircraft to Admiralty Specification O.5/43 as a replacement for the carrier-based Fairey Barracuda in the torpedo/dive bomber role for the new Malta Class ships. Cunliffe-Owen’s engineers had been convinced that a state-of-the-art torpedo bomber would have to be a fast and agile aircraft, so the airframe’s dimensions remained as compact as possible – and in fact the resulting aircraft was not bigger than the Barracuda, even though it was more massive in order to make room for an internal bomb bay. Much attention was given to aerodynamic and weight refinements, so that the aircraft – despite its considerable size – would still perform well with a single engine.
The primary choice fell on the Bristol Centaurus and the aircraft was expected to achieve 370 mph (600 km/h) top speed. Other engines with a similar output, e .g. the R-2800 and R-3350 from the USA as well as the British, air-cooled Exe 45 24 cylinder inline engine, were considered, too. However, the American export engines had been reserved for domestic use and the Exe was, at the time of the aircraft’s design, still far from being a reliable engine in the 3.000 hp class.
The Cunliffe-Owen Marlin was a conservative two-seat, mid monoplane aircraft design. As the Marlin was intended for carrier service, it came complete with hinged wing sections to allow for folding, as well as an arrester hook and a sturdy landing gear. The wings had a pronounced inverted gull wing design, so that the wings’ main spars could be positioned between the bomb bay and the cockpit floor and the landing gear struts could be kept as short as possible.
Even though the new Malta Class ships would allow bigger aircraft to be stored and deployed, the Cunliffe-Owen design team was cautious and tried to keep the aircraft as compact as possible – also with hindsight to the aircraft’s overall performance. In order to achieve this goal and set the Marlin apart from its Fairey and Supermarine contenders, the designers decided at a very early stage to limit the biggest size driver: the internal bomb bay. On the Marlin, it was not to be long enough to carry an 18” torpedo internally. The effects were dramatic: the Spearfish, for instance, had a wingspan of more than 60 ft (18m) and had a MTOW of more than 10 tons, while the Marlin had only a wing span of less than 50 ft and weighed only 25% less.
Instead of carrying the torpedo internally, a ventral arrangement, offset to port, allowed for the external carrying of a single 18” torpedo under the fuselage or of up to two 1.000 lb bombs in tandem. Alternatively, a single 1.000 lb bomb could be carried internally on a swing arm that would clear the bomb in a dive from the propeller arc. When dropped in free fall, up to four 500 lb. bombs or four 450 lb (205 kg) depth charges could be carried internally. Other options included a photo camera pallet for reconnaissance duties and/or auxiliary fuel tanks.
Hardpoints under the outer wings allowed the carriage of more iron bombs, mines or depth charges of up to 500 lb caliber, 90 gal drop tanks, or up to sixteen unguided 3” missiles for attack purposes. The Marlin’s total ordnance load was 3,000 lb (1,361 kg).
Additionally, two forward-firing, fixed 20mm cannons were mounted in the leading wing edges while a defensive, remote-controlled Frazer-Nash FN95 dorsal barbette with two 0.5” (12.7 mm) machine guns was mounted behind the rear cockpit position for defense, being operated by the navigator.
In August 1943, Cunliffe-Owen received an order for two Marlin T.1 prototypes. The first prototype, serial number RA359, was constructed at Cunliffe-Owen's Southampton Airport factory and first flew on 5 July 1945. The second prototype did not fly until late 1946 and was earmarked for the integration of a surface-search radar.
Test pilot and naval aviator Captain Eric Brown evaluated the first prototype at the Royal Navy Carrier Trials Unit at RNAS Ford, Sussex, and found "the controls in cruising flight were relatively heavy, but the aircraft responded well to stick input, and it is fast – despite its ponderous looks.” The Marlin also lacked any sort of stall warning, which would have been a problem in operational use as the stall and approach speeds were fairly close. For the landing, the aircraft proved quite docile, though.
The later prototype had, as an interim measure, ailerons boosted by hydraulic power and artificial feel to the stick from a spring. But during tests Brown found that "the second prototype was much less the pleasant aircraft to fly as the stick continually hunted either side of neutral and there was no build-up of stick force with increase in speed." Several improvements had to be made to the airframe, but no major flaws were discovered. In addition, the flaps were to be enlarged and lateral control was to be provided by spoilers with small "feeler" ailerons.
In the meantime, the strategic developments in the Pacific theatre of operations had changed. In 1945 the original order of four Malta Class ships from 1943 for the Royal Navy had been cancelled, even before they were laid down, and with this cancellation the Fleet Air Arm no longer had a requirement for new torpedo bombers. The whole program was cancelled, including the Marlin’s main competitor, the Fairey Spearfish, which was only built as a prototype.
However, the Marlin’s good performance so far and its relatively compact dimensions and high performance saved it from complete cancellation. The type was now regarded rather as an attack aircraft that would complement the Hawker Sea Fury fighter, another late WWII design. Some refinements like a new exhaust system and a fully retractable tail wheel were integrated into the serial production and the updated type’s designation was changed into SR.2 in order to reflect its changed role. The torpedo bomber capability was kept, even though only as a secondary role.
Originally, production orders for 150 aircraft were placed to be built at Southhampton, starting in late 1944. The first ten aircraft were still finished to the T.1 specification and used a Bristol Centaurus IX 18-cylinder radial engine, 2,520 hp (1,880 kW) radial engine. Then production switched to the TR.2, but instead of fulfilling the complete order, just a scant 114 TR.2 production aircraft, all outfitted with a 2,825 hp (2,107 kW) Centaurus 57 engine, followed. Some were outfitted with an ASV Mk.XV surface-search radar, mounted in a pod under the outer starboard wing, but all of them came too late to see any action in the Pacific.
After the Second World War, the Marlin remained in front line service with the Fleet Air Arm until the mid-1950s, but soon after World War II, anti-aircraft defenses were sufficiently improved to render aerial torpedo attacks suicidal. Lightweight aerial torpedoes were disposed or adapted to small attack boat usage, and the only significant employment of aerial torpedoes was in anti-submarine warfare.
Nevertheless, British Marlins got actively involved in several battles. For instance, the type carried out anti-shipping patrols and ground strikes off various aircraft carriers in the Korean War, and the Royal Navy successfully disabled the Hwacheon Dam in May 1951 with aerial torpedoes launched from Marlin fighter bombers - this raid constituted the last time globally that an aerial torpedo was used against a surface target, and was the only time torpedoes were used in the Korean War. The Marlin also served in the ground-attack role during the Malayan Emergency between 1951 and 1953.
The Marlin’s FAA front line career ended in late 1954 with the introduction of the Fairey Gannet. By that time, Cunliffe-Owen had already been, due to huge losses in the Post-War civil aviation market, dissolved since 1947.
General characteristics:
Crew: two
Length: 39 ft 7 1/2 in (12.10 m)
Wingspan: 47 ft 3 in (14.40 m)
Height: 13 ft 4.5 in (4.07 m)
Wing area: 35.40 m² (381.041 ft²)
Empty weight: 10,547 lb (4,794 kg)
Max. takeoff weight: 16,616 lb (7,553 kg)
Fuel capacity: 409 imperial gallons (1,860 l; 491 US gal)
Powerplant:
1× Bristol Centaurus 57 18-cylinder radial engine, 2,825 hp (2,107 kW)
driving a 5-bladed Rotol VH 65, 14 ft (4.3 m) diameter propeller
Performance:
Maximum speed: 540 km/h (293 kn, 335 mph)
Maximum range: 900 mi (783 nmi, 1,450 km)
Combat radius: 349 mi (303 nmi; 562 km)
Service ceiling: 31,600 ft (9,630 m)
Rate of climb: 2,600 ft/min (13 m/s)
Time to altitude: 7.75 minutes to 10,000 feet (3,048 m)
Wing loading: 158.9 kg/m² (32.5 lb/ft²)
Power/mass: 240 W/kg (0.147 hp/lb)
Armament:
2× 20 mm (0.79 in) Hispano autocannon in the outer wings
2× 0.50 in (12.7 mm) M2 Browning machine guns in a dorsal, remote-controlled
Frazer-Nash FN95 barbette
1× 1,850 lb (840 kg) 18” Mk. VXII torpedo or 2 × 2,000 lb (910 kg) bombs under the fuselage,
or up to 2.000 lb of bombs in an internal bomb bay
Alternatively, up to 16× RP-3 rocket projectiles, bombs or 2× 90 gal (408 l) drop tanks
on underwing hardpoints; total ordnance load of up to 3,000 lb (1,361 kg)
The kit and its assembly:
This converted Aichi B7A2 was inspired by a whiffy Royal Navy skin for this type for a flight simulator, found at warthunder.com and created/posted by a user called byacki. The aircraft was otherwise unchanged, but the result looked so convincing that I earmarked the idea for a hardware build.
This time has come now: the 2018 “RAF Centenary” Group Build at whatifmodelers.com was a neat occasion to tackle the project, since I already had stashed away a Fujimi kit for this build.
In fact, Cunliffe-Owen submitted a competitive proposal for the Spearfish’s requirement, but details concerning the respective aircraft remain obscure, so that the B7A2 fills this gap well. The Fujimi kit itself is VERY nice, well detailed and goes together like a charm. In order to stay true to the original inspiration I did not change much, but the Fairey Spearfish of the late WWII era had some influence.
First of all, the engine was changed into a Bristol Centaurus – a very simple rhinoplasty, since the B7A2’s front fuselage diameter turned out to be ideal for this swap! The original nose was cut off just in front of the exhaust stubs, and a Centaurus from a PM Model Sea Fury was mounted in its place – even though it had to be “squashed” a little in order to fit properly (achieved through the use of a screw clamp and 2C putty inside to stabilize the new shape). Inside of the new cowling, a styrene tube was added for the new five blade propeller, also form a Sea Fury, which received a metal axis.
Another addition is the gun barbette, a common feature among Admiralty Specification O.5/43 designs (the Fairey Spearfish carried one, too). I was lucky to find a leftover chin turret from an Airfix B-17G in the pile, which fitted well in shape and size. The casing ejector openings were faired over and then the turret was mounted upside down in a round opening at the end of the cockpit section. Cockpit floor and canopy were modified accordingly and the result does not look bad at all! Inside of the cockpit the OOB bucket seats were replaced by bigger alternatives – the Fujimi parts look like 1:100 scale!
The OOB torpedo was retained and I added some unguided 3” rockets under the aircraft’s wings, left over from my recent Sea Hawk trainer build. Another addition is a radar pod under the port side wing (a modified cardboard drop tank from a WWII P-51D), and the main wheels were changed – from a Matchbox Me 262, because they feature more details than the OOB parts. The tail wheel was modified, too: instead of the B7A2’s fixed wheel, I implanted the front wheel from a PZL Iskra and added covers, for a retractable arrangement.
Painting and markings:
Well, a conservative choice, and since I wanted to stay true to the original CG design, I stuck to classic RN colors in the form of Extra Dark Sea Grey (Humbrol 123) for the upper surfaces and Sky (Tamiya XF-76 IJN Green Grey, which is a very similar, yet slightly darker tone) for the undersides, with a high waterline. A personal twist came through Korean War era “invasion stripes”, which were carried for easy identification esp. by propeller-driven aircraft in order to avoid friendly AA fire from the ground. The stripes were created after basic painting with white and black generic decal sheet material (TL Modellbau): large white bands (32 mm wide) as foundation, with single black bands (each 6.4 mm wide) added on top. Application around the radar pod and on the slightly tapered fuselage was a bit tricky, but IMHO still easier than trying to mask and paint the stripes.
Other markings were puzzled together from a PrintScale Fairey Firefly sheet, from different Korean War era aircraft.
As per usual, the kit received a light black ink wash in order to emphasize the engraved surface details, and then the panels were highlighted through dry-brushing. Lightly chipped paint was simulated with dry-brushed silver and light grey, and gun and exhaust soot were created with grinded graphite.
Finally, everything was sealed under a mix of Italeri’s matt and semi-gloss acrylic varnishes, for a sheen finish.
I am astonished how natural the Japanese B7A2 from late WWII looks in Royal Navy colors – even without my minor modifications the aircraft would look very convincing, even as a post-war design. It’s really an elegant machine, despite its bulk and size!
The Centaurus with its five blade propeller, the missiles under the wings and the gun barbette just add some more muscle and post-war credibility. I could also imagine this elegant aircraft in WWII Luftwaffe markings, maybe with an engine swap (BMW 801 or Jumo 213 power egg), too?
Land Rover and renowned Magnum photographer Jonas Bendiksen have revealed the first in a series of unique works entitled ‘Ultimate Vistas’, extraordinary landscape photographs captured with help from the world’s ultimate SUV: the Range Rover.
Garratt 4799 was the experimental model. Lots of refinements to this class but small bearings were always a problem. The LNER I think had two Garratt's (U1 Class)?
About this photo : An old scanned picture .
Location : Kookoos Nest of Antulang ,Siaton , Negros Oriental ,Philippines
People in the photo : From left , hubby , me ,Mark ( in the middle - this is how he treats his guests lol ) , my in laws .
Built in 1895-1896, this Chicago School-style thirteen-story skyscraper was designed by Louis Sullivan and Dankmar Adler for the Guaranty Construction Company. It was initially commissioned by Hascal L. Taylor, whom approached Dankmar Adler to build "the largest and best office building in the city,” but Taylor, whom wanted to name the building after himself, died in 1894, just before the building was announced. Having already had the building designed and ready for construction, the Guaranty Construction Company of Chicago, which already had resources lined up to build the project, bought the property and had the building constructed, with the building instead being named after them. In 1898, the building was renamed after the Prudential Insurance Company, which had refinanced the project and became a major tenant in the building after it was completed. Prudential had the terra cotta panels above the main entrances to the building modified to display the company’s name in 1898, upon their acquisition of a partial share in the ownership of the tower. The building became the tallest building in Buffalo upon its completion, and was a further refinement of the ideas that Sullivan had developed with the Wainwright Building in St. Louis, which was built in 1890-92, and featured a design with more Classical overtones, which were dropped with the design of the Guaranty Building in favor of a more purified Art Nouveau and Chicago School aesthetic, and with more intricate visual detail, with the ornate terra cotta panels cladding the entire structure, leaving very few areas with sparse detail. The building is an early skyscraper with a steel frame supporting the terra cotta panel facade, a departure from earlier load bearing masonry structures that had previously been predominant in many of the same applications, and expresses this through large window openings at the base and a consistent wall thickness, as there was no need to make the exterior walls thicker at the base to support the load from the structure above. The building also contrasts with the more rigid historically-influenced Classical revivalism that was growing in popularity at the time, and follows Sullivan’s mantra of “form ever follows function” despite having a lot of unnecessary detail on the exterior cladding and interior elements. The building’s facade also emphasizes its verticality through continual vertical bands of windows separated by pilasters that are wider on the first two floors, with narrower pilasters above, with the entire composition of the building following the tripartite form influenced by classical columns, with distinct sections comprising the base, shaft, and capital, though being a radical and bold abstraction of the form compared to the historical literalism expressed by most of its contemporaries, more directly displaying the underlying steel structure of the building.
The building is clad in rusty terra cotta panels which feature extensive Sullivanesque ornament inspired by the Art Nouveau movement, which clad the entirety of the building’s facades along Church Street and Pearl Street, with simpler red brick and painted brick cladding on the facades that do not front public right-of-ways, which are visible when the building is viewed from the south and west. The white painted brick cladding on the south elevation marks the former location of the building’s light well, which was about 30 feet wide and 68 feet deep, and was infilled during a 1980s rehabilitation project, adding an additional 1,400 square feet of office space, and necessitating an artificial light source to be installed above the stained glass ceiling of the building’s lobby. The building’s windows are mostly one-over-one double-hung windows in vertical columns, with one window per bay, though this pattern is broken at the painted portions of the non-principal facades, which feature paired one-over-one windows, on the second floor of the principal facades, which features Chicago-style tripartite windows and arched transoms over the building’s two main entry doors, on the thirteenth floor of the principal facades, which features circular oxeye windows, and at the base, which features large storefront windows that include cantilevered sections with shed glass roofs that wrap around the columns at the base of the building. The building’s terra cotta panels feature many natural and geometric motifs based on plants and crystalline structures, the most common being a “seed pod” motif that symbolizes growth, with a wide variation of patterns, giving the facade a dynamic appearance, which is almost overwhelming, but helps to further grant the building a dignified and monumental appearance, and is a signature element of many of the significant works of Adler and Sullivan, as well as Sullivan’s later independent work. The building’s pilasters halve in number but double in thickness towards the base, with wide window openings underneath pairs of window bays above on the first and second floors, with the pilasters terminating at circular columns with large, decorative, ornate terra cotta capitals in the central bays, and thick rectilinear pilasters at the corners and flanking the entry door openings. The circular columns penetrate the extruded storefront windows and shed glass roofs below, which formed display cases for shops in the ground floor of the building when it first opened, and feature decorative copper trim and mullions framing the large expanses of plate glass. The base of the building is clad in medina sandstone panels, as well as medina sandstone bases on the circular columns. The major entry doors feature decorative copper trim surrounds, a spandrel panel with ornate cast copper detailing above and the name “Guaranty” emblazoned on the face of each of the two panels at the two entrances, decorative transoms above with decorative copper panels as headers, and arched transoms on the second floor with decorative terra cotta trim surrounds. Each of the two major entrance doors is flanked by two ornate Art Nouveau-style wall-mounted sconces mounted on the large pilasters, with smaller, partially recessed pilasters on either side. The building features two cornices with arched recesses, with the smaller cornice running as a belt around the transition between the base and the shaft portions of the building, with lightbulbs in each archway, and the larger cornice, which extends further out from the face of the building, running around the top of the building’s Swan Street and Pearl Street facades, with a circular oxeye window in each archway. The lower corner recessed into the facade at the ends, while the upper cornice runs around the entire top of the facade above, with geometric motifs in the central portions and a large cluster of leaves in a pattern that is often repeated in Sullivan’s other work at the corners. The spandrel panels between the windows on the shaft portion of the building feature a cluster of leaves at the base and geometric patterns above, with a repeat of the same recessed arch detail as the cornice at the sill line of each window. The pilasters feature almost strictly geometric motifs, with a few floral motifs thrown in at key points to balance the composition of the facade with the windows. A small and often overlooked feature of the ground floor is a set of stone steps up to an entrance at the northwest corner of the building, which features a decorative copper railing with Sullivanesque and Art Nouveau-inspired ornament, which sits next to a staircase to the building’s basement, which features a more utilitarian modern safety railing in the middle.
The interior of the building was heavily renovated over the years before being partially restored in 1980, with the lobby being reverted back to its circa 1896 appearance. The Swan Street vestibule has been fully restored, featuring a marble ceiling, decorative mosaics around the top of the walls, a decorative antique brass light fixture with Art Nouveau detailing and a ring of lightbulbs in the center, the remnant bronze stringer of a now-removed staircase to the second floor in a circular glass wall at the north end of the space, and a terazzo floor. The main lobby, located immediately to the west, features a Tiffany-esque stained glass ceiling with ellipsoid and circular panels set into a bronze frame that once sat below a skylight at the base of the building’s filled-in light well, marble cladding on the walls, mosaics on the ceiling and around the top of the walls, a bronze staircase with ornate railing at the west end of the space, which features a semi-circular landing, a basement staircase with a brass railing, a terrazzo floor, and multiple historic three-bulb wall sconces, as well as brass ceiling fixtures matching those in the vestibule. The building’s elevators, located in an alcove near the base of the staircase, features a decorative richly detailed brass screen on the exterior, with additional decorative screens above, with the elevator since having been enclosed with glass to accommodate modern safety standards and equipment, while preserving the visibility of the original details. Originally, when the building was built, the elevators descended open shafts into a screen wall in the lobby, with the elevators originally being manufactured by the Sprague Electric Railway and Motor Company, with these being exchanged in 1903 for water hydraulic elevators that remained until a renovation in the 1960s. Sadly, most of the historic interior detailing of the upper floors was lost during a series of renovations in the 20th Century, which led to them being fully modernized during the renovation in the 1980s, with multiple tenant finish projects since then further modifying the interiors of the upper floors.
The building was listed on the National Register of Historic Places in 1973, and designated a National Historic Landmark in 1975, owing to its architectural significance, and to help save the building, which had suffered a major fire in 1974 that led to the city of Buffalo seeking to demolish it. A renovation in the early 1980s managed to modernize the building while restoring the lobby and the exterior, which was carried out under the direction of the firm CannonDesign, and partial funding from federal historic tax credits. The building was purchased in 2002 by Hodgson Russ, a law firm, which subsequently further renovated the building to suit their needs, converting the building into their headquarters in 2008. This renovation was carried out under the direction of Gensler Architects and the local firm Flynn Battaglia Architects. The building today houses offices on the upper floors, with a visitor center, known as the Guaranty Interpretative Center, on the first floor, with historic tours offered of some of the building’s exterior and interior spaces run by Preservation Buffalo Niagara. The building was one of the most significant early skyscrapers, and set a precedent for the modern skyscrapers that began to be built half a century later.
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!
Some background:
Cunliffe-Owen Aircraft was a British aircraft manufacturer of the World War II era. They were primarily a repair and overhaul shop, but also a construction shop for other companies' designs, notably the Supermarine Seafire. But the company also undertook contract work for the Air Ministry, Lord Rootes, Shorts and Armstrong Siddeley worth £1.5 million, and undertook design and development work.
The Marlin torpedo bomber was designed by Cunliffe-Owen Aircraft to Admiralty Specification O.5/43 as a replacement for the carrier-based Fairey Barracuda in the torpedo/dive bomber role for the new Malta Class ships. Cunliffe-Owen’s engineers had been convinced that a state-of-the-art torpedo bomber would have to be a fast and agile aircraft, so the airframe’s dimensions remained as compact as possible – and in fact the resulting aircraft was not bigger than the Barracuda, even though it was more massive in order to make room for an internal bomb bay. Much attention was given to aerodynamic and weight refinements, so that the aircraft – despite its considerable size – would still perform well with a single engine.
The primary choice fell on the Bristol Centaurus and the aircraft was expected to achieve 370 mph (600 km/h) top speed. Other engines with a similar output, e .g. the R-2800 and R-3350 from the USA as well as the British, air-cooled Exe 45 24 cylinder inline engine, were considered, too. However, the American export engines had been reserved for domestic use and the Exe was, at the time of the aircraft’s design, still far from being a reliable engine in the 3.000 hp class.
The Cunliffe-Owen Marlin was a conservative two-seat, mid monoplane aircraft design. As the Marlin was intended for carrier service, it came complete with hinged wing sections to allow for folding, as well as an arrester hook and a sturdy landing gear. The wings had a pronounced inverted gull wing design, so that the wings’ main spars could be positioned between the bomb bay and the cockpit floor and the landing gear struts could be kept as short as possible.
Even though the new Malta Class ships would allow bigger aircraft to be stored and deployed, the Cunliffe-Owen design team was cautious and tried to keep the aircraft as compact as possible – also with hindsight to the aircraft’s overall performance. In order to achieve this goal and set the Marlin apart from its Fairey and Supermarine contenders, the designers decided at a very early stage to limit the biggest size driver: the internal bomb bay. On the Marlin, it was not to be long enough to carry an 18” torpedo internally. The effects were dramatic: the Spearfish, for instance, had a wingspan of more than 60 ft (18m) and had a MTOW of more than 10 tons, while the Marlin had only a wing span of less than 50 ft and weighed only 25% less.
Instead of carrying the torpedo internally, a ventral arrangement, offset to port, allowed for the external carrying of a single 18” torpedo under the fuselage or of up to two 1.000 lb bombs in tandem. Alternatively, a single 1.000 lb bomb could be carried internally on a swing arm that would clear the bomb in a dive from the propeller arc. When dropped in free fall, up to four 500 lb. bombs or four 450 lb (205 kg) depth charges could be carried internally. Other options included a photo camera pallet for reconnaissance duties and/or auxiliary fuel tanks.
Hardpoints under the outer wings allowed the carriage of more iron bombs, mines or depth charges of up to 500 lb caliber, 90 gal drop tanks, or up to sixteen unguided 3” missiles for attack purposes. The Marlin’s total ordnance load was 3,000 lb (1,361 kg).
Additionally, two forward-firing, fixed 20mm cannons were mounted in the leading wing edges while a defensive, remote-controlled Frazer-Nash FN95 dorsal barbette with two 0.5” (12.7 mm) machine guns was mounted behind the rear cockpit position for defense, being operated by the navigator.
In August 1943, Cunliffe-Owen received an order for two Marlin T.1 prototypes. The first prototype, serial number RA359, was constructed at Cunliffe-Owen's Southampton Airport factory and first flew on 5 July 1945. The second prototype did not fly until late 1946 and was earmarked for the integration of a surface-search radar.
Test pilot and naval aviator Captain Eric Brown evaluated the first prototype at the Royal Navy Carrier Trials Unit at RNAS Ford, Sussex, and found "the controls in cruising flight were relatively heavy, but the aircraft responded well to stick input, and it is fast – despite its ponderous looks.” The Marlin also lacked any sort of stall warning, which would have been a problem in operational use as the stall and approach speeds were fairly close. For the landing, the aircraft proved quite docile, though.
The later prototype had, as an interim measure, ailerons boosted by hydraulic power and artificial feel to the stick from a spring. But during tests Brown found that "the second prototype was much less the pleasant aircraft to fly as the stick continually hunted either side of neutral and there was no build-up of stick force with increase in speed." Several improvements had to be made to the airframe, but no major flaws were discovered. In addition, the flaps were to be enlarged and lateral control was to be provided by spoilers with small "feeler" ailerons.
In the meantime, the strategic developments in the Pacific theatre of operations had changed. In 1945 the original order of four Malta Class ships from 1943 for the Royal Navy had been cancelled, even before they were laid down, and with this cancellation the Fleet Air Arm no longer had a requirement for new torpedo bombers. The whole program was cancelled, including the Marlin’s main competitor, the Fairey Spearfish, which was only built as a prototype.
However, the Marlin’s good performance so far and its relatively compact dimensions and high performance saved it from complete cancellation. The type was now regarded rather as an attack aircraft that would complement the Hawker Sea Fury fighter, another late WWII design. Some refinements like a new exhaust system and a fully retractable tail wheel were integrated into the serial production and the updated type’s designation was changed into SR.2 in order to reflect its changed role. The torpedo bomber capability was kept, even though only as a secondary role.
Originally, production orders for 150 aircraft were placed to be built at Southhampton, starting in late 1944. The first ten aircraft were still finished to the T.1 specification and used a Bristol Centaurus IX 18-cylinder radial engine, 2,520 hp (1,880 kW) radial engine. Then production switched to the TR.2, but instead of fulfilling the complete order, just a scant 114 TR.2 production aircraft, all outfitted with a 2,825 hp (2,107 kW) Centaurus 57 engine, followed. Some were outfitted with an ASV Mk.XV surface-search radar, mounted in a pod under the outer starboard wing, but all of them came too late to see any action in the Pacific.
After the Second World War, the Marlin remained in front line service with the Fleet Air Arm until the mid-1950s, but soon after World War II, anti-aircraft defenses were sufficiently improved to render aerial torpedo attacks suicidal. Lightweight aerial torpedoes were disposed or adapted to small attack boat usage, and the only significant employment of aerial torpedoes was in anti-submarine warfare.
Nevertheless, British Marlins got actively involved in several battles. For instance, the type carried out anti-shipping patrols and ground strikes off various aircraft carriers in the Korean War, and the Royal Navy successfully disabled the Hwacheon Dam in May 1951 with aerial torpedoes launched from Marlin fighter bombers - this raid constituted the last time globally that an aerial torpedo was used against a surface target, and was the only time torpedoes were used in the Korean War. The Marlin also served in the ground-attack role during the Malayan Emergency between 1951 and 1953.
The Marlin’s FAA front line career ended in late 1954 with the introduction of the Fairey Gannet. By that time, Cunliffe-Owen had already been, due to huge losses in the Post-War civil aviation market, dissolved since 1947.
General characteristics:
Crew: two
Length: 39 ft 7 1/2 in (12.10 m)
Wingspan: 47 ft 3 in (14.40 m)
Height: 13 ft 4.5 in (4.07 m)
Wing area: 35.40 m² (381.041 ft²)
Empty weight: 10,547 lb (4,794 kg)
Max. takeoff weight: 16,616 lb (7,553 kg)
Fuel capacity: 409 imperial gallons (1,860 l; 491 US gal)
Powerplant:
1× Bristol Centaurus 57 18-cylinder radial engine, 2,825 hp (2,107 kW)
driving a 5-bladed Rotol VH 65, 14 ft (4.3 m) diameter propeller
Performance:
Maximum speed: 540 km/h (293 kn, 335 mph)
Maximum range: 900 mi (783 nmi, 1,450 km)
Combat radius: 349 mi (303 nmi; 562 km)
Service ceiling: 31,600 ft (9,630 m)
Rate of climb: 2,600 ft/min (13 m/s)
Time to altitude: 7.75 minutes to 10,000 feet (3,048 m)
Wing loading: 158.9 kg/m² (32.5 lb/ft²)
Power/mass: 240 W/kg (0.147 hp/lb)
Armament:
2× 20 mm (0.79 in) Hispano autocannon in the outer wings
2× 0.50 in (12.7 mm) M2 Browning machine guns in a dorsal, remote-controlled
Frazer-Nash FN95 barbette
1× 1,850 lb (840 kg) 18” Mk. VXII torpedo or 2 × 2,000 lb (910 kg) bombs under the fuselage,
or up to 2.000 lb of bombs in an internal bomb bay
Alternatively, up to 16× RP-3 rocket projectiles, bombs or 2× 90 gal (408 l) drop tanks
on underwing hardpoints; total ordnance load of up to 3,000 lb (1,361 kg)
The kit and its assembly:
This converted Aichi B7A2 was inspired by a whiffy Royal Navy skin for this type for a flight simulator, found at warthunder.com and created/posted by a user called byacki. The aircraft was otherwise unchanged, but the result looked so convincing that I earmarked the idea for a hardware build.
This time has come now: the 2018 “RAF Centenary” Group Build at whatifmodelers.com was a neat occasion to tackle the project, since I already had stashed away a Fujimi kit for this build.
In fact, Cunliffe-Owen submitted a competitive proposal for the Spearfish’s requirement, but details concerning the respective aircraft remain obscure, so that the B7A2 fills this gap well. The Fujimi kit itself is VERY nice, well detailed and goes together like a charm. In order to stay true to the original inspiration I did not change much, but the Fairey Spearfish of the late WWII era had some influence.
First of all, the engine was changed into a Bristol Centaurus – a very simple rhinoplasty, since the B7A2’s front fuselage diameter turned out to be ideal for this swap! The original nose was cut off just in front of the exhaust stubs, and a Centaurus from a PM Model Sea Fury was mounted in its place – even though it had to be “squashed” a little in order to fit properly (achieved through the use of a screw clamp and 2C putty inside to stabilize the new shape). Inside of the new cowling, a styrene tube was added for the new five blade propeller, also form a Sea Fury, which received a metal axis.
Another addition is the gun barbette, a common feature among Admiralty Specification O.5/43 designs (the Fairey Spearfish carried one, too). I was lucky to find a leftover chin turret from an Airfix B-17G in the pile, which fitted well in shape and size. The casing ejector openings were faired over and then the turret was mounted upside down in a round opening at the end of the cockpit section. Cockpit floor and canopy were modified accordingly and the result does not look bad at all! Inside of the cockpit the OOB bucket seats were replaced by bigger alternatives – the Fujimi parts look like 1:100 scale!
The OOB torpedo was retained and I added some unguided 3” rockets under the aircraft’s wings, left over from my recent Sea Hawk trainer build. Another addition is a radar pod under the port side wing (a modified cardboard drop tank from a WWII P-51D), and the main wheels were changed – from a Matchbox Me 262, because they feature more details than the OOB parts. The tail wheel was modified, too: instead of the B7A2’s fixed wheel, I implanted the front wheel from a PZL Iskra and added covers, for a retractable arrangement.
Painting and markings:
Well, a conservative choice, and since I wanted to stay true to the original CG design, I stuck to classic RN colors in the form of Extra Dark Sea Grey (Humbrol 123) for the upper surfaces and Sky (Tamiya XF-76 IJN Green Grey, which is a very similar, yet slightly darker tone) for the undersides, with a high waterline. A personal twist came through Korean War era “invasion stripes”, which were carried for easy identification esp. by propeller-driven aircraft in order to avoid friendly AA fire from the ground. The stripes were created after basic painting with white and black generic decal sheet material (TL Modellbau): large white bands (32 mm wide) as foundation, with single black bands (each 6.4 mm wide) added on top. Application around the radar pod and on the slightly tapered fuselage was a bit tricky, but IMHO still easier than trying to mask and paint the stripes.
Other markings were puzzled together from a PrintScale Fairey Firefly sheet, from different Korean War era aircraft.
As per usual, the kit received a light black ink wash in order to emphasize the engraved surface details, and then the panels were highlighted through dry-brushing. Lightly chipped paint was simulated with dry-brushed silver and light grey, and gun and exhaust soot were created with grinded graphite.
Finally, everything was sealed under a mix of Italeri’s matt and semi-gloss acrylic varnishes, for a sheen finish.
I am astonished how natural the Japanese B7A2 from late WWII looks in Royal Navy colors – even without my minor modifications the aircraft would look very convincing, even as a post-war design. It’s really an elegant machine, despite its bulk and size!
The Centaurus with its five blade propeller, the missiles under the wings and the gun barbette just add some more muscle and post-war credibility. I could also imagine this elegant aircraft in WWII Luftwaffe markings, maybe with an engine swap (BMW 801 or Jumo 213 power egg), too?
*thanks to ♥suzy♥ for the sparkly ribbon!*
The dress is really plum/grape colored it's hard to capture the color perfectly.
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!
Some background:
Cunliffe-Owen Aircraft was a British aircraft manufacturer of the World War II era. They were primarily a repair and overhaul shop, but also a construction shop for other companies' designs, notably the Supermarine Seafire. But the company also undertook contract work for the Air Ministry, Lord Rootes, Shorts and Armstrong Siddeley worth £1.5 million, and undertook design and development work.
The Marlin torpedo bomber was designed by Cunliffe-Owen Aircraft to Admiralty Specification O.5/43 as a replacement for the carrier-based Fairey Barracuda in the torpedo/dive bomber role for the new Malta Class ships. Cunliffe-Owen’s engineers had been convinced that a state-of-the-art torpedo bomber would have to be a fast and agile aircraft, so the airframe’s dimensions remained as compact as possible – and in fact the resulting aircraft was not bigger than the Barracuda, even though it was more massive in order to make room for an internal bomb bay. Much attention was given to aerodynamic and weight refinements, so that the aircraft – despite its considerable size – would still perform well with a single engine.
The primary choice fell on the Bristol Centaurus and the aircraft was expected to achieve 370 mph (600 km/h) top speed. Other engines with a similar output, e .g. the R-2800 and R-3350 from the USA as well as the British, air-cooled Exe 45 24 cylinder inline engine, were considered, too. However, the American export engines had been reserved for domestic use and the Exe was, at the time of the aircraft’s design, still far from being a reliable engine in the 3.000 hp class.
The Cunliffe-Owen Marlin was a conservative two-seat, mid monoplane aircraft design. As the Marlin was intended for carrier service, it came complete with hinged wing sections to allow for folding, as well as an arrester hook and a sturdy landing gear. The wings had a pronounced inverted gull wing design, so that the wings’ main spars could be positioned between the bomb bay and the cockpit floor and the landing gear struts could be kept as short as possible.
Even though the new Malta Class ships would allow bigger aircraft to be stored and deployed, the Cunliffe-Owen design team was cautious and tried to keep the aircraft as compact as possible – also with hindsight to the aircraft’s overall performance. In order to achieve this goal and set the Marlin apart from its Fairey and Supermarine contenders, the designers decided at a very early stage to limit the biggest size driver: the internal bomb bay. On the Marlin, it was not to be long enough to carry an 18” torpedo internally. The effects were dramatic: the Spearfish, for instance, had a wingspan of more than 60 ft (18m) and had a MTOW of more than 10 tons, while the Marlin had only a wing span of less than 50 ft and weighed only 25% less.
Instead of carrying the torpedo internally, a ventral arrangement, offset to port, allowed for the external carrying of a single 18” torpedo under the fuselage or of up to two 1.000 lb bombs in tandem. Alternatively, a single 1.000 lb bomb could be carried internally on a swing arm that would clear the bomb in a dive from the propeller arc. When dropped in free fall, up to four 500 lb. bombs or four 450 lb (205 kg) depth charges could be carried internally. Other options included a photo camera pallet for reconnaissance duties and/or auxiliary fuel tanks.
Hardpoints under the outer wings allowed the carriage of more iron bombs, mines or depth charges of up to 500 lb caliber, 90 gal drop tanks, or up to sixteen unguided 3” missiles for attack purposes. The Marlin’s total ordnance load was 3,000 lb (1,361 kg).
Additionally, two forward-firing, fixed 20mm cannons were mounted in the leading wing edges while a defensive, remote-controlled Frazer-Nash FN95 dorsal barbette with two 0.5” (12.7 mm) machine guns was mounted behind the rear cockpit position for defense, being operated by the navigator.
In August 1943, Cunliffe-Owen received an order for two Marlin T.1 prototypes. The first prototype, serial number RA359, was constructed at Cunliffe-Owen's Southampton Airport factory and first flew on 5 July 1945. The second prototype did not fly until late 1946 and was earmarked for the integration of a surface-search radar.
Test pilot and naval aviator Captain Eric Brown evaluated the first prototype at the Royal Navy Carrier Trials Unit at RNAS Ford, Sussex, and found "the controls in cruising flight were relatively heavy, but the aircraft responded well to stick input, and it is fast – despite its ponderous looks.” The Marlin also lacked any sort of stall warning, which would have been a problem in operational use as the stall and approach speeds were fairly close. For the landing, the aircraft proved quite docile, though.
The later prototype had, as an interim measure, ailerons boosted by hydraulic power and artificial feel to the stick from a spring. But during tests Brown found that "the second prototype was much less the pleasant aircraft to fly as the stick continually hunted either side of neutral and there was no build-up of stick force with increase in speed." Several improvements had to be made to the airframe, but no major flaws were discovered. In addition, the flaps were to be enlarged and lateral control was to be provided by spoilers with small "feeler" ailerons.
In the meantime, the strategic developments in the Pacific theatre of operations had changed. In 1945 the original order of four Malta Class ships from 1943 for the Royal Navy had been cancelled, even before they were laid down, and with this cancellation the Fleet Air Arm no longer had a requirement for new torpedo bombers. The whole program was cancelled, including the Marlin’s main competitor, the Fairey Spearfish, which was only built as a prototype.
However, the Marlin’s good performance so far and its relatively compact dimensions and high performance saved it from complete cancellation. The type was now regarded rather as an attack aircraft that would complement the Hawker Sea Fury fighter, another late WWII design. Some refinements like a new exhaust system and a fully retractable tail wheel were integrated into the serial production and the updated type’s designation was changed into SR.2 in order to reflect its changed role. The torpedo bomber capability was kept, even though only as a secondary role.
Originally, production orders for 150 aircraft were placed to be built at Southhampton, starting in late 1944. The first ten aircraft were still finished to the T.1 specification and used a Bristol Centaurus IX 18-cylinder radial engine, 2,520 hp (1,880 kW) radial engine. Then production switched to the TR.2, but instead of fulfilling the complete order, just a scant 114 TR.2 production aircraft, all outfitted with a 2,825 hp (2,107 kW) Centaurus 57 engine, followed. Some were outfitted with an ASV Mk.XV surface-search radar, mounted in a pod under the outer starboard wing, but all of them came too late to see any action in the Pacific.
After the Second World War, the Marlin remained in front line service with the Fleet Air Arm until the mid-1950s, but soon after World War II, anti-aircraft defenses were sufficiently improved to render aerial torpedo attacks suicidal. Lightweight aerial torpedoes were disposed or adapted to small attack boat usage, and the only significant employment of aerial torpedoes was in anti-submarine warfare.
Nevertheless, British Marlins got actively involved in several battles. For instance, the type carried out anti-shipping patrols and ground strikes off various aircraft carriers in the Korean War, and the Royal Navy successfully disabled the Hwacheon Dam in May 1951 with aerial torpedoes launched from Marlin fighter bombers - this raid constituted the last time globally that an aerial torpedo was used against a surface target, and was the only time torpedoes were used in the Korean War. The Marlin also served in the ground-attack role during the Malayan Emergency between 1951 and 1953.
The Marlin’s FAA front line career ended in late 1954 with the introduction of the Fairey Gannet. By that time, Cunliffe-Owen had already been, due to huge losses in the Post-War civil aviation market, dissolved since 1947.
General characteristics:
Crew: two
Length: 39 ft 7 1/2 in (12.10 m)
Wingspan: 47 ft 3 in (14.40 m)
Height: 13 ft 4.5 in (4.07 m)
Wing area: 35.40 m² (381.041 ft²)
Empty weight: 10,547 lb (4,794 kg)
Max. takeoff weight: 16,616 lb (7,553 kg)
Fuel capacity: 409 imperial gallons (1,860 l; 491 US gal)
Powerplant:
1× Bristol Centaurus 57 18-cylinder radial engine, 2,825 hp (2,107 kW)
driving a 5-bladed Rotol VH 65, 14 ft (4.3 m) diameter propeller
Performance:
Maximum speed: 540 km/h (293 kn, 335 mph)
Maximum range: 900 mi (783 nmi, 1,450 km)
Combat radius: 349 mi (303 nmi; 562 km)
Service ceiling: 31,600 ft (9,630 m)
Rate of climb: 2,600 ft/min (13 m/s)
Time to altitude: 7.75 minutes to 10,000 feet (3,048 m)
Wing loading: 158.9 kg/m² (32.5 lb/ft²)
Power/mass: 240 W/kg (0.147 hp/lb)
Armament:
2× 20 mm (0.79 in) Hispano autocannon in the outer wings
2× 0.50 in (12.7 mm) M2 Browning machine guns in a dorsal, remote-controlled
Frazer-Nash FN95 barbette
1× 1,850 lb (840 kg) 18” Mk. VXII torpedo or 2 × 2,000 lb (910 kg) bombs under the fuselage,
or up to 2.000 lb of bombs in an internal bomb bay
Alternatively, up to 16× RP-3 rocket projectiles, bombs or 2× 90 gal (408 l) drop tanks
on underwing hardpoints; total ordnance load of up to 3,000 lb (1,361 kg)
The kit and its assembly:
This converted Aichi B7A2 was inspired by a whiffy Royal Navy skin for this type for a flight simulator, found at warthunder.com and created/posted by a user called byacki. The aircraft was otherwise unchanged, but the result looked so convincing that I earmarked the idea for a hardware build.
This time has come now: the 2018 “RAF Centenary” Group Build at whatifmodelers.com was a neat occasion to tackle the project, since I already had stashed away a Fujimi kit for this build.
In fact, Cunliffe-Owen submitted a competitive proposal for the Spearfish’s requirement, but details concerning the respective aircraft remain obscure, so that the B7A2 fills this gap well. The Fujimi kit itself is VERY nice, well detailed and goes together like a charm. In order to stay true to the original inspiration I did not change much, but the Fairey Spearfish of the late WWII era had some influence.
First of all, the engine was changed into a Bristol Centaurus – a very simple rhinoplasty, since the B7A2’s front fuselage diameter turned out to be ideal for this swap! The original nose was cut off just in front of the exhaust stubs, and a Centaurus from a PM Model Sea Fury was mounted in its place – even though it had to be “squashed” a little in order to fit properly (achieved through the use of a screw clamp and 2C putty inside to stabilize the new shape). Inside of the new cowling, a styrene tube was added for the new five blade propeller, also form a Sea Fury, which received a metal axis.
Another addition is the gun barbette, a common feature among Admiralty Specification O.5/43 designs (the Fairey Spearfish carried one, too). I was lucky to find a leftover chin turret from an Airfix B-17G in the pile, which fitted well in shape and size. The casing ejector openings were faired over and then the turret was mounted upside down in a round opening at the end of the cockpit section. Cockpit floor and canopy were modified accordingly and the result does not look bad at all! Inside of the cockpit the OOB bucket seats were replaced by bigger alternatives – the Fujimi parts look like 1:100 scale!
The OOB torpedo was retained and I added some unguided 3” rockets under the aircraft’s wings, left over from my recent Sea Hawk trainer build. Another addition is a radar pod under the port side wing (a modified cardboard drop tank from a WWII P-51D), and the main wheels were changed – from a Matchbox Me 262, because they feature more details than the OOB parts. The tail wheel was modified, too: instead of the B7A2’s fixed wheel, I implanted the front wheel from a PZL Iskra and added covers, for a retractable arrangement.
Painting and markings:
Well, a conservative choice, and since I wanted to stay true to the original CG design, I stuck to classic RN colors in the form of Extra Dark Sea Grey (Humbrol 123) for the upper surfaces and Sky (Tamiya XF-76 IJN Green Grey, which is a very similar, yet slightly darker tone) for the undersides, with a high waterline. A personal twist came through Korean War era “invasion stripes”, which were carried for easy identification esp. by propeller-driven aircraft in order to avoid friendly AA fire from the ground. The stripes were created after basic painting with white and black generic decal sheet material (TL Modellbau): large white bands (32 mm wide) as foundation, with single black bands (each 6.4 mm wide) added on top. Application around the radar pod and on the slightly tapered fuselage was a bit tricky, but IMHO still easier than trying to mask and paint the stripes.
Other markings were puzzled together from a PrintScale Fairey Firefly sheet, from different Korean War era aircraft.
As per usual, the kit received a light black ink wash in order to emphasize the engraved surface details, and then the panels were highlighted through dry-brushing. Lightly chipped paint was simulated with dry-brushed silver and light grey, and gun and exhaust soot were created with grinded graphite.
Finally, everything was sealed under a mix of Italeri’s matt and semi-gloss acrylic varnishes, for a sheen finish.
I am astonished how natural the Japanese B7A2 from late WWII looks in Royal Navy colors – even without my minor modifications the aircraft would look very convincing, even as a post-war design. It’s really an elegant machine, despite its bulk and size!
The Centaurus with its five blade propeller, the missiles under the wings and the gun barbette just add some more muscle and post-war credibility. I could also imagine this elegant aircraft in WWII Luftwaffe markings, maybe with an engine swap (BMW 801 or Jumo 213 power egg), too?
A daring and sculptural creation, Citroën DS5 perfectly expresses the DS spirit, with bold choices on styling, architecture, sensations and refinement.
While out in the Methow I was introduced to making tortillas from scratch and how easy it is. I have a refinement or two, but I don't think we will be buying premade again.
Land Rover and renowned Magnum photographer Jonas Bendiksen have revealed the first in a series of unique works entitled ‘Ultimate Vistas’, extraordinary landscape photographs captured with help from the world’s ultimate SUV: the Range Rover.
A few refinements over yesterdays setup as well as the change from green to orange.
The glass jar is still sat on a sheet of glass painted white on the underside. This is sat on a raised shelf to allow the light to be placed below.
The light is an 11watt spiral CFL lamp mounted in a Pringles tube snoot, which is lined with white printer paper, to soften the edges of the lit area.
The background is a sheet of orange FunFoam, postioned approx 6inches/150mm behind the rear edge of the shelf and subject. The background curves forward above the jar and the front edge is resting on a couple of pieces of black card, folded into a V shape to make them freestanding and placed on either side.
Another V shape piece of black card can also be seen hanging off the top of the background in an effort to give more negative light to the threads on the top of the jar, but I'm not sure it contributes much. It does though help block the room lights and prevent reflections from the rest of the room, yes the room was not in darkness though it appears that way.
The result is shown below.