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Your government's let you down.
They were supposed to protect you from this kind of shit.
They were supposed to be there to make sure that the water that comes out of your faucet when you open it up was safe.
There's supposed to be an absolute relationship of trust there.
At the very least they fell asleep on the job.
I have no evidence to indicate that the officials at the Illinois EPA were anything but incompetent.
Except that scary phone call with Saavu.
And the way they seemed to always try to minimize what the officials in Deadwood did.
No one's accused them of taking bribes to look the other way.
No one's said they benefitted in any way from letting the people in that town drink poison 'slow death' water for over twenty years.
They were supposed to be looking out for you and your families.
As taxpayers we paid them billions of dollars that year to do just that.
I know that they've obfuscated the truth... I know they're a part of the coverup.
I knew that I couldn't trust them to do the right thing.
What I saw when the dust had settled after the intial story'd broke was a bunch of lame ass paperpushers looking out for themselves... trying to save their jobs... covering their own asses.
They weren't even pointing fingers... they were hiding their faces behind file folders and studies.
It was enough to make me sick.
It took me months to get them to do anything... and they only did that after we gave all the documents to an environmental reporter with one of the big newspapers and he had the balls to run with the story.
It was front page news.
A mayor who was once called 'America's Best Small Town Mayor' was at the top of a racket that was intentionally using a well, known to be contaminated to provide drinking water for the citizens of the town he ran.
He'd been doing it for more than twenty years.
And he ran that town with an 'iron fist.'
He'd said it himself.
It was a case of 'absolute power.'
A case of 'absolute corruption.'
'I know every curb, every sidewalk, every stormwater drain. I know all the dikes' he once boasted to a reporter... 'I built most of them.'
Old 'Iron Fist' knew that the residents of that town were being slowly poisoned by the shitwater coming out of Municipal Well Number 1.
He just didn't care.
He was the king and that water was good enough for the serfs to drink.
It was good to be 'Iron Fist.'
He knew everything... and he didn't believe those idiot scientists for a minute when they warned that really bad stuff could happen to people that drank that water.
Iron Fist knew better than all of them.
He always did.
He was always telling The Fall Guy to use more of it.
'Open up that godamn well and keep it open.'
Iron Fist knew exactly what was going on.
It's not the vinyl chloride that's the real boogie-monster in the water.
That shit's bad enough and it'll do horrible things to you.
It's an industrial solvent and it has no business in the human body.
That motherfucker deserves the death penalty if you ask me.
And the US Attorney doesn't even idict him?
He indicts the poor suckers who cowered underneath King Iron Fist for all of those years doing exactly what Iron Fist told them to do... and he calls Iron Fist 'Public Official A' in the federal indictment itself.
Didn't even have the balls to name him publicly... to shame him even?
They say Iron Fist's not fit for trial... he's too old... he's got Parkinsons disease and 'mild dementia'... he can't even participate in his own defense.
Even though I heard he just got his drivers license renewed.
He's gonna skate.
Enjoy his riches and retirement down in Boca Raton.
While someone's watching their mother die of cancer a pool of her own vomit in Deadwood.
There's not going to be justice here.
Your government doesn't want that.
You know why?
Iron Fist's got them by the balls as much as I had all those guys by the balls.
When the truth comes out... and I've already taken all of the steps to make sure that happens... you're gonna be looking at incompetence and corruption the likes of which will sicken everyone who's not already sick from drinking water from that contaminated well.
Iron Fist getting taken down would mean the government demonstrating all of the ways they failed us.
If I don't blow into a breathalyzer when they haul my ass down to the police station I'm gonna get arrested for DUI (Driving Under the Influence).
The government has no qualms about presuming I've been drinking if I don't blow into that tester... they'll 'presume' me to be a danger to the public and they'll charge me in a second... even if I don't give them any evidence.
But Deadwood avoided testing their municipal water supply for all those years by lying to the Illinois EPA and the US EPA about where it came from.
And Deadwood has the nerve to send out press releases saying that there was never any evidence of dangerous contamination in the water!
Because they made sure there was no evidence!
They NEVER TESTED that shitwater for any of the contaminants likely to be in it.
You ain't gonna find evidence of an invisible chemical you ain't looking for... unless people start dying unexplainably.
And the government itself makes sure at every juncture to say that there's no evidence that the water was dangerous.
Bullshit.
These people are fucking clowns.
That well was just over eight hundred feet away from the Sanitary and Ship Canal.
Scientists say it's one of the most polluted bodies of water in the world.
There are signs there that say 'incidental contact with this water may be dangerous.'
The government mandated that they be posted!
Forget vinyl chloride and hexa haka whatever that they're talking about in that well...
Those people were drinking water out of that canal for years.
Deadwood was bustin' at the seams with dirty little secrets.
That's just one dirty little secret even the fed seems to want covered up.
They can't even dredge the canal because the sediment on the bottom is so toxic that they'd have to dump it in a toxic waste dump and that'd cost a flippin' fortune.
Nobody talks about that.
But I know why the government is so stuck on saying things like 'only' twenty percent of the towns water came from the contaminated well... which is bullshit and Krista's got the documents to prove it...
because geologists have created a map that shows what's called the well's 'zone of influence.'
And on that map there are these circles that go around the well at various intervals... like elevation lines on a topographic map.
Each of those circles represents how far the water'd come from that got sucked into that well based on how many gallons were drawn from the well itself.
And if you go to the third circle... the circle that represents the 'zone of influence' for the well if it was providing thirty percent or more of the drinking water for the town... the Sanitary and Ship Canal goes right through it.
The people of that town were drinking untreated canal water from the most toxic body of water in the world for years.
And the state and federal government have no interest in that little factoid ever reaching the light of day.
Yeah... they'll indict a couple of clerks who had absolutely nothing more to gain from using the contaminated well than keeping their jobs... they'll make sure that they go to prison for 'lying to the government'.
But the government itself is lying to you.
Big time.
But it's not a crime for the government to lie to you and me.
It's only a crime if we lie to them.
Kind of a built in to the system 'double standard.'
I don't want to bore you to death with examples but this one's so stupid I couldn't believe it when I heard some doctors from the Center's for Disease Control (CDC) say it.
I was at a meeting with Congressman Bobby Rush and he heard it too.
The CDC was ordered to study the cancer rates in the town.
Congressman Rush, a cancer survivor himself, wanted to see if the rates of cancer would be found to be elevated.
So the CDC was gonna get the statistics... and I pestered them on how they might do it.
I'd seen so much incompetence already that I presumed the worst from the beginning.
'Easy' the idiot from the CDC said 'doctors report newly diagnosed cases of cancer to the health department.'
That sounded good but I bothered him more about the methods that they'd use.
'The cases are reported by zip code' he said.
'Deadwood shares a zipcode with two other towns' I replied.
Two other towns that don't drink the water from the contaminated well.
The results would have been useless.
I could see that.
The CDC couldn't.
I told 'em that since the US Census was coming up maybe they could have the Census people... who'd be knocking on every door in the town of twelve thousand... ask a few more questions...
like 'do you or anyone who's ever lived here have cancer.'
They just gave me dumb looks.
No study would have been perfect... but at every turn the government seemed to obstruct the truth from being learned.
The truth is that the government agency that was supposed to protect us from this bullshit didn't.
Where's their trial?
Where's their judgement?
I doubt anyone at the Illinois EPA even got a sternly worded letter in their personnel file.
They messed up.
They let us all down bigtime.
And the people are gonna pay for it.
The CDC study said that cancer rates in the town were 'significantly elevated.'
But the government can't attribute that to the poisoned well.
It's freaking criminal incompetence.
Here's a good one for you government officials.
I found in my research on the internet that fish enthusiasts in town were talking since the mid nineties about how they couldn't keep tropical fish alive in their fish tanks in Deadwood.
Especially the fish in saltwater fish tanks.
Fishtanks filled with water from their faucets.
The fish hobbyists would test the water for nitrates and it was really high.
They couldn't understand why.
Nitrates shouldn't have been in that water at all.
They even published the nitrate levels on their forums.
You could see the numbers from fifteen years ago.
Unless you work for the government.
Then you couldn't see the truth if you ran right into it.
They were using a lot more than twenty percent contaminated water in their deadly blend of toxic tapwater.
There's a multitude of ways to figure it out.
But the government doesn't want you to know just how much.
Because that would show us all how much they failed us.
They'll just charge a couple of clerks with 23 felonies apiece and call it quits.
It looks like they did something that way.
You'll never know the truth.
Not the whole truth.
In the first trial of this whole affair my attorney was getting frustrated with the amount of information I would give him.
I was overwhelming the poor guy with my facts.
'It's the truth... that's reality' I'd say.
Finally he layed it out to me... 'look man... a trial has nothing to do with reality' he said.
I thought that was the dumbest thing I'd ever heard an attorney say.
Time and watching that trial would prove me wrong.
That dude was brilliant.
Everyday the light of the truth is getting dimmer.
And everyday Iron Fist is sittin' down poolside in Boca Raton gettin' away with murder.
We're all suckers.
They say that we get the government that we deserve.
It's always hard to imagine that the people of Deadwood deserved this.
From the series 'There's Something in the Water' here on Flickr... www.flickr.com/photos/light_seeker/sets/72157627041317913...
This portrait of a miner was done underground at the depth of 400 meters in the oldest gold mine in the world - Berezovskaya Shakhta. Miner distracted from his work and delivered to the appointed location. item posing was minimized.
...as a means of minimizing mischance, pulling down the lacy hem of my minidress maximizes my other attributes!
This is another minidress that arrived as a result of my December dress shopping binge. Its a cute and extremely short minidress with lace trim at the sides, neck and hem ...and the wrists too but you can't see that with the satin gloves I'm wearing.
I had an audience in the studio for this photo session, so I'm looking even happier than usual! Thanks MEK!
To see more pix of me in other tight, sexy and revealing outfits click this link:
www.flickr.com/photos/kaceycdpix/sets/72157623668202157/
DSC_7784-8
How to Walk In Heels Like A Pro And Minimize The Pain (Male to Female Transgender / Crossdressing Tips)
travesti.silicone-breast.com/2016/11/26/how-to-walk-in-he...
imgur.com/rBL33Dm.jpg?utm_source=rss&utm_medium=rss
When Marilyn Monroe said: “Give a girl the right shoes, and she can conquer the world,” we’re fairly certain she was talking about heels. But if you can’t walk in said heels? Well, that essentially "Transgender" negates any potential conquests, whether you’re in the boardroom or the bar. Accordi
How to Walk In Heels Like A Pro And Minimize The Pain (Male to Female Transgender / Crossdressing Tips)
travesti.silicone-breast.com/2016/11/26/how-to-walk-in-he...
imgur.com/rBL33Dm.jpg?utm_source=rss&utm_medium=rss
When Marilyn Monroe said: “Give a girl the right shoes, and she can conquer the world,” we’re fairly certain she was talking about heels. But if you can’t walk in said heels? Well, that essentially "Transgender" negates any potential conquests, whether you’re in the boardroom or the bar. Accordi
Gosforth Nature Reserve is a wildlife haven in Tyne and Wear, England. It includes extensive woodland and wetland habitats and is managed by the Natural History Society of Northumbria. Access to the reserve is restricted to NHSN members and those in possession of a valid day pass. Dog walking and other recreational activities are not permitted on site. The reserve is part of Gosforth Park, the old estate of Gosforth House.
History
In medieval times, what is now Gosforth Nature Reserve would have been agricultural land, there is some remaining evidence of ridge and furrow. The general habitat in the area would have been heathland, hence the name of the nearby village of West Moor and the nearby track called Heathery Lane. When the Brandling family took over the land and built their large estate house they had the surrounding area landscaped, as was the fashion of the day. This included planting new woodland and creating a new lake for boating and fishing. From historic maps it appears that the lake was created in the period 1810–1820 and that most of the woodland was planted around the mid-19th century.
The Brandling family fell on hard times and sold off the estate towards the end of the 19th century and from that period onwards nature began to take over. In 1924 in order to prevent hunting and shooting of the wildlife Mr W. E. Beck leased the shooting rights for the lake and surrounding woodland. He was a member of the Natural History Society of Northumbria and in 1929, in declining health, he passed his rights to the trustees of the Society. Since that time the Society has managed this area for the benefit of wildlife.
Habitats and wildlife
Gosforth Nature Reserve contains an important wetland, which is dominated by Phragmites reeds and open water and surrounded by wet carr woodland. These wetland habitats support breeding bird species such as reed warbler, water rail, reed bunting, sedge warbler, common tern and little grebe and in the winter birds such as bittern, kingfisher, wigeon, teal and shoveler. Aquatic mammals such as otter. water vole and water shrew are also present. England's second largest colony of coralroot orchid is also found here.
The majority of the reserve is semi-natural woodland, dominated by oak and birch, however, there are also some plantations of conifers. Woodland mammals such as badger, fox, roe deer and stoat can be found and red squirrel are also still present. Most importantly the woodland supports a wide range of insects, including many uncommon species.
There is also a small area of meadow, which contains plants such as heather and northern marsh orchid.
Site of Special Scientific Interest
Gosforth Park Nature Reserve was designated as a Site of Special Scientific Interest (SSSI) in 1977. The citation includes:
The locality is regionally important for its aquatic, grassland and woodland invertebrate faunas which include two nationally rare species, a small beetle Triplax scutellaris and Adrena alfkenella, a solitary bee.
Ownership and public access
The nature reserve is still part of Newcastle Racecourse, which as of 2015 is owned by Arena Racing Company. It lies to the north-east of the Whitebridge Park housing estate. It is leased to the Natural History Society of Northumbria.
In order to minimize disturbance to sensitive wildlife, there is no public access to the nature reserve, and there are no public rights of way. The reserve is open to members of the Natural History Society of Northumbria; non-members can buy a visitor pass upon arrival. NHSN holds regular public open days on-site and hosts a range of activities for school groups and local people.
Gosforth Park is a park north of Gosforth in the city of Newcastle upon Tyne, England. It houses Newcastle Racecourse, Virgin Money Unity Arena, a Britannia hotel, two golf courses, a garden centre and a football centre. It is also home to Gosforth Nature Reserve, a private SSSI managed by the Natural History Society of Northumbria, consisting of a lake and woodland.
The park was laid out by Charles Brandling (1733–1802), a wealthy coal-mine owner and local politician, to adorn his new mansion, Gosforth House (now Brandling House, the racecourse hospitality and conference centre), built 1755–64.
Up to the 1950s tramcars came into the park on race days through a special gate from what was then the A1 Great North Road.
Between 2016 and 2019 the two walled gardens and icehouse at Gosforth Park were the subject of archaeological investigations by AAG Archaeology, prior to the gardens having houses built within them.
Hotel
The Gosforth Park Hotel, now in the Britannia Hotels chain, was originally built in 1965 and opened by the Duke of Northumberland, and by 1986 was owned by Scottish & Newcastle and run by Thistle Hotels. Between being in the Thistle and Britannia portfolios it had been operated as a Marriott.
Virgin Money Unity Arena
Virgin Money Unity Arena is the UK's first purpose built socially distanced outdoor entertainment venue constructed in the grounds of Gosforth Park. During 2020 the COVID-19 pandemic caused all concert and stand-up comedy events in the country to be cancelled. As the country came out of lockdown a number of efforts were made to re-start entertainment events including some drive-in venues.
The temporary outdoor venue site is 45,000 square metres (480,000 sq ft) and consists of 500 viewing spaces. Each socially distanced viewing space can occupy up to 5 people bringing the maximum capacity of the venue to 2500. The first two concerts on 11 and 13 August by North Tyneside singer Sam Fender sold out in minutes.
The venue is operated by SSD Concerts and Engine No.4. The event's title sponsor is the Virgin Money bank who have their headquarters in the nearby Regent Centre business park.
Newcastle upon Tyne, or simply Newcastle is a cathedral city and metropolitan borough in Tyne and Wear, England. It is located on the River Tyne's northern bank, opposite Gateshead to the south. It is the most populous settlement in the Tyneside conurbation and North East England.
Newcastle developed around a Roman settlement called Pons Aelius, the settlement became known as Monkchester before taking on the name of a castle built in 1080 by William the Conqueror's eldest son, Robert Curthose. It was one of the world's largest ship building and repair centres during the industrial revolution. Newcastle was part of the county of Northumberland until 1400, when it separated and formed a county of itself. In 1974, Newcastle became part of Tyne and Wear. Since 2018, the city council has been part of the North of Tyne Combined Authority.
The history of Newcastle upon Tyne dates back almost 2,000 years, during which it has been controlled by the Romans, the Angles and the Norsemen amongst others. Newcastle upon Tyne was originally known by its Roman name Pons Aelius. The name "Newcastle" has been used since the Norman conquest of England. Due to its prime location on the River Tyne, the town developed greatly during the Middle Ages and it was to play a major role in the Industrial Revolution, being granted city status in 1882. Today, the city is a major retail, commercial and cultural centre.
Roman settlement
The history of Newcastle dates from AD 122, when the Romans built the first bridge to cross the River Tyne at that point. The bridge was called Pons Aelius or 'Bridge of Aelius', Aelius being the family name of Roman Emperor Hadrian, who was responsible for the Roman wall built across northern England along the Tyne–Solway gap. Hadrian's Wall ran through present-day Newcastle, with stretches of wall and turrets visible along the West Road, and at a temple in Benwell. Traces of a milecastle were found on Westgate Road, midway between Clayton Street and Grainger Street, and it is likely that the course of the wall corresponded to present-day Westgate Road. The course of the wall can be traced eastwards to the Segedunum Roman fort at Wallsend, with the fort of Arbeia down-river at the mouth of the Tyne, on the south bank in what is now South Shields. The Tyne was then a wider, shallower river at this point and it is thought that the bridge was probably about 700 feet (210 m) long, made of wood and supported on stone piers. It is probable that it was sited near the current Swing Bridge, due to the fact that Roman artefacts were found there during the building of the latter bridge. Hadrian himself probably visited the site in 122. A shrine was set up on the completed bridge in 123 by the 6th Legion, with two altars to Neptune and Oceanus respectively. The two altars were subsequently found in the river and are on display in the Great North Museum in Newcastle.
The Romans built a stone-walled fort in 150 to protect the river crossing which was at the foot of the Tyne Gorge, and this took the name of the bridge so that the whole settlement was known as Pons Aelius. The fort was situated on a rocky outcrop overlooking the new bridge, on the site of the present Castle Keep. Pons Aelius is last mentioned in 400, in a Roman document listing all of the Roman military outposts. It is likely that nestling in the shadow of the fort would have been a small vicus, or village. Unfortunately, no buildings have been detected; only a few pieces of flagging. It is clear that there was a Roman cemetery near Clavering Place, behind the Central station, as a number of Roman coffins and sarcophagi have been unearthed there.
Despite the presence of the bridge, the settlement of Pons Aelius was not particularly important among the northern Roman settlements. The most important stations were those on the highway of Dere Street running from Eboracum (York) through Corstopitum (Corbridge) and to the lands north of the Wall. Corstopitum, being a major arsenal and supply centre, was much larger and more populous than Pons Aelius.
Anglo-Saxon development
The Angles arrived in the North-East of England in about 500 and may have landed on the Tyne. There is no evidence of an Anglo-Saxon settlement on or near the site of Pons Aelius during the Anglo-Saxon age. The bridge probably survived and there may well have been a small village at the northern end, but no evidence survives. At that time the region was dominated by two kingdoms, Bernicia, north of the Tees and ruled from Bamburgh, and Deira, south of the Tees and ruled from York. Bernicia and Deira combined to form the kingdom of Northanhymbra (Northumbria) early in the 7th century. There were three local kings who held the title of Bretwalda – 'Lord of Britain', Edwin of Deira (627–632), Oswald of Bernicia (633–641) and Oswy of Northumbria (641–658). The 7th century became known as the 'Golden Age of Northumbria', when the area was a beacon of culture and learning in Europe. The greatness of this period was based on its generally Christian culture and resulted in the Lindisfarne Gospels amongst other treasures. The Tyne valley was dotted with monasteries, with those at Monkwearmouth, Hexham and Jarrow being the most famous. Bede, who was based at Jarrow, wrote of a royal estate, known as Ad Murum, 'at the Wall', 12 miles (19 km) from the sea. It is thought that this estate may have been in what is now Newcastle. At some unknown time, the site of Newcastle came to be known as Monkchester. The reason for this title is unknown, as we are unaware of any specific monasteries at the site, and Bede made no reference to it. In 875 Halfdan Ragnarsson, the Danish Viking conqueror of York, led an army that attacked and pillaged various monasteries in the area, and it is thought that Monkchester was also pillaged at this time. Little more was heard of it until the coming of the Normans.
Norman period
After the arrival of William the Conqueror in England in 1066, the whole of England was quickly subjected to Norman rule. However, in Northumbria there was great resistance to the Normans, and in 1069 the newly appointed Norman Earl of Northumbria, Robert de Comines and 700 of his men were killed by the local population at Durham. The Northumbrians then marched on York, but William was able to suppress the uprising. That same year, a second uprising occurred when a Danish fleet landed in the Humber. The Northumbrians again attacked York and destroyed the garrison there. William was again able to suppress the uprising, but this time he took revenge. He laid waste to the whole of the Midlands and the land from York to the Tees. In 1080, William Walcher, the Norman bishop of Durham and his followers were brutally murdered at Gateshead. This time Odo, bishop of Bayeux, William's half brother, devastated the land between the Tees and the Tweed. This was known as the 'Harrying of the North'. This devastation is reflected in the Domesday Book. The destruction had such an effect that the North remained poor and backward at least until Tudor times and perhaps until the Industrial Revolution. Newcastle suffered in this respect with the rest of the North.
In 1080 William sent his eldest son, Robert Curthose, north to defend the kingdom against the Scots. After his campaign, he moved to Monkchester and began the building of a 'New Castle'. This was of the "motte-and-bailey" type of construction, a wooden tower on top of an earthen mound (motte), surrounded by a moat and wooden stockade (bailey). It was this castle that gave Newcastle its name. In 1095 the Earl of Northumbria, Robert de Mowbray, rose up against the king, William Rufus, and Rufus sent an army north to recapture the castle. From then on the castle became crown property and was an important base from which the king could control the northern barons. The Northumbrian earldom was abolished and a Sheriff of Northumberland was appointed to administer the region. In 1091 the parish church of St Nicholas was consecrated on the site of the present Anglican cathedral, close by the bailey of the new castle. The church is believed to have been a wooden building on stone footings.
Not a trace of the tower or mound of the motte and bailey castle remains now. Henry II replaced it with a rectangular stone keep, which was built between 1172 and 1177 at a cost of £1,444. A stone bailey, in the form of a triangle, replaced the previous wooden one. The great outer gateway to the castle, called 'the Black Gate', was built later, between 1247 and 1250, in the reign of Henry III. There were at that time no town walls and when attacked by the Scots, the townspeople had to crowd into the bailey for safety. It is probable that the new castle acted as a magnet for local merchants because of the safety it provided. This in turn would help to expand trade in the town. At this time wool, skins and lead were being exported, whilst alum, pepper and ginger were being imported from France and Flanders.
Middle Ages
Throughout the Middle Ages, Newcastle was England's northern fortress, the centre for assembled armies. The Border war against Scotland lasted intermittently for several centuries – possibly the longest border war ever waged. During the civil war between Stephen and Matilda, David 1st of Scotland and his son were granted Cumbria and Northumberland respectively, so that for a period from 1139 to 1157, Newcastle was effectively in Scottish hands. It is believed that during this period, King David may have built the church of St Andrew and the Benedictine nunnery in Newcastle. However, King Stephen's successor, Henry II was strong enough to take back the Earldom of Northumbria from Malcolm IV.
The Scots king William the Lion was imprisoned in Newcastle, in 1174, after being captured at the Battle of Alnwick. Edward I brought the Stone of Scone and William Wallace south through the town and Newcastle was successfully defended against the Scots three times during the 14th century.
Around 1200, stone-faced, clay-filled jetties were starting to project into the river, an indication that trade was increasing in Newcastle. As the Roman roads continued to deteriorate, sea travel was gaining in importance. By 1275 Newcastle was the sixth largest wool exporting port in England. The principal exports at this time were wool, timber, coal, millstones, dairy produce, fish, salt and hides. Much of the developing trade was with the Baltic countries and Germany. Most of the Newcastle merchants were situated near the river, below the Castle. The earliest known charter was dated 1175 in the reign of Henry II, giving the townspeople some control over their town. In 1216 King John granted Newcastle a mayor[8] and also allowed the formation of guilds (known as Mysteries). These were cartels formed within different trades, which restricted trade to guild members. There were initially twelve guilds. Coal was being exported from Newcastle by 1250, and by 1350 the burgesses received a royal licence to export coal. This licence to export coal was jealously guarded by the Newcastle burgesses, and they tried to prevent any one else on the Tyne from exporting coal except through Newcastle. The burgesses similarly tried to prevent fish from being sold anywhere else on the Tyne except Newcastle. This led to conflicts with Gateshead and South Shields.
In 1265, the town was granted permission to impose a 'Wall Tax' or Murage, to pay for the construction of a fortified wall to enclose the town and protect it from Scottish invaders. The town walls were not completed until early in the 14th century. They were two miles (3 km) long, 9 feet (2.7 m) thick and 25 feet (7.6 m) high. They had six main gates, as well as some smaller gates, and had 17 towers. The land within the walls was divided almost equally by the Lort Burn, which flowed southwards and joined the Tyne to the east of the Castle. The town began to expand north of the Castle and west of the Lort Burn with various markets being set up within the walls.
In 1400 Henry IV granted a new charter, creating a County corporate which separated the town, but not the Castle, from the county of Northumberland and recognised it as a "county of itself" with a right to have a sheriff of its own. The burgesses were now allowed to choose six aldermen who, with the mayor would be justices of the peace. The mayor and sheriff were allowed to hold borough courts in the Guildhall.
Religious houses
During the Middle Ages a number of religious houses were established within the walls: the first of these was the Benedictine nunnery of St Bartholomew founded in 1086 near the present-day Nun Street. Both David I of Scotland and Henry I of England were benefactors of the religious house. Nothing of the nunnery remains now.
The friary of Blackfriars, Newcastle (Dominican) was established in 1239. These were also known as the Preaching Friars or Shod Friars, because they wore sandals, as opposed to other orders. The friary was situated in the present-day Friars Street. In 1280 the order was granted royal permission to make a postern in the town walls to communicate with their gardens outside the walls. On 19 June 1334, Edward Balliol, claimant to be King of Scotland, did homage to King Edward III, on behalf of the kingdom of Scotland, in the church of the friary. Much of the original buildings of the friary still exist, mainly because, after the Dissolution of the Monasteries the friary of Blackfriars was rented out by the corporation to nine of the local trade guilds.
The friary of Whitefriars (Carmelite) was established in 1262. The order was originally housed on the Wall Knoll in Pandon, but in 1307 it took over the buildings of another order, which went out of existence, the Friars of the Sac. The land, which had originally been given by Robert the Bruce, was situated in the present-day Hanover Square, behind the Central station. Nothing of the friary remains now.
The friary of Austinfriars (Augustinian) was established in 1290. The friary was on the site where the Holy Jesus Hospital was built in 1682. The friary was traditionally the lodging place of English kings whenever they visited or passed through Newcastle. In 1503 Princess Margaret, eldest daughter of Henry VII of England, stayed two days at the friary on her way to join her new husband James IV of Scotland.
The friary of Greyfriars (Franciscans) was established in 1274. The friary was in the present-day area between Pilgrim Street, Grey Street, Market Street and High Chare. Nothing of the original buildings remains.
The friary of the Order of the Holy Trinity, also known as the Trinitarians, was established in 1360. The order devoted a third of its income to buying back captives of the Saracens, during the Crusades. Their house was on the Wall Knoll, in Pandon, to the east of the city, but within the walls. Wall Knoll had previously been occupied by the White Friars until they moved to new premises in 1307.
All of the above religious houses were closed in about 1540, when Henry VIII dissolved the monasteries.
An important street running through Newcastle at the time was Pilgrim Street, running northwards inside the walls and leading to the Pilgrim Gate on the north wall. The street still exists today as arguably Newcastle's main shopping street.
Tudor period
The Scottish border wars continued for much of the 16th century, so that during that time, Newcastle was often threatened with invasion by the Scots, but also remained important as a border stronghold against them.
During the Reformation begun by Henry VIII in 1536, the five Newcastle friaries and the single nunnery were dissolved and the land was sold to the Corporation and to rich merchants. At this time there were fewer than 60 inmates of the religious houses in Newcastle. The convent of Blackfriars was leased to nine craft guilds to be used as their headquarters. This probably explains why it is the only one of the religious houses whose building survives to the present day. The priories at Tynemouth and Durham were also dissolved, thus ending the long-running rivalry between Newcastle and the church for control of trade on the Tyne. A little later, the property of the nunnery of St Bartholomew and of Grey Friars were bought by Robert Anderson, who had the buildings demolished to build his grand Newe House (also known as Anderson Place).
With the gradual decline of the Scottish border wars the town walls were allowed to decline as well as the castle. By 1547, about 10,000 people were living in Newcastle. At the beginning of the 16th century exports of wool from Newcastle were more than twice the value of exports of coal, but during the century coal exports continued to increase.
Under Edward VI, John Dudley, Duke of Northumberland, sponsored an act allowing Newcastle to annexe Gateshead as its suburb. The main reason for this was to allow the Newcastle Hostmen, who controlled the export of Tyne coal, to get their hands on the Gateshead coal mines, previously controlled by the Bishop of Durham. However, when Mary I came to power, Dudley met his downfall and the decision was reversed. The Reformation allowed private access to coal mines previously owned by Tynemouth and Durham priories and as a result coal exports increase dramatically, from 15,000 tons in 1500 to 35,000 tons in 1565, and to 400,000 tons in 1625.
The plague visited Newcastle four times during the 16th century, in 1579 when 2,000 people died, in 1589 when 1700 died, in 1595 and finally in 1597.
In 1600 Elizabeth I granted Newcastle a charter for an exclusive body of electors, the right to elect the mayor and burgesses. The charter also gave the Hostmen exclusive rights to load coal at any point on the Tyne. The Hostmen developed as an exclusive group within the Merchant Adventurers who had been incorporated by a charter in 1547.
Stuart period
In 1636 there was a serious outbreak of bubonic plague in Newcastle. There had been several previous outbreaks of the disease over the years, but this was the most serious. It is thought to have arrived from the Netherlands via ships that were trading between the Tyne and that country. It first appeared in the lower part of the town near the docks but gradually spread to all parts of the town. As the disease gained hold the authorities took measures to control it by boarding up any properties that contained infected persons, meaning that whole families were locked up together with the infected family members. Other infected persons were put in huts outside the town walls and left to die. Plague pits were dug next to the town's four churches and outside the town walls to receive the bodies in mass burials. Over the course of the outbreak 5,631 deaths were recorded out of an estimated population of 12,000, a death rate of 47%.
In 1637 Charles I tried to raise money by doubling the 'voluntary' tax on coal in return for allowing the Newcastle Hostmen to regulate production and fix prices. This caused outrage amongst the London importers and the East Anglian shippers. Both groups decided to boycott Tyne coal and as a result forced Charles to reverse his decision in 1638.
In 1640 during the Second Bishops' War, the Scots successfully invaded Newcastle. The occupying army demanded £850 per day from the Corporation to billet the Scottish troops. Trade from the Tyne ground to a halt during the occupation. The Scots left in 1641 after receiving a Parliamentary pardon and a £4,000,000 loan from the town.
In 1642 the English Civil War began. King Charles realised the value of the Tyne coal trade and therefore garrisoned Newcastle. A Royalist was appointed as governor. At that time, Newcastle and King's Lynn were the only important seaports to support the crown. In 1644 Parliament blockaded the Tyne to prevent the king from receiving revenue from the Tyne coal trade. Coal exports fell from 450,000 to 3,000 tons and London suffered a hard winter without fuel. Parliament encouraged the coal trade from the Wear to try to replace that lost from Newcastle but that was not enough to make up for the lost Tyneside tonnage.
In 1644 the Scots crossed the border. Newcastle strengthened its defences in preparation. The Scottish army, with 40,000 troops, besieged Newcastle for three months until the garrison of 1,500 surrendered. During the siege, the Scots bombarded the walls with their artillery, situated in Gateshead and Castle Leazes. The Scottish commander threatened to destroy the steeple of St Nicholas's Church by gunfire if the mayor, Sir John Marley, did not surrender the town. The mayor responded by placing Scottish prisoners that they had captured in the steeple, so saving it from destruction. The town walls were finally breached by a combination of artillery and sapping. In gratitude for this defence, Charles gave Newcastle the motto 'Fortiter Defendit Triumphans' to be added to its coat of arms. The Scottish army occupied Northumberland and Durham for two years. The coal taxes had to pay for the Scottish occupation. In 1645 Charles surrendered to the Scots and was imprisoned in Newcastle for nine months. After the Civil War the coal trade on the Tyne soon picked up and exceeded its pre-war levels.
A new Guildhall was completed on the Sandhill next to the river in 1655, replacing an earlier facility damaged by fire in 1639, and became the meeting place of Newcastle Town Council. In 1681 the Hospital of the Holy Jesus was built partly on the site of the Austin Friars. The Guildhall and Holy Jesus Hospital still exist.
Charles II tried to impose a charter on Newcastle to give the king the right to appoint the mayor, sheriff, recorder and town clerk. Charles died before the charter came into effect. In 1685, James II tried to replace Corporation members with named Catholics. However, James' mandate was suspended in 1689 after the Glorious Revolution welcoming William of Orange. In 1689, after the fall of James II, the people of Newcastle tore down his bronze equestrian statue in Sandhill and tossed it into the Tyne. The bronze was later used to make bells for All Saints Church.
In 1689 the Lort Burn was covered over. At this time it was an open sewer. The channel followed by the Lort Burn became the present day Dean Street. At that time, the centre of Newcastle was still the Sandhill area, with many merchants living along the Close or on the Side. The path of the main road through Newcastle ran from the single Tyne bridge, through Sandhill to the Side, a narrow street which climbed steeply on the north-east side of the castle hill until it reached the higher ground alongside St Nicholas' Church. As Newcastle developed, the Side became lined with buildings with projecting upper stories, so that the main street through Newcastle was a narrow, congested, steep thoroughfare.
In 1701 the Keelmen's Hospital was built in the Sandgate area of the city, using funds provided by the keelmen. The building still stands today.
Eighteenth century
In the 18th century, Newcastle was the country's largest print centre after London, Oxford and Cambridge, and the Literary and Philosophical Society of 1793, with its erudite debates and large stock of books in several languages predated the London Library by half a century.
In 1715, during the Jacobite rising in favour of the Old Pretender, an army of Jacobite supporters marched on Newcastle. Many of the Northumbrian gentry joined the rebels. The citizens prepared for its arrival by arresting Jacobite supporters and accepting 700 extra recruits into the local militia. The gates of the city were closed against the rebels. This proved enough to delay an attack until reinforcements arrived forcing the rebel army to move across to the west coast. The rebels finally surrendered at Preston.
In 1745, during a second Jacobite rising in favour of the Young Pretender, a Scottish army crossed the border led by Bonnie Prince Charlie. Once again Newcastle prepared by arresting Jacobite supporters and inducting 800 volunteers into the local militia. The town walls were strengthened, most of the gates were blocked up and some 200 cannon were deployed. 20,000 regulars were billeted on the Town Moor. These preparations were enough to force the rebel army to travel south via the west coast. They were eventually defeated at Culloden in 1746.
Newcastle's actions during the 1715 rising in resisting the rebels and declaring for George I, in contrast to the rest of the region, is the most likely source of the nickname 'Geordie', applied to people from Tyneside, or more accurately Newcastle. Another theory, however, is that the name 'Geordie' came from the inventor of the Geordie lamp, George Stephenson. It was a type of safety lamp used in mining, but was not invented until 1815. Apparently the term 'German Geordie' was in common use during the 18th century.
The city's first hospital, Newcastle Infirmary opened in 1753; it was funded by public subscription. A lying-in hospital was established in Newcastle in 1760. The city's first public hospital for mentally ill patients, Wardens Close Lunatic Hospital was opened in October 1767.
In 1771 a flood swept away much of the bridge at Newcastle. The bridge had been built in 1250 and repaired after a flood in 1339. The bridge supported various houses and three towers and an old chapel. A blue stone was placed in the middle of the bridge to mark the boundary between Newcastle and the Palatinate of Durham. A temporary wooden bridge had to be built, and this remained in use until 1781, when a new stone bridge was completed. The new bridge consisted of nine arches. In 1801, because of the pressure of traffic, the bridge had to be widened.
A permanent military presence was established in the city with the completion of Fenham Barracks in 1806. The facilities at the Castle for holding assizes, which had been condemned for their inconvenience and unhealthiness, were replaced when the Moot Hall opened in August 1812.
Victorian period
Present-day Newcastle owes much of its architecture to the work of the builder Richard Grainger, aided by architects John Dobson, Thomas Oliver, John and Benjamin Green and others. In 1834 Grainger won a competition to produce a new plan for central Newcastle. He put this plan into effect using the above architects as well as architects employed in his own office. Grainger and Oliver had already built Leazes Terrace, Leazes Crescent and Leazes Place between 1829 and 1834. Grainger and Dobson had also built the Royal Arcade at the foot of Pilgrim Street between 1830 and 1832. The most ambitious project covered 12 acres 12 acres (49,000 m2) in central Newcastle, on the site of Newe House (also called Anderson Place). Grainger built three new thoroughfares, Grey Street, Grainger Street and Clayton Street with many connecting streets, as well as the Central Exchange and the Grainger Market. John Wardle and George Walker, working in Grainger's office, designed Clayton Street, Grainger Street and most of Grey Street. Dobson designed the Grainger Market and much of the east side of Grey Street. John and Benjamin Green designed the Theatre Royal at the top of Grey Street, where Grainger placed the column of Grey's Monument as a focus for the whole scheme. Grey Street is considered to be one of the finest streets in the country, with its elegant curve. Unfortunately most of old Eldon Square was demolished in the 1960s in the name of progress. The Royal Arcade met a similar fate.
In 1849 a new bridge was built across the river at Newcastle. This was the High Level Bridge, designed by Robert Stephenson, and slightly up river from the existing bridge. The bridge was designed to carry road and rail traffic across the Tyne Gorge on two decks with rail traffic on the upper deck and road traffic on the lower. The new bridge meant that traffic could pass through Newcastle without having to negotiate the steep, narrow Side, as had been necessary for centuries. The bridge was opened by Queen Victoria, who one year later opened the new Central Station, designed by John Dobson. Trains were now able to cross the river, directly into the centre of Newcastle and carry on up to Scotland. The Army Riding School was also completed in 1849.
In 1854 a large fire started on the Gateshead quayside and an explosion caused it to spread across the river to the Newcastle quayside. A huge conflagration amongst the narrow alleys, or 'chares', destroyed the homes of 800 families as well as many business premises. The narrow alleys that had been destroyed were replaced by streets containing blocks of modern offices.
In 1863 the Town Hall in St Nicholas Square replaced the Guildhall as the meeting place of Newcastle Town Council.
In 1876 the low level bridge was replaced by a new bridge known as the Swing Bridge, so called because the bridge was able to swing horizontally on a central axis and allow ships to pass on either side. This meant that for the first time sizeable ships could pass up-river beyond Newcastle. The bridge was built and paid for by William Armstrong, a local arms manufacturer, who needed to have warships access his Elswick arms factory to fit armaments to them. The Swing Bridge's rotating mechanism is adapted from the cannon mounts developed in Armstrong's arms works. In 1882 the Elswick works began to build ships as well as to arm them. The Barrack Road drill hall was completed in 1890.
Industrialisation
In the 19th century, shipbuilding and heavy engineering were central to the city's prosperity; and the city was a powerhouse of the Industrial Revolution. Newcastle's development as a major city owed most to its central role in the production and export of coal. The phrase "taking coals to Newcastle" was first recorded in 1538; it proverbially denotes bringing a particular commodity to a place that has more than enough of it already.
Innovation in Newcastle and surrounding areas included the following:
George Stephenson developed a miner's safety lamp at the same time that Humphry Davy developed a rival design. The lamp made possible the opening up of ever deeper mines to provide the coal that powered the industrial revolution.
George and his son Robert Stephenson were hugely influential figures in the development of the early railways. George developed Blücher, a locomotive working at Killingworth colliery in 1814, whilst Robert was instrumental in the design of Rocket, a revolutionary design that was the forerunner of modern locomotives. Both men were involved in planning and building railway lines, all over this country and abroad.
Joseph Swan demonstrated a working electric light bulb about a year before Thomas Edison did the same in the USA. This led to a dispute as to who had actually invented the light bulb. Eventually the two rivals agreed to form a mutual company between them, the Edison and Swan Electric Light Company, known as Ediswan.
Charles Algernon Parsons invented the steam turbine, for marine use and for power generation. He used Turbinia, a small, turbine-powered ship, to demonstrate the speed that a steam turbine could generate. Turbinia literally ran rings around the British Fleet at a review at Spithead in 1897.
William Armstrong invented a hydraulic crane that was installed in dockyards up and down the country. He then began to design light, accurate field guns for the British army. These were a vast improvement on the existing guns that were then in use.
The following major industries developed in Newcastle or its surrounding area:
Glassmaking
A small glass industry existed in Newcastle from the mid-15th century. In 1615 restrictions were put on the use of wood for manufacturing glass. It was found that glass could be manufactured using the local coal, and so a glassmaking industry grew up on Tyneside. Huguenot glassmakers came over from France as refugees from persecution and set up glasshouses in the Skinnerburn area of Newcastle. Eventually, glass production moved to the Ouseburn area of Newcastle. In 1684 the Dagnia family, Sephardic Jewish emigrants from Altare, arrived in Newcastle from Stourbridge and established glasshouses along the Close, to manufacture high quality flint glass. The glass manufacturers used sand ballast from the boats arriving in the river as the main raw material. The glassware was then exported in collier brigs. The period from 1730 to 1785 was the highpoint of Newcastle glass manufacture, when the local glassmakers produced the 'Newcastle Light Baluster'. The glassmaking industry still exists in the west end of the city with local Artist and Glassmaker Jane Charles carrying on over four hundred years of hot glass blowing in Newcastle upon Tyne.
Locomotive manufacture
In 1823 George Stephenson and his son Robert established the world's first locomotive factory near Forth Street in Newcastle. Here they built locomotives for the Stockton and Darlington Railway and the Liverpool and Manchester Railway, as well as many others. It was here that the famous locomotive Rocket was designed and manufactured in preparation for the Rainhill Trials. Apart from building locomotives for the British market, the Newcastle works also produced locomotives for Europe and America. The Forth Street works continued to build locomotives until 1960.
Shipbuilding
In 1296 a wooden, 135 ft (41 m) long galley was constructed at the mouth of the Lort Burn in Newcastle, as part of a twenty-ship order from the king. The ship cost £205, and is the earliest record of shipbuilding in Newcastle. However the rise of the Tyne as a shipbuilding area was due to the need for collier brigs for the coal export trade. These wooden sailing ships were usually built locally, establishing local expertise in building ships. As ships changed from wood to steel, and from sail to steam, the local shipbuilding industry changed to build the new ships. Although shipbuilding was carried out up and down both sides of the river, the two main areas for building ships in Newcastle were Elswick, to the west, and Walker, to the east. By 1800 Tyneside was the third largest producer of ships in Britain. Unfortunately, after the Second World War, lack of modernisation and competition from abroad gradually caused the local industry to decline and die.
Armaments
In 1847 William Armstrong established a huge factory in Elswick, west of Newcastle. This was initially used to produce hydraulic cranes but subsequently began also to produce guns for both the army and the navy. After the Swing Bridge was built in 1876 allowing ships to pass up river, warships could have their armaments fitted alongside the Elswick works. Armstrong's company took over its industrial rival, Joseph Whitworth of Manchester in 1897.
Steam turbines
Charles Algernon Parsons invented the steam turbine and, in 1889, founded his own company C. A. Parsons and Company in Heaton, Newcastle to make steam turbines. Shortly after this, he realised that steam turbines could be used to propel ships and, in 1897, he founded a second company, Parsons Marine Steam Turbine Company in Wallsend. It is there that he designed and manufactured Turbinia. Parsons turbines were initially used in warships but soon came to be used in merchant and passenger vessels, including the liner Mauretania which held the blue riband for the Atlantic crossing until 1929. Parsons' company in Heaton began to make turbo-generators for power stations and supplied power stations all over the world. The Heaton works, reduced in size, remains as part of the Siemens AG industrial giant.
Pottery
In 1762 the Maling pottery was founded in Sunderland by French Huguenots, but transferred to Newcastle in 1817. A factory was built in the Ouseburn area of the city. The factory was rebuilt twice, finally occupying a 14-acre (57,000 m2) site that was claimed to be the biggest pottery in the world and which had its own railway station. The pottery pioneered use of machines in making potteries as opposed to hand production. In the 1890s the company went up-market and employed in-house designers. The period up to the Second World War was the most profitable with a constant stream of new designs being introduced. However, after the war, production gradually declined and the company closed in 1963.
Expansion of the city
Newcastle was one of the boroughs reformed by the Municipal Corporations Act 1835: the reformed municipal borough included the parishes of Byker, Elswick, Heaton, Jesmond, Newcastle All Saints, Newcastle St Andrew, Newcastle St John, Newcastle St Nicholas, and Westgate. The urban districts of Benwell and Fenham and Walker were added in 1904. In 1935, Newcastle gained Kenton and parts of the parishes of West Brunton, East Denton, Fawdon, Longbenton. The most recent expansion in Newcastle's boundaries took place under the Local Government Act 1972 on 1 April 1974, when Newcastle became a metropolitan borough, also including the urban districts of Gosforth and Newburn, and the parishes of Brunswick, Dinnington, Hazlerigg, North Gosforth and Woolsington from the Castle Ward Rural District, and the village of Westerhope.
Meanwhile Northumberland County Council was formed under the Local Government Act 1888 and benefited from a dedicated meeting place when County Hall was completed in the Castle Garth area of Newcastle in 1910. Following the Local Government Act 1972 County Hall relocated to Morpeth in April 1981.
Twentieth century
In 1925 work began on a new high-level road bridge to span the Tyne Gorge between Newcastle and Gateshead. The capacity of the existing High-Level Bridge and Swing Bridge were being strained to the limit, and an additional bridge had been discussed for a long time. The contract was awarded to the Dorman Long Company and the bridge was finally opened by King George V in 1928. The road deck was 84 feet (26 m) above the river and was supported by a 531 feet (162 m) steel arch. The new Tyne Bridge quickly became a symbol for Newcastle and Tyneside, and remains so today.
During the Second World War, Newcastle was largely spared the horrors inflicted upon other British cities bombed during the Blitz. Although the armaments factories and shipyards along the River Tyne were targeted by the Luftwaffe, they largely escaped unscathed. Manors goods yard and railway terminal, to the east of the city centre, and the suburbs of Jesmond and Heaton suffered bombing during 1941. There were 141 deaths and 587 injuries, a relatively small figure compared to the casualties in other industrial centres of Britain.
In 1963 the city gained its own university, the University of Newcastle upon Tyne, by act of parliament. A School of Medicine and Surgery had been established in Newcastle in 1834. This eventually developed into a college of medicine attached to Durham University. A college of physical science was also founded and became Armstrong College in 1904. In 1934 the two colleges merged to become King's College, Durham. This remained as part of Durham University until the new university was created in 1963. In 1992 the city gained its second university when Newcastle Polytechnic was granted university status as Northumbria University.
Newcastle City Council moved to the new Newcastle Civic Centre in 1968.
As heavy industries declined in the second half of the 20th century, large sections of the city centre were demolished along with many areas of slum housing. The leading political figure in the city during the 1960s was T. Dan Smith who oversaw a massive building programme of highrise housing estates and authorised the demolition of a quarter of the Georgian Grainger Town to make way for Eldon Square Shopping Centre. Smith's control in Newcastle collapsed when it was exposed that he had used public contracts to advantage himself and his business associates and for a time Newcastle became a byword for civic corruption as depicted in the films Get Carter and Stormy Monday and in the television series Our Friends in the North. However, much of the historic Grainger Town area survived and was, for the most part, fully restored in the late 1990s. Northumberland Street, initially the A1, was gradually closed to traffic from the 1970s and completely pedestrianised by 1998.
In 1978 a new rapid transport system, the Metro, was built, linking the Tyneside area. The system opened in August 1980. A new bridge was built to carry the Metro across the river between Gateshead and Newcastle. This was the Queen Elizabeth II Bridge, commonly known as the Metro Bridge. Eventually the Metro system was extended to reach Newcastle Airport in 1991, and in 2002 the Metro system was extended to the nearby city of Sunderland.
As the 20th century progressed, trade on the Newcastle and Gateshead quaysides gradually declined, until by the 1980s both sides of the river were looking rather derelict. Shipping company offices had closed along with offices of firms related to shipping. There were also derelict warehouses lining the riverbank. Local government produced a master plan to re-develop the Newcastle quayside and this was begun in the 1990s. New offices, restaurants, bars and residential accommodation were built and the area has changed in the space of a few years into a vibrant area, partially returning the focus of Newcastle to the riverside, where it was in medieval times.
The Gateshead Millennium Bridge, a foot and cycle bridge, 26 feet (7.9 m) wide and 413 feet (126 m) long, was completed in 2001. The road deck is in the form of a curve and is supported by a steel arch. To allow ships to pass, the whole structure, both arch and road-deck, rotates on huge bearings at either end so that the road deck is lifted. The bridge can be said to open and shut like a human eye. It is an important addition to the re-developed quayside area, providing a vital link between the Newcastle and Gateshead quaysides.
Recent developments
Today the city is a vibrant centre for office and retail employment, but just a short distance away there are impoverished inner-city housing estates, in areas originally built to provide affordable housing for employees of the shipyards and other heavy industries that lined the River Tyne. In the 2010s Newcastle City Council began implementing plans to regenerate these depressed areas, such as those along the Ouseburn Valley.
Picture 1-2- completed the annual cleaning of the layout, moved back all figs, vehicles and ships- I also installed a new air cleaning machine in order to minimize dust in the room (Picture 2- right top corner 😊), it does a GREAT job in addition to the ‘old’ one
Picture 3-4- the farm diorama was moved next to the hangar and will be extended in 2021, also cleaned up and organized all sets for the amusement park display
Picture 5- the winter diorama got more baseplates as well, placed my latest winter MOD’s on the display, more updates coming next year
Picture 6- I finally decided to keep the airport terminal on this particular display table, Ninjago City display coming in 2021 in the background, using the previously completed buildings, sets and all accessories were organized and cleaned
Picture 7-8- display areas were cleaned up, I decided to put my latest Endor MOC to a frequent place
Picture 9- the area I will work on next in my city, will add a school MOC (48x48) and complete the access to the square, river walkway and two bridges
Picture 10- I will say good bye to the red couch spring 2021 and a new display table will be added to the room hosting the long waited medieval diorama (8x5 standard baseplates)
Beside all that I cleaned and re-organized all of my drawers and the entire spare part collection....additional led lights will be installed next week and building will also start soon 😊
A camel is an even-toed ungulate within the genus Camelus, bearing distinctive fatty deposits known as "humps" on its back. The two surviving species of camel are the dromedary, or one-humped camel (C. dromedarius), which inhabits the Middle East and the Horn of Africa; and the bactrian, or two-humped camel (C. bactrianus), which inhabits Central Asia. Both species have been domesticated; they provide milk, meat, hair for textiles or goods such as felted pouches, and are working animals with tasks ranging from human transport to bearing loads.
The term "camel" is derived via Latin and Greek (camelus and κάμηλος kamēlos respectively) from Hebrew or Phoenician gāmāl.
"Camel" is also used more broadly to describe any of the six camel-like mammals in the family Camelidae: the two true camels and the four New World camelids: the llama, alpaca, guanaco, and vicuña of South America.
BIOLOGY
The average life expectancy of a camel is 40 to 50 years. A full-grown adult camel stands 1.85 m at the shoulder and 2.15 m at the hump. Camels can run at up to 65 km/h in short bursts and sustain speeds of up to 40 km/h. Bactrian camels weigh 300 to 1,000 kg and dromedaries 300 to 600 kg.
The male dromedary camel has in its throat an organ called a dulla, a large, inflatable sac he extrudes from his mouth when in rut to assert dominance and attract females. It resembles a long, swollen, pink tongue hanging out of the side of its mouth. Camels mate by having both male and female sitting on the ground, with the male mounting from behind. The male usually ejaculates three or four times within a single mating session. Camelids are the only ungulates to mate in a sitting position.
ECOLOGICAL AND BEHAVIORAL ADAPTIONS
Camels do not directly store water in their humps as was once commonly believed. The humps are actually reservoirs of fatty tissue: concentrating body fat in their humps minimizes the insulating effect fat would have if distributed over the rest of their bodies, helping camels survive in hot climates. When this tissue is metabolized, it yields more than one gram of water for every gram of fat processed. This fat metabolization, while releasing energy, causes water to evaporate from the lungs during respiration (as oxygen is required for the metabolic process): overall, there is a net decrease in water.
Camels have a series of physiological adaptations that allow them to withstand long periods of time without any external source of water. Unlike other mammals, their red blood cells are oval rather than circular in shape. This facilitates the flow of red blood cells during dehydration and makes them better at withstanding high osmotic variation without rupturing when drinking large amounts of water: a 600 kg camel can drink 200 L of water in three minutes.
Camels are able to withstand changes in body temperature and water consumption that would kill most other animals. Their temperature ranges from 34 °C at dawn and steadily increases to 40 °C by sunset, before they cool off at night again. Maintaining the brain temperature within certain limits is critical for animals; to assist this, camels have a rete mirabile, a complex of arteries and veins lying very close to each other which utilizes countercurrent blood flow to cool blood flowing to the brain. Camels rarely sweat, even when ambient temperatures reach 49 °C Any sweat that does occur evaporates at the skin level rather than at the surface of their coat; the heat of vaporization therefore comes from body heat rather than ambient heat. Camels can withstand losing 25% of their body weight to sweating, whereas most other mammals can withstand only about 12–14% dehydration before cardiac failure results from circulatory disturbance.
When the camel exhales, water vapor becomes trapped in their nostrils and is reabsorbed into the body as a means to conserve water. Camels eating green herbage can ingest sufficient moisture in milder conditions to maintain their bodies' hydrated state without the need for drinking.
The camels' thick coats insulate them from the intense heat radiated from desert sand; a shorn camel must sweat 50% more to avoid overheating. During the summer the coat becomes lighter in color, reflecting light as well as helping avoid sunburn. The camel's long legs help by keeping its body farther from the ground, which can heat up to 70 °C. Dromedaries have a pad of thick tissue over the sternum called the pedestal. When the animal lies down in a sternal recumbent position, the pedestal raises the body from the hot surface and allows cooling air to pass under the body.
Camels' mouths have a thick leathery lining, allowing them to chew thorny desert plants. Long eyelashes and ear hairs, together with nostrils that can close, form a barrier against sand. If sand gets lodged in their eyes, they can dislodge it using their transparent third eyelid. The camels' gait and widened feet help them move without sinking into the sand.
The kidneys and intestines of a camel are very efficient at reabsorbing water. Camel urine comes out as a thick syrup, and camel feces are so dry that they do not require drying when the Bedouins use them to fuel fires.
Camels' immune system differs from those of other mammals. Normally, the Y-shaped antibody molecules consist of two heavy (or long) chains along the length of the Y, and two light (or short) chains at each tip of the Y. Camels, in addition to these, also have antibodies made of only two heavy chains, a trait that makes them smaller and more durable. These "heavy-chain-only" antibodies, discovered in 1993, are thought to have developed 50 million years ago, after camelids split from ruminants and pigs.
GENETICS
The karyotypes of different camelid species have been studied earlier by many groups, but no agreement on chromosome nomenclature of camelids has been reached. A 2007 study flow sorted camel chromosomes, building on the fact that camels have 37 pairs of chromosomes (2n=74), and found that the karyotime consisted of one metacentric, three submetacentric, and 32 acrocentric autosomes. The Y is a small metacentric chromosome, while the X is a large metacentric chromosome.The hybrid camel, a hybrid between Bactrian and dromedary camels, has one hump, though it has an indentation 4–12 cm deep that divides the front from the back. The hybrid is 2.15 m at the shoulder and 2.32 m tall at the hump. It weighs an average of 650 kg and can carry around 400 to 450 kg, which is more than either the dromedary or Bactrian can. According to molecular data, the New World and Old World camelids diverged 11 million years ago. In spite of this, these species can still hybridize and produce fertile offspring. The cama is a camel–llama hybrid bred by scientists who wanted to see how closely related the parent species were. Scientists collected semen from a camel via an artificial vagina and inseminated a llama after stimulating ovulation with gonadotrophin injections. The cama has ears halfway between the length of camel and llama ears, no hump, longer legs than the llama, and partially cloven hooves. According to cama breeder Lulu Skidmore, cama have "the fleece of the llamas" and "the strength and patience of the camel". Like the mule, camas are sterile, despite both parents having the same number of chromosomes.
EVOLUTION
The earliest known camel, called Protylopus, lived in North America 40 to 50 million years ago (during the Eocene). It was about the size of a rabbit and lived in the open woodlands of what is now South Dakota. By 35 million years ago, the Poebrotherium was the size of a goat and had many more traits similar to camels and llamas. The hoofed Stenomylus, which walked on the tips of its toes, also existed around this time, and the long-necked Aepycamelus evolved in the Miocene.
The direct ancestor of all modern camels, Procamelus, existed in the upper Miocone and lower Pliocene. Around 3–5 million years ago, the North American Camelidae spread to South America via the Isthmus of Panama, where they gave rise to guanacos and related animals, and to Asia via the Bering land bridge. Surprising finds of fossil Paracamelus on Ellesmere Island beginning in 2006 in the high Canadian Arctic indicate the dromedary is descended from a larger, boreal browser whose hump may have evolved as an adaptation in a cold climate. This creature is estimated to have stood around nine feet tall.
The last camel native to North America was Camelops hesternus, which vanished along with horses, short-faced bears, mammoths and mastodons, ground sloths, sabertooth cats, and many other megafauna, coinciding with the migration of humans from Asia.
DOMESTICATION
Most camels surviving today are domesticated. Along with many other megafauna in North America, the original wild camels were wiped out during the spread of Native Americans from Asia into North America, 12,000 to 10,000 years ago. The only wild camels left are the Bactrian camels of the Gobi Desert.
Like the horse, before their extinction in their native land, camels spread across the Bering land bridge, moving the opposite direction from the Asian immigration to America, to survive in the Old World and eventually be domesticated and spread globally by humans.
Dromedaries may have first been domesticated by humans in Somalia and southern Arabia, around 3,000 BC, the Bactrian in central Asia around 2,500 BC, as at Shar-i Sokhta (also known as the Burnt City), Iran.
Discussions concerning camel domestication in Mesopotamia are often related to mentions of camels in the Hebrew Bible. The International Standard Bible Encyclopedia: E-J for instance mentions that "In accord with patriarchal traditions, cylinder seals from Middle Bronze Age Mesopotamia showed riders seated upon camels."
Martin Heide's 2010 work on the domestication of the camel tentatively concludes that the bactrian camel was domesticated by at least the middle of the third millennium somewhere east of the Zagros Mountains, then moving into Mesopotamia, and suggests that mentions of camels "in the patriarchal narratives may refer, at least in some places, to the Bactrian camel." while noting that the camel is not mentioned in relationship to Canaan.
Recent excavations in the Timna Valley by Lidar Sapir-Hen and Erez Ben-Yosef discovered what may be the earliest domestic camel bones found in Israel or even outside the Arabian peninsula, dating to around 930 BCE. This garnered considerable media coverage as it was described as evidence that the stories of Abraham, Joseph, Jacob and Esau were written after this time.
The existence of camels in Mesopotamia but not in Israel is not a new idea. According to an article in Time Magazine, the historian Richard Bulliet wrote in his 1975 book "The Camel and the Wheel" that "the occasional mention of camels in patriarchal narratives does not mean that the domestic camels were common in the Holy Land at that period." The archaeologist William F. Albright writing even earlier saw camels in the Bible as an anachronism. The official report by Sapir-Hen and Ben-Joseph notes that "The introduction of the dromedary camel (Camelus dromedarius) as a pack animal to the southern Levant signifies a crucial juncture in the history of the region; it substantially facilitated trade across the vast deserts of Arabia, promoting both economic and social change (e.g., Kohler 1984; Borowski 1998: 112-116; Jasmin 2005). This, together with the depiction of camels in the Patriarchal narrative, has generated extensive discussion regarding the date of the earliest domestic camel in the southern Levant (and beyond) (e.g., Albright 1949: 207; Epstein 1971: 558-584; Bulliet 1975; Zarins 1989; Köhler-Rollefson 1993; Uerpmann and Uerpmann 2002; Jasmin 2005; 2006; Heide 2010; Rosen and Saidel 2010; Grigson 2012). Most scholars today agree that the dromedary was exploited as a pack animal sometime in the early Iron Age (not before the 12th century BCE)" and concludes that "Current data from copper smelting sites of the Aravah Valley enable us to pinpoint the introduction of domestic camels to the southern Levant more precisely based on stratigraphic contexts associated with an extensive suite of radiocarbon dates. The data indicate that this event occurred not earlier than the last third of the 10th century BCE and most probably during this time. The coincidence of this event with a major reorganization of the copper industry of the region - attributed to the results of the campaign of Pharaoh Shoshenq I - raises the possibility that the two were connected, and that camels were introduced as part of the efforts to improve efficiency by facilitating trade."
MILITARY USES
By at least 1200 BC, the first camel saddles had appeared, and Bactrian camels could be ridden. The first saddle was positioned to the back of the camel, and control of the Bactrian camel was exercised by means of a stick. However, between 500–100 BC, Bactrian camels attained military use. New saddles, which were inflexible and bent, were put over the humps and divided the rider's weight over the animal. In the seventh century BC, the military Arabian saddle appeared, which improved the saddle design again slightly.
Camel cavalries have been used in wars throughout Africa, the Middle East, and into modern-day Border Security Force of India (though as of July 2012, the BSF has planned the replacement of camels with ATVs). The first use of camel cavalries was in the Battle of Qarqar in 853 BC. Armies have also used camels as freight animals instead of horses and mules.
In the East Roman Empire, the Romans used auxiliary forces known as dromedarii, whom they recruited in desert provinces. The camels were used mostly in combat because of their ability to scare off horses at close ranges (horses are afraid of the camels' scent), a quality famously employed by the Achaemenid Persians when fighting Lydia in the Battle of Thymbra.
19th and 20th CENTURIES
The United States Army established the U.S. Camel Corps, which was stationed in California in the late 19th century. One may still see stables at the Benicia Arsenal in Benicia, California, where they nowadays serve as the Benicia Historical Museum. Though the experimental use of camels was seen as a success (John B. Floyd, Secretary of War in 1858, recommended that funds be allocated towards obtaining a thousand more camels), the outbreak of the American Civil War saw the end of the Camel Corps: Texas became part of the Confederacy, and most of the camels were left to wander away into the desert.
France created a méhariste camel corps in 1912 as part of the Armée d'Afrique in the Sahara in order to exercise greater control over the camel-riding Tuareg and Arab insurgents, as previous efforts to defeat them on foot had failed. The camel-mounted units remained in service until the end of French rule over Algeria in 1962.
In 1916, the British created the Imperial Camel Corps. It was originally used to fight the Senussi, but was later used in the Sinai and Palestine Campaign in World War I. The Imperial Camel Corps comprised infantrymen mounted on camels for movement across desert, though they dismounted at battle sites and fought on foot. After July 1918, the Corps began to become run down, receiving no new reinforcements, and was formally disbanded in 1919.
In World War I, the British Army also created the Egyptian Camel Transport Corps, which consisted of a group of Egyptian camel drivers and their camels. The Corps supported British war operations in Sinai, Palestine, and Syria by transporting supplies to the troops.
The Somaliland Camel Corps was created by colonial authorities in British Somaliland in 1912; it was disbanded in 1944.
Bactrian camels were used by Romanian forces during World War II in the Caucasian region.
The Bikaner Camel Corps of British India fought alongside the British Indian Army in World Wars I and II.
The Tropas Nómadas (Nomad Troops) were an auxiliary regiment of Sahrawi tribesmen serving in the colonial army in Spanish Sahara (today Western Sahara). Operational from the 1930s until the end of the Spanish presence in the territory in 1975, the Tropas Nómadas were equipped with small arms and led by Spanish officers. The unit guarded outposts and sometimes conducted patrols on camelback.
FOOD USES
DAIRY
Camel milk is a staple food of desert nomad tribes and is sometimes considered a meal in and of itself; a nomad can live on only camel milk for almost a month. Camel milk is rich in vitamins, minerals, proteins, and immunoglobulins; compared to cow's milk, it is lower in fat and lactose, and higher in potassium, iron, and vitamin C. Bedouins believe the curative powers of camel milk are enhanced if the camel's diet consists of certain desert plants. Camel milk can readily be made into a drinkable yogurt, as well as butter or cheese, though the yields for cheese tend to be low.
Camel milk cannot be made into butter by the traditional churning method. It can be made if it is soured first, churned, and a clarifying agent is then added. Until recently, camel milk could not be made into camel cheese because rennet was unable to coagulate the milk proteins to allow the collection of curds. Developing less wasteful uses of the milk, the FAO commissioned Professor J.P. Ramet of the École Nationale Supérieure d'Agronomie et des Industries Alimentaires, who was able to produce curdling by the addition of calcium phosphate and vegetable rennet. The cheese produced from this process has low levels of cholesterol and is easy to digest, even for the lactose intolerant. The sale of camel cheese is limited owing to the small output of the few dairies producing camel cheese and the absence of camel cheese in local (West African) markets. Cheese imports from countries that traditionally breed camels are difficult to obtain due to restrictions on dairy imports from these regions.
Additionally, camel milk has been made into ice cream in a Netherlands camel farm.
MEAT
A camel carcass can provide a substantial amount of meat. The male dromedary carcass can weigh 300–400 kg, while the carcass of a male Bactrian can weigh up to 650 kg. The carcass of a female dromedary weighs less than the male, ranging between 250 and 350 kg. The brisket, ribs and loin are among the preferred parts, and the hump is considered a delicacy. The hump contains "white and sickly fat", which can be used to make the khli (preserved meat) of mutton, beef, or camel. Camel meat is reported to taste like coarse beef, but older camels can prove to be very tough, although camel meat becomes more tender the more it is cooked. The Abu Dhabi Officers' Club serves a camel burger mixed with beef or lamb fat in order to improve the texture and taste. In Karachi, Pakistan, some restaurants prepare nihari from camel meat. In Syria and Egypt, there are specialist camel butchers.
Camel meat has been eaten for centuries. It has been recorded by ancient Greek writers as an available dish at banquets in ancient Persia, usually roasted whole. The ancient Roman emperor Heliogabalus enjoyed camel's heel.[31] Camel meat is still eaten in certain regions, including Eritrea, Somalia, Djibouti, Saudi Arabia, Egypt, Syria, Libya, Sudan, Ethiopia, Kazakhstan, and other arid regions where alternative forms of protein may be limited or where camel meat has had a long cultural history. Camel blood is also consumable, as is the case among pastoralists in northern Kenya, where camel blood is drunk with milk and acts as a key source of iron, vitamin D, salts and minerals. Camel meat is also occasionally found in Australian cuisine: for example, a camel lasagna is available in Alice Springs.
A 2005 report issued jointly by the Saudi Ministry of Health and the United States Centers for Disease Control and Prevention details cases of human bubonic plague resulting from the ingestion of raw camel liver.
RELIGION
ISLAM
Camel meat is halal for Muslims. However, according to some Islamic schools of thought, a state of impurity is brought on by the consumption of it. Consequently, these schools hold that Muslims must perform wudhu (ablution) before the next time they pray after eating camel meat.
Also, some Islamic schools of thought consider it haraam for a Muslim to perform salat in places where camels lie, as it is said to be a dwelling place of shaytan.
According to Suni ahadith collected by Bukhari and Muslim, Muhammad ordered a certain group of people to drink camel milk and urine as a medicine. However, according to Abū Ḥanīfa, the drinking of camel urine, while not forbidden (ḥaram), is disliked (makrūh) in Islam.
Camel urine is sold as traditional medicine in shops in Saudi Arabia. The Sunni scholar Muhammad Al-Munajjid's IslamQA.info recommends camel urine as beneficial to curing certain diseases and to human health and cited Ahadith and scientific studies as justification. King Abdulaziz University researcher Dr. Faten Abdel-Rajman Khorshid has claimed that cancer and other diseases could be treated with camel urine as recommended by the Prophet. The United Arab Emirates "Arab Science and Technology Foundation" reported that cancer could be treated with camel urine. Camel urine was also prescribed as a treatment by Zaghloul El-Naggar, a religious scholar. Camel urine is the only urine which is permitted to be drunk according to the Hanbali madhhab of Sunni Islam. The World Health Organization said that camel urine consumption may be a factor in the spread of the MERS virus in Saudi Arabia. The Gulf Times writer Ahmad al-Sayyed wrote that various afflictions are dealt with camel urine by people. Dandruff, scalp ailments, hair, sores, and wounds were recommended to be treated with camel urine by Ibn Sina. Arab American University Professor of Cell Biology and Immunology Bashar Saad (PhD) along with Omar Said (PhD) wrote that medicinal use of camel urine is approved of and promoted by Islam since it was recommended by the prophet. A test on mice found that cytotoxic effects similar to cyclophosphamide were induced on bone marrow by camel urine. Besides for consumption as a medicinal drink, camel urine is believed to help treat hair. Bites from insects were warded off with camel urine, which also served as a shampoo. Camel urine is also used to help treat asthma, infections, treat hair, sores, hair growth and boost libido.
Several Sunni Ahadith mention drinking camel urine. Some Shia criticized Wahhabis for camel urine treatment. Shia scholars also recommend the medicinal use of camel urine. Shia Hadith on Imam Ja'far al-Sadiq reported that shortness of breath (asthma) was treated with camel urine. Shia Marja Ayatollah Sistani said that for medicinal purposes only, sheep, cow, and camel urine can be drunk.
JUDAISM
According to Jewish tradition, camel meat and milk are not kosher. Camels possess only one of the two kosher criteria; although they chew their cud, they do not possess cloven hooves:
Nevertheless these shall ye not eat of them that only chew the cud, or of them that only part the hoof: the camel, because he cheweth the cud but parteth not the hoof, he is unclean unto you.
— Leviticus 11:4
DISTRIBUTION ANDNUMBERS
There are around 14 million camels alive as of 2010, with 90% being dromedaries. Dromedaries alive today are domesticated animals (mostly living in the Horn of Africa, the Sahel, Maghreb, Middle East and South Asia). The Horn region alone has the largest concentration of camels in the world, where the dromedaries constitute an important part of local nomadic life. They provide nomadic people in Somalia (which has the largest camel herd in the world) and Ethiopia with milk, food, and transportation.
The Bactrian camel is, as of 2010, reduced to an estimated 1.4 million animals, most of which are domesticated. The only truly wild Bactrian camels, of which there are less than one thousand, are thought to inhabit the Gobi Desert in China and Mongolia.
The largest population of feral camels is in Australia. There are around 700,000 feral dromedary camels in central parts of Australia, descended from those introduced as a method of transport in the 19th and early 20th centuries. This population is growing about 8% per year. Representatives of the Australian government have culled more than 100,000 of the animals in part because the camels use too much of the limited resources needed by sheep farmers.
A small population of introduced camels, dromedaries and Bactrians, wandered through Southwest United States after having been imported in the 1800s as part of the U.S. Camel Corps experiment. When the project ended, they were used as draft animals in mines and escaped or were released. Twenty-five U.S. camels were bought and imported to Canada during the Cariboo Gold Rush.
WIKIPEDIA
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The process of bleaching skin involves the use of substances, concoctions or physical treatments that result in lightening the color of the skin. The idea is to decrease the amount of melanin, a substance naturally found in the body that is responsible for the dark pigmentation of the skin. The market is saturated with numerous brands claiming the same thing so it’s necessary to select the product that is right for your needs.
Skincare tips of the day
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Skin types range from normal, dry, oil or a combination thereof. There are some face whitening creams that use strong bleaching components that can cause drying, resulting in irritation. These components are recommended for oily skin types and not for dry or combination types.
Do I need to seek medical advice?
Prior to using any skin lightening creams, make sure to consult a doctor to avoid allergic reactions. Some of these products may contain inactive ingredients that can result in minor skin problems. Be sure to provide an accurate medical history, especially those related to skin conditions.
In order to avoid the risks associated with even the best skin bleaching cream, it is highly recommended to go for natural skin bleaching. This helps to avoid occurrences of allergic reactions and breakouts.
What results do you wish to achieve?
Overall, the main goal is to achieve a lighter complexion but some of the best skin whitening cream can also treat problems like the following:
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When choosing a product, especially whitening cream for face, always make sure to check what is written on the label. Steer clear of products that contain ingredients such as steroids and mercury. These chemicals are toxic to the skin and can lead to very serious side effects. To get the right product, always be conscious of what’s ne the label.
Black and white bleaching cream for instance, is one of the brands available on the market today. It is very effective in lightening the skin color, resulting in an even skin tone. It can remove scars quickly and reduce the presence of freckles. Not only does it act as a whitening cream for face but also, the formulation makes it possible to use the product as a make-up base. It smoothens the skin, creating an even palate to work with when applying make-up. To achieve the best results from this skin whitening treatment, it is recommended to use it for about 2 to 3 weeks.
The active ingredient contained in this product is hydroquinone. It acts by reducing the level of melanin present in the skin resulting in a whiter complexion. The major risk in reduced melanin levels is that it can weaken the natural defense of the skin, leading to breakouts, irritation and other skin problems. But to address this, it is infused with vitamin C that enhances cell growth, resulting to supple and younger looking skin. In addition, it has powerful antioxidants that fight free radicals and slow down the signs of aging.
Never forget SPF!
Bleaching can result in extremely sensitive skin. This is because bleaching causes layers of the skin to “peel off” in order to produce an even skin tone. This causes the deeper layers of the skin to be exposed to the harsh environment, hence making it prone to freckles, sun spots, rashes and sunburn. The latter two can be extremely painful, especially if facial bleaching is involved.
To prevent these nasty conditions, always wear sunscreen to protect your skin from harsh elements. This will keep your skin tone even for a longer period of time.
Skin bleaching creams
Knowing the right product for your skin is essential in preventing the risks associated with whitening. Being informed on what your skin needs will give you a good idea on how to do it safely. When in doubt, always seek medical advice before buying a product. That way, you do not waste time, money and resources on any product. Bleaching skin can come with minimal risk when you know how to select the right products.
The post How to minimize problems with bleaching skin appeared first on Find The Best Skin Lightening Cream.
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A camel is an even-toed ungulate within the genus Camelus, bearing distinctive fatty deposits known as "humps" on its back. The two surviving species of camel are the dromedary, or one-humped camel (C. dromedarius), which inhabits the Middle East and the Horn of Africa; and the bactrian, or two-humped camel (C. bactrianus), which inhabits Central Asia. Both species have been domesticated; they provide milk, meat, hair for textiles or goods such as felted pouches, and are working animals with tasks ranging from human transport to bearing loads.
The term "camel" is derived via Latin and Greek (camelus and κάμηλος kamēlos respectively) from Hebrew or Phoenician gāmāl.
"Camel" is also used more broadly to describe any of the six camel-like mammals in the family Camelidae: the two true camels and the four New World camelids: the llama, alpaca, guanaco, and vicuña of South America.
BIOLOGY
The average life expectancy of a camel is 40 to 50 years. A full-grown adult camel stands 1.85 m at the shoulder and 2.15 m at the hump. Camels can run at up to 65 km/h in short bursts and sustain speeds of up to 40 km/h. Bactrian camels weigh 300 to 1,000 kg and dromedaries 300 to 600 kg.
The male dromedary camel has in its throat an organ called a dulla, a large, inflatable sac he extrudes from his mouth when in rut to assert dominance and attract females. It resembles a long, swollen, pink tongue hanging out of the side of its mouth. Camels mate by having both male and female sitting on the ground, with the male mounting from behind. The male usually ejaculates three or four times within a single mating session. Camelids are the only ungulates to mate in a sitting position.
ECOLOGICAL AND BEHAVIORAL ADAPTIONS
Camels do not directly store water in their humps as was once commonly believed. The humps are actually reservoirs of fatty tissue: concentrating body fat in their humps minimizes the insulating effect fat would have if distributed over the rest of their bodies, helping camels survive in hot climates. When this tissue is metabolized, it yields more than one gram of water for every gram of fat processed. This fat metabolization, while releasing energy, causes water to evaporate from the lungs during respiration (as oxygen is required for the metabolic process): overall, there is a net decrease in water.
Camels have a series of physiological adaptations that allow them to withstand long periods of time without any external source of water. Unlike other mammals, their red blood cells are oval rather than circular in shape. This facilitates the flow of red blood cells during dehydration and makes them better at withstanding high osmotic variation without rupturing when drinking large amounts of water: a 600 kg camel can drink 200 L of water in three minutes.
Camels are able to withstand changes in body temperature and water consumption that would kill most other animals. Their temperature ranges from 34 °C at dawn and steadily increases to 40 °C by sunset, before they cool off at night again. Maintaining the brain temperature within certain limits is critical for animals; to assist this, camels have a rete mirabile, a complex of arteries and veins lying very close to each other which utilizes countercurrent blood flow to cool blood flowing to the brain. Camels rarely sweat, even when ambient temperatures reach 49 °C Any sweat that does occur evaporates at the skin level rather than at the surface of their coat; the heat of vaporization therefore comes from body heat rather than ambient heat. Camels can withstand losing 25% of their body weight to sweating, whereas most other mammals can withstand only about 12–14% dehydration before cardiac failure results from circulatory disturbance.
When the camel exhales, water vapor becomes trapped in their nostrils and is reabsorbed into the body as a means to conserve water. Camels eating green herbage can ingest sufficient moisture in milder conditions to maintain their bodies' hydrated state without the need for drinking.
The camels' thick coats insulate them from the intense heat radiated from desert sand; a shorn camel must sweat 50% more to avoid overheating. During the summer the coat becomes lighter in color, reflecting light as well as helping avoid sunburn. The camel's long legs help by keeping its body farther from the ground, which can heat up to 70 °C. Dromedaries have a pad of thick tissue over the sternum called the pedestal. When the animal lies down in a sternal recumbent position, the pedestal raises the body from the hot surface and allows cooling air to pass under the body.
Camels' mouths have a thick leathery lining, allowing them to chew thorny desert plants. Long eyelashes and ear hairs, together with nostrils that can close, form a barrier against sand. If sand gets lodged in their eyes, they can dislodge it using their transparent third eyelid. The camels' gait and widened feet help them move without sinking into the sand.
The kidneys and intestines of a camel are very efficient at reabsorbing water. Camel urine comes out as a thick syrup, and camel feces are so dry that they do not require drying when the Bedouins use them to fuel fires.
Camels' immune system differs from those of other mammals. Normally, the Y-shaped antibody molecules consist of two heavy (or long) chains along the length of the Y, and two light (or short) chains at each tip of the Y. Camels, in addition to these, also have antibodies made of only two heavy chains, a trait that makes them smaller and more durable. These "heavy-chain-only" antibodies, discovered in 1993, are thought to have developed 50 million years ago, after camelids split from ruminants and pigs.
GENETICS
The karyotypes of different camelid species have been studied earlier by many groups, but no agreement on chromosome nomenclature of camelids has been reached. A 2007 study flow sorted camel chromosomes, building on the fact that camels have 37 pairs of chromosomes (2n=74), and found that the karyotime consisted of one metacentric, three submetacentric, and 32 acrocentric autosomes. The Y is a small metacentric chromosome, while the X is a large metacentric chromosome.The hybrid camel, a hybrid between Bactrian and dromedary camels, has one hump, though it has an indentation 4–12 cm deep that divides the front from the back. The hybrid is 2.15 m at the shoulder and 2.32 m tall at the hump. It weighs an average of 650 kg and can carry around 400 to 450 kg, which is more than either the dromedary or Bactrian can. According to molecular data, the New World and Old World camelids diverged 11 million years ago. In spite of this, these species can still hybridize and produce fertile offspring. The cama is a camel–llama hybrid bred by scientists who wanted to see how closely related the parent species were. Scientists collected semen from a camel via an artificial vagina and inseminated a llama after stimulating ovulation with gonadotrophin injections. The cama has ears halfway between the length of camel and llama ears, no hump, longer legs than the llama, and partially cloven hooves. According to cama breeder Lulu Skidmore, cama have "the fleece of the llamas" and "the strength and patience of the camel". Like the mule, camas are sterile, despite both parents having the same number of chromosomes.
EVOLUTION
The earliest known camel, called Protylopus, lived in North America 40 to 50 million years ago (during the Eocene). It was about the size of a rabbit and lived in the open woodlands of what is now South Dakota. By 35 million years ago, the Poebrotherium was the size of a goat and had many more traits similar to camels and llamas. The hoofed Stenomylus, which walked on the tips of its toes, also existed around this time, and the long-necked Aepycamelus evolved in the Miocene.
The direct ancestor of all modern camels, Procamelus, existed in the upper Miocone and lower Pliocene. Around 3–5 million years ago, the North American Camelidae spread to South America via the Isthmus of Panama, where they gave rise to guanacos and related animals, and to Asia via the Bering land bridge. Surprising finds of fossil Paracamelus on Ellesmere Island beginning in 2006 in the high Canadian Arctic indicate the dromedary is descended from a larger, boreal browser whose hump may have evolved as an adaptation in a cold climate. This creature is estimated to have stood around nine feet tall.
The last camel native to North America was Camelops hesternus, which vanished along with horses, short-faced bears, mammoths and mastodons, ground sloths, sabertooth cats, and many other megafauna, coinciding with the migration of humans from Asia.
DOMESTICATION
Most camels surviving today are domesticated. Along with many other megafauna in North America, the original wild camels were wiped out during the spread of Native Americans from Asia into North America, 12,000 to 10,000 years ago. The only wild camels left are the Bactrian camels of the Gobi Desert.
Like the horse, before their extinction in their native land, camels spread across the Bering land bridge, moving the opposite direction from the Asian immigration to America, to survive in the Old World and eventually be domesticated and spread globally by humans.
Dromedaries may have first been domesticated by humans in Somalia and southern Arabia, around 3,000 BC, the Bactrian in central Asia around 2,500 BC, as at Shar-i Sokhta (also known as the Burnt City), Iran.
Discussions concerning camel domestication in Mesopotamia are often related to mentions of camels in the Hebrew Bible. The International Standard Bible Encyclopedia: E-J for instance mentions that "In accord with patriarchal traditions, cylinder seals from Middle Bronze Age Mesopotamia showed riders seated upon camels."
Martin Heide's 2010 work on the domestication of the camel tentatively concludes that the bactrian camel was domesticated by at least the middle of the third millennium somewhere east of the Zagros Mountains, then moving into Mesopotamia, and suggests that mentions of camels "in the patriarchal narratives may refer, at least in some places, to the Bactrian camel." while noting that the camel is not mentioned in relationship to Canaan.
Recent excavations in the Timna Valley by Lidar Sapir-Hen and Erez Ben-Yosef discovered what may be the earliest domestic camel bones found in Israel or even outside the Arabian peninsula, dating to around 930 BCE. This garnered considerable media coverage as it was described as evidence that the stories of Abraham, Joseph, Jacob and Esau were written after this time.
The existence of camels in Mesopotamia but not in Israel is not a new idea. According to an article in Time Magazine, the historian Richard Bulliet wrote in his 1975 book "The Camel and the Wheel" that "the occasional mention of camels in patriarchal narratives does not mean that the domestic camels were common in the Holy Land at that period." The archaeologist William F. Albright writing even earlier saw camels in the Bible as an anachronism. The official report by Sapir-Hen and Ben-Joseph notes that "The introduction of the dromedary camel (Camelus dromedarius) as a pack animal to the southern Levant signifies a crucial juncture in the history of the region; it substantially facilitated trade across the vast deserts of Arabia, promoting both economic and social change (e.g., Kohler 1984; Borowski 1998: 112-116; Jasmin 2005). This, together with the depiction of camels in the Patriarchal narrative, has generated extensive discussion regarding the date of the earliest domestic camel in the southern Levant (and beyond) (e.g., Albright 1949: 207; Epstein 1971: 558-584; Bulliet 1975; Zarins 1989; Köhler-Rollefson 1993; Uerpmann and Uerpmann 2002; Jasmin 2005; 2006; Heide 2010; Rosen and Saidel 2010; Grigson 2012). Most scholars today agree that the dromedary was exploited as a pack animal sometime in the early Iron Age (not before the 12th century BCE)" and concludes that "Current data from copper smelting sites of the Aravah Valley enable us to pinpoint the introduction of domestic camels to the southern Levant more precisely based on stratigraphic contexts associated with an extensive suite of radiocarbon dates. The data indicate that this event occurred not earlier than the last third of the 10th century BCE and most probably during this time. The coincidence of this event with a major reorganization of the copper industry of the region - attributed to the results of the campaign of Pharaoh Shoshenq I - raises the possibility that the two were connected, and that camels were introduced as part of the efforts to improve efficiency by facilitating trade."
MILITARY USES
By at least 1200 BC, the first camel saddles had appeared, and Bactrian camels could be ridden. The first saddle was positioned to the back of the camel, and control of the Bactrian camel was exercised by means of a stick. However, between 500–100 BC, Bactrian camels attained military use. New saddles, which were inflexible and bent, were put over the humps and divided the rider's weight over the animal. In the seventh century BC, the military Arabian saddle appeared, which improved the saddle design again slightly.
Camel cavalries have been used in wars throughout Africa, the Middle East, and into modern-day Border Security Force of India (though as of July 2012, the BSF has planned the replacement of camels with ATVs). The first use of camel cavalries was in the Battle of Qarqar in 853 BC. Armies have also used camels as freight animals instead of horses and mules.
In the East Roman Empire, the Romans used auxiliary forces known as dromedarii, whom they recruited in desert provinces. The camels were used mostly in combat because of their ability to scare off horses at close ranges (horses are afraid of the camels' scent), a quality famously employed by the Achaemenid Persians when fighting Lydia in the Battle of Thymbra.
19th and 20th CENTURIES
The United States Army established the U.S. Camel Corps, which was stationed in California in the late 19th century. One may still see stables at the Benicia Arsenal in Benicia, California, where they nowadays serve as the Benicia Historical Museum. Though the experimental use of camels was seen as a success (John B. Floyd, Secretary of War in 1858, recommended that funds be allocated towards obtaining a thousand more camels), the outbreak of the American Civil War saw the end of the Camel Corps: Texas became part of the Confederacy, and most of the camels were left to wander away into the desert.
France created a méhariste camel corps in 1912 as part of the Armée d'Afrique in the Sahara in order to exercise greater control over the camel-riding Tuareg and Arab insurgents, as previous efforts to defeat them on foot had failed. The camel-mounted units remained in service until the end of French rule over Algeria in 1962.
In 1916, the British created the Imperial Camel Corps. It was originally used to fight the Senussi, but was later used in the Sinai and Palestine Campaign in World War I. The Imperial Camel Corps comprised infantrymen mounted on camels for movement across desert, though they dismounted at battle sites and fought on foot. After July 1918, the Corps began to become run down, receiving no new reinforcements, and was formally disbanded in 1919.
In World War I, the British Army also created the Egyptian Camel Transport Corps, which consisted of a group of Egyptian camel drivers and their camels. The Corps supported British war operations in Sinai, Palestine, and Syria by transporting supplies to the troops.
The Somaliland Camel Corps was created by colonial authorities in British Somaliland in 1912; it was disbanded in 1944.
Bactrian camels were used by Romanian forces during World War II in the Caucasian region.
The Bikaner Camel Corps of British India fought alongside the British Indian Army in World Wars I and II.
The Tropas Nómadas (Nomad Troops) were an auxiliary regiment of Sahrawi tribesmen serving in the colonial army in Spanish Sahara (today Western Sahara). Operational from the 1930s until the end of the Spanish presence in the territory in 1975, the Tropas Nómadas were equipped with small arms and led by Spanish officers. The unit guarded outposts and sometimes conducted patrols on camelback.
FOOD USES
DAIRY
Camel milk is a staple food of desert nomad tribes and is sometimes considered a meal in and of itself; a nomad can live on only camel milk for almost a month. Camel milk is rich in vitamins, minerals, proteins, and immunoglobulins; compared to cow's milk, it is lower in fat and lactose, and higher in potassium, iron, and vitamin C. Bedouins believe the curative powers of camel milk are enhanced if the camel's diet consists of certain desert plants. Camel milk can readily be made into a drinkable yogurt, as well as butter or cheese, though the yields for cheese tend to be low.
Camel milk cannot be made into butter by the traditional churning method. It can be made if it is soured first, churned, and a clarifying agent is then added. Until recently, camel milk could not be made into camel cheese because rennet was unable to coagulate the milk proteins to allow the collection of curds. Developing less wasteful uses of the milk, the FAO commissioned Professor J.P. Ramet of the École Nationale Supérieure d'Agronomie et des Industries Alimentaires, who was able to produce curdling by the addition of calcium phosphate and vegetable rennet. The cheese produced from this process has low levels of cholesterol and is easy to digest, even for the lactose intolerant. The sale of camel cheese is limited owing to the small output of the few dairies producing camel cheese and the absence of camel cheese in local (West African) markets. Cheese imports from countries that traditionally breed camels are difficult to obtain due to restrictions on dairy imports from these regions.
Additionally, camel milk has been made into ice cream in a Netherlands camel farm.
MEAT
A camel carcass can provide a substantial amount of meat. The male dromedary carcass can weigh 300–400 kg, while the carcass of a male Bactrian can weigh up to 650 kg. The carcass of a female dromedary weighs less than the male, ranging between 250 and 350 kg. The brisket, ribs and loin are among the preferred parts, and the hump is considered a delicacy. The hump contains "white and sickly fat", which can be used to make the khli (preserved meat) of mutton, beef, or camel. Camel meat is reported to taste like coarse beef, but older camels can prove to be very tough, although camel meat becomes more tender the more it is cooked. The Abu Dhabi Officers' Club serves a camel burger mixed with beef or lamb fat in order to improve the texture and taste. In Karachi, Pakistan, some restaurants prepare nihari from camel meat. In Syria and Egypt, there are specialist camel butchers.
Camel meat has been eaten for centuries. It has been recorded by ancient Greek writers as an available dish at banquets in ancient Persia, usually roasted whole. The ancient Roman emperor Heliogabalus enjoyed camel's heel.[31] Camel meat is still eaten in certain regions, including Eritrea, Somalia, Djibouti, Saudi Arabia, Egypt, Syria, Libya, Sudan, Ethiopia, Kazakhstan, and other arid regions where alternative forms of protein may be limited or where camel meat has had a long cultural history. Camel blood is also consumable, as is the case among pastoralists in northern Kenya, where camel blood is drunk with milk and acts as a key source of iron, vitamin D, salts and minerals. Camel meat is also occasionally found in Australian cuisine: for example, a camel lasagna is available in Alice Springs.
A 2005 report issued jointly by the Saudi Ministry of Health and the United States Centers for Disease Control and Prevention details cases of human bubonic plague resulting from the ingestion of raw camel liver.
RELIGION
ISLAM
Camel meat is halal for Muslims. However, according to some Islamic schools of thought, a state of impurity is brought on by the consumption of it. Consequently, these schools hold that Muslims must perform wudhu (ablution) before the next time they pray after eating camel meat.
Also, some Islamic schools of thought consider it haraam for a Muslim to perform salat in places where camels lie, as it is said to be a dwelling place of shaytan.
According to Suni ahadith collected by Bukhari and Muslim, Muhammad ordered a certain group of people to drink camel milk and urine as a medicine. However, according to Abū Ḥanīfa, the drinking of camel urine, while not forbidden (ḥaram), is disliked (makrūh) in Islam.
Camel urine is sold as traditional medicine in shops in Saudi Arabia. The Sunni scholar Muhammad Al-Munajjid's IslamQA.info recommends camel urine as beneficial to curing certain diseases and to human health and cited Ahadith and scientific studies as justification. King Abdulaziz University researcher Dr. Faten Abdel-Rajman Khorshid has claimed that cancer and other diseases could be treated with camel urine as recommended by the Prophet. The United Arab Emirates "Arab Science and Technology Foundation" reported that cancer could be treated with camel urine. Camel urine was also prescribed as a treatment by Zaghloul El-Naggar, a religious scholar. Camel urine is the only urine which is permitted to be drunk according to the Hanbali madhhab of Sunni Islam. The World Health Organization said that camel urine consumption may be a factor in the spread of the MERS virus in Saudi Arabia. The Gulf Times writer Ahmad al-Sayyed wrote that various afflictions are dealt with camel urine by people. Dandruff, scalp ailments, hair, sores, and wounds were recommended to be treated with camel urine by Ibn Sina. Arab American University Professor of Cell Biology and Immunology Bashar Saad (PhD) along with Omar Said (PhD) wrote that medicinal use of camel urine is approved of and promoted by Islam since it was recommended by the prophet. A test on mice found that cytotoxic effects similar to cyclophosphamide were induced on bone marrow by camel urine. Besides for consumption as a medicinal drink, camel urine is believed to help treat hair. Bites from insects were warded off with camel urine, which also served as a shampoo. Camel urine is also used to help treat asthma, infections, treat hair, sores, hair growth and boost libido.
Several Sunni Ahadith mention drinking camel urine. Some Shia criticized Wahhabis for camel urine treatment. Shia scholars also recommend the medicinal use of camel urine. Shia Hadith on Imam Ja'far al-Sadiq reported that shortness of breath (asthma) was treated with camel urine. Shia Marja Ayatollah Sistani said that for medicinal purposes only, sheep, cow, and camel urine can be drunk.
JUDAISM
According to Jewish tradition, camel meat and milk are not kosher. Camels possess only one of the two kosher criteria; although they chew their cud, they do not possess cloven hooves:
Nevertheless these shall ye not eat of them that only chew the cud, or of them that only part the hoof: the camel, because he cheweth the cud but parteth not the hoof, he is unclean unto you.
— Leviticus 11:4
DISTRIBUTION ANDNUMBERS
There are around 14 million camels alive as of 2010, with 90% being dromedaries. Dromedaries alive today are domesticated animals (mostly living in the Horn of Africa, the Sahel, Maghreb, Middle East and South Asia). The Horn region alone has the largest concentration of camels in the world, where the dromedaries constitute an important part of local nomadic life. They provide nomadic people in Somalia (which has the largest camel herd in the world) and Ethiopia with milk, food, and transportation.
The Bactrian camel is, as of 2010, reduced to an estimated 1.4 million animals, most of which are domesticated. The only truly wild Bactrian camels, of which there are less than one thousand, are thought to inhabit the Gobi Desert in China and Mongolia.
The largest population of feral camels is in Australia. There are around 700,000 feral dromedary camels in central parts of Australia, descended from those introduced as a method of transport in the 19th and early 20th centuries. This population is growing about 8% per year. Representatives of the Australian government have culled more than 100,000 of the animals in part because the camels use too much of the limited resources needed by sheep farmers.
A small population of introduced camels, dromedaries and Bactrians, wandered through Southwest United States after having been imported in the 1800s as part of the U.S. Camel Corps experiment. When the project ended, they were used as draft animals in mines and escaped or were released. Twenty-five U.S. camels were bought and imported to Canada during the Cariboo Gold Rush.
WIKIPEDIA
A camel is an even-toed ungulate within the genus Camelus, bearing distinctive fatty deposits known as "humps" on its back. The two surviving species of camel are the dromedary, or one-humped camel (C. dromedarius), which inhabits the Middle East and the Horn of Africa; and the bactrian, or two-humped camel (C. bactrianus), which inhabits Central Asia. Both species have been domesticated; they provide milk, meat, hair for textiles or goods such as felted pouches, and are working animals with tasks ranging from human transport to bearing loads.
The term "camel" is derived via Latin and Greek (camelus and κάμηλος kamēlos respectively) from Hebrew or Phoenician gāmāl.
"Camel" is also used more broadly to describe any of the six camel-like mammals in the family Camelidae: the two true camels and the four New World camelids: the llama, alpaca, guanaco, and vicuña of South America.
BIOLOGY
The average life expectancy of a camel is 40 to 50 years. A full-grown adult camel stands 1.85 m at the shoulder and 2.15 m at the hump. Camels can run at up to 65 km/h in short bursts and sustain speeds of up to 40 km/h. Bactrian camels weigh 300 to 1,000 kg and dromedaries 300 to 600 kg.
The male dromedary camel has in its throat an organ called a dulla, a large, inflatable sac he extrudes from his mouth when in rut to assert dominance and attract females. It resembles a long, swollen, pink tongue hanging out of the side of its mouth. Camels mate by having both male and female sitting on the ground, with the male mounting from behind. The male usually ejaculates three or four times within a single mating session. Camelids are the only ungulates to mate in a sitting position.
ECOLOGICAL AND BEHAVIORAL ADAPTIONS
Camels do not directly store water in their humps as was once commonly believed. The humps are actually reservoirs of fatty tissue: concentrating body fat in their humps minimizes the insulating effect fat would have if distributed over the rest of their bodies, helping camels survive in hot climates. When this tissue is metabolized, it yields more than one gram of water for every gram of fat processed. This fat metabolization, while releasing energy, causes water to evaporate from the lungs during respiration (as oxygen is required for the metabolic process): overall, there is a net decrease in water.
Camels have a series of physiological adaptations that allow them to withstand long periods of time without any external source of water. Unlike other mammals, their red blood cells are oval rather than circular in shape. This facilitates the flow of red blood cells during dehydration and makes them better at withstanding high osmotic variation without rupturing when drinking large amounts of water: a 600 kg camel can drink 200 L of water in three minutes.
Camels are able to withstand changes in body temperature and water consumption that would kill most other animals. Their temperature ranges from 34 °C at dawn and steadily increases to 40 °C by sunset, before they cool off at night again. Maintaining the brain temperature within certain limits is critical for animals; to assist this, camels have a rete mirabile, a complex of arteries and veins lying very close to each other which utilizes countercurrent blood flow to cool blood flowing to the brain. Camels rarely sweat, even when ambient temperatures reach 49 °C Any sweat that does occur evaporates at the skin level rather than at the surface of their coat; the heat of vaporization therefore comes from body heat rather than ambient heat. Camels can withstand losing 25% of their body weight to sweating, whereas most other mammals can withstand only about 12–14% dehydration before cardiac failure results from circulatory disturbance.
When the camel exhales, water vapor becomes trapped in their nostrils and is reabsorbed into the body as a means to conserve water. Camels eating green herbage can ingest sufficient moisture in milder conditions to maintain their bodies' hydrated state without the need for drinking.
The camels' thick coats insulate them from the intense heat radiated from desert sand; a shorn camel must sweat 50% more to avoid overheating. During the summer the coat becomes lighter in color, reflecting light as well as helping avoid sunburn. The camel's long legs help by keeping its body farther from the ground, which can heat up to 70 °C. Dromedaries have a pad of thick tissue over the sternum called the pedestal. When the animal lies down in a sternal recumbent position, the pedestal raises the body from the hot surface and allows cooling air to pass under the body.
Camels' mouths have a thick leathery lining, allowing them to chew thorny desert plants. Long eyelashes and ear hairs, together with nostrils that can close, form a barrier against sand. If sand gets lodged in their eyes, they can dislodge it using their transparent third eyelid. The camels' gait and widened feet help them move without sinking into the sand.
The kidneys and intestines of a camel are very efficient at reabsorbing water. Camel urine comes out as a thick syrup, and camel feces are so dry that they do not require drying when the Bedouins use them to fuel fires.
Camels' immune system differs from those of other mammals. Normally, the Y-shaped antibody molecules consist of two heavy (or long) chains along the length of the Y, and two light (or short) chains at each tip of the Y. Camels, in addition to these, also have antibodies made of only two heavy chains, a trait that makes them smaller and more durable. These "heavy-chain-only" antibodies, discovered in 1993, are thought to have developed 50 million years ago, after camelids split from ruminants and pigs.
GENETICS
The karyotypes of different camelid species have been studied earlier by many groups, but no agreement on chromosome nomenclature of camelids has been reached. A 2007 study flow sorted camel chromosomes, building on the fact that camels have 37 pairs of chromosomes (2n=74), and found that the karyotime consisted of one metacentric, three submetacentric, and 32 acrocentric autosomes. The Y is a small metacentric chromosome, while the X is a large metacentric chromosome.The hybrid camel, a hybrid between Bactrian and dromedary camels, has one hump, though it has an indentation 4–12 cm deep that divides the front from the back. The hybrid is 2.15 m at the shoulder and 2.32 m tall at the hump. It weighs an average of 650 kg and can carry around 400 to 450 kg, which is more than either the dromedary or Bactrian can. According to molecular data, the New World and Old World camelids diverged 11 million years ago. In spite of this, these species can still hybridize and produce fertile offspring. The cama is a camel–llama hybrid bred by scientists who wanted to see how closely related the parent species were. Scientists collected semen from a camel via an artificial vagina and inseminated a llama after stimulating ovulation with gonadotrophin injections. The cama has ears halfway between the length of camel and llama ears, no hump, longer legs than the llama, and partially cloven hooves. According to cama breeder Lulu Skidmore, cama have "the fleece of the llamas" and "the strength and patience of the camel". Like the mule, camas are sterile, despite both parents having the same number of chromosomes.
EVOLUTION
The earliest known camel, called Protylopus, lived in North America 40 to 50 million years ago (during the Eocene). It was about the size of a rabbit and lived in the open woodlands of what is now South Dakota. By 35 million years ago, the Poebrotherium was the size of a goat and had many more traits similar to camels and llamas. The hoofed Stenomylus, which walked on the tips of its toes, also existed around this time, and the long-necked Aepycamelus evolved in the Miocene.
The direct ancestor of all modern camels, Procamelus, existed in the upper Miocone and lower Pliocene. Around 3–5 million years ago, the North American Camelidae spread to South America via the Isthmus of Panama, where they gave rise to guanacos and related animals, and to Asia via the Bering land bridge. Surprising finds of fossil Paracamelus on Ellesmere Island beginning in 2006 in the high Canadian Arctic indicate the dromedary is descended from a larger, boreal browser whose hump may have evolved as an adaptation in a cold climate. This creature is estimated to have stood around nine feet tall.
The last camel native to North America was Camelops hesternus, which vanished along with horses, short-faced bears, mammoths and mastodons, ground sloths, sabertooth cats, and many other megafauna, coinciding with the migration of humans from Asia.
DOMESTICATION
Most camels surviving today are domesticated. Along with many other megafauna in North America, the original wild camels were wiped out during the spread of Native Americans from Asia into North America, 12,000 to 10,000 years ago. The only wild camels left are the Bactrian camels of the Gobi Desert.
Like the horse, before their extinction in their native land, camels spread across the Bering land bridge, moving the opposite direction from the Asian immigration to America, to survive in the Old World and eventually be domesticated and spread globally by humans.
Dromedaries may have first been domesticated by humans in Somalia and southern Arabia, around 3,000 BC, the Bactrian in central Asia around 2,500 BC, as at Shar-i Sokhta (also known as the Burnt City), Iran.
Discussions concerning camel domestication in Mesopotamia are often related to mentions of camels in the Hebrew Bible. The International Standard Bible Encyclopedia: E-J for instance mentions that "In accord with patriarchal traditions, cylinder seals from Middle Bronze Age Mesopotamia showed riders seated upon camels."
Martin Heide's 2010 work on the domestication of the camel tentatively concludes that the bactrian camel was domesticated by at least the middle of the third millennium somewhere east of the Zagros Mountains, then moving into Mesopotamia, and suggests that mentions of camels "in the patriarchal narratives may refer, at least in some places, to the Bactrian camel." while noting that the camel is not mentioned in relationship to Canaan.
Recent excavations in the Timna Valley by Lidar Sapir-Hen and Erez Ben-Yosef discovered what may be the earliest domestic camel bones found in Israel or even outside the Arabian peninsula, dating to around 930 BCE. This garnered considerable media coverage as it was described as evidence that the stories of Abraham, Joseph, Jacob and Esau were written after this time.
The existence of camels in Mesopotamia but not in Israel is not a new idea. According to an article in Time Magazine, the historian Richard Bulliet wrote in his 1975 book "The Camel and the Wheel" that "the occasional mention of camels in patriarchal narratives does not mean that the domestic camels were common in the Holy Land at that period." The archaeologist William F. Albright writing even earlier saw camels in the Bible as an anachronism. The official report by Sapir-Hen and Ben-Joseph notes that "The introduction of the dromedary camel (Camelus dromedarius) as a pack animal to the southern Levant signifies a crucial juncture in the history of the region; it substantially facilitated trade across the vast deserts of Arabia, promoting both economic and social change (e.g., Kohler 1984; Borowski 1998: 112-116; Jasmin 2005). This, together with the depiction of camels in the Patriarchal narrative, has generated extensive discussion regarding the date of the earliest domestic camel in the southern Levant (and beyond) (e.g., Albright 1949: 207; Epstein 1971: 558-584; Bulliet 1975; Zarins 1989; Köhler-Rollefson 1993; Uerpmann and Uerpmann 2002; Jasmin 2005; 2006; Heide 2010; Rosen and Saidel 2010; Grigson 2012). Most scholars today agree that the dromedary was exploited as a pack animal sometime in the early Iron Age (not before the 12th century BCE)" and concludes that "Current data from copper smelting sites of the Aravah Valley enable us to pinpoint the introduction of domestic camels to the southern Levant more precisely based on stratigraphic contexts associated with an extensive suite of radiocarbon dates. The data indicate that this event occurred not earlier than the last third of the 10th century BCE and most probably during this time. The coincidence of this event with a major reorganization of the copper industry of the region - attributed to the results of the campaign of Pharaoh Shoshenq I - raises the possibility that the two were connected, and that camels were introduced as part of the efforts to improve efficiency by facilitating trade."
MILITARY USES
By at least 1200 BC, the first camel saddles had appeared, and Bactrian camels could be ridden. The first saddle was positioned to the back of the camel, and control of the Bactrian camel was exercised by means of a stick. However, between 500–100 BC, Bactrian camels attained military use. New saddles, which were inflexible and bent, were put over the humps and divided the rider's weight over the animal. In the seventh century BC, the military Arabian saddle appeared, which improved the saddle design again slightly.
Camel cavalries have been used in wars throughout Africa, the Middle East, and into modern-day Border Security Force of India (though as of July 2012, the BSF has planned the replacement of camels with ATVs). The first use of camel cavalries was in the Battle of Qarqar in 853 BC. Armies have also used camels as freight animals instead of horses and mules.
In the East Roman Empire, the Romans used auxiliary forces known as dromedarii, whom they recruited in desert provinces. The camels were used mostly in combat because of their ability to scare off horses at close ranges (horses are afraid of the camels' scent), a quality famously employed by the Achaemenid Persians when fighting Lydia in the Battle of Thymbra.
19th and 20th CENTURIES
The United States Army established the U.S. Camel Corps, which was stationed in California in the late 19th century. One may still see stables at the Benicia Arsenal in Benicia, California, where they nowadays serve as the Benicia Historical Museum. Though the experimental use of camels was seen as a success (John B. Floyd, Secretary of War in 1858, recommended that funds be allocated towards obtaining a thousand more camels), the outbreak of the American Civil War saw the end of the Camel Corps: Texas became part of the Confederacy, and most of the camels were left to wander away into the desert.
France created a méhariste camel corps in 1912 as part of the Armée d'Afrique in the Sahara in order to exercise greater control over the camel-riding Tuareg and Arab insurgents, as previous efforts to defeat them on foot had failed. The camel-mounted units remained in service until the end of French rule over Algeria in 1962.
In 1916, the British created the Imperial Camel Corps. It was originally used to fight the Senussi, but was later used in the Sinai and Palestine Campaign in World War I. The Imperial Camel Corps comprised infantrymen mounted on camels for movement across desert, though they dismounted at battle sites and fought on foot. After July 1918, the Corps began to become run down, receiving no new reinforcements, and was formally disbanded in 1919.
In World War I, the British Army also created the Egyptian Camel Transport Corps, which consisted of a group of Egyptian camel drivers and their camels. The Corps supported British war operations in Sinai, Palestine, and Syria by transporting supplies to the troops.
The Somaliland Camel Corps was created by colonial authorities in British Somaliland in 1912; it was disbanded in 1944.
Bactrian camels were used by Romanian forces during World War II in the Caucasian region.
The Bikaner Camel Corps of British India fought alongside the British Indian Army in World Wars I and II.
The Tropas Nómadas (Nomad Troops) were an auxiliary regiment of Sahrawi tribesmen serving in the colonial army in Spanish Sahara (today Western Sahara). Operational from the 1930s until the end of the Spanish presence in the territory in 1975, the Tropas Nómadas were equipped with small arms and led by Spanish officers. The unit guarded outposts and sometimes conducted patrols on camelback.
FOOD USES
DAIRY
Camel milk is a staple food of desert nomad tribes and is sometimes considered a meal in and of itself; a nomad can live on only camel milk for almost a month. Camel milk is rich in vitamins, minerals, proteins, and immunoglobulins; compared to cow's milk, it is lower in fat and lactose, and higher in potassium, iron, and vitamin C. Bedouins believe the curative powers of camel milk are enhanced if the camel's diet consists of certain desert plants. Camel milk can readily be made into a drinkable yogurt, as well as butter or cheese, though the yields for cheese tend to be low.
Camel milk cannot be made into butter by the traditional churning method. It can be made if it is soured first, churned, and a clarifying agent is then added. Until recently, camel milk could not be made into camel cheese because rennet was unable to coagulate the milk proteins to allow the collection of curds. Developing less wasteful uses of the milk, the FAO commissioned Professor J.P. Ramet of the École Nationale Supérieure d'Agronomie et des Industries Alimentaires, who was able to produce curdling by the addition of calcium phosphate and vegetable rennet. The cheese produced from this process has low levels of cholesterol and is easy to digest, even for the lactose intolerant. The sale of camel cheese is limited owing to the small output of the few dairies producing camel cheese and the absence of camel cheese in local (West African) markets. Cheese imports from countries that traditionally breed camels are difficult to obtain due to restrictions on dairy imports from these regions.
Additionally, camel milk has been made into ice cream in a Netherlands camel farm.
MEAT
A camel carcass can provide a substantial amount of meat. The male dromedary carcass can weigh 300–400 kg, while the carcass of a male Bactrian can weigh up to 650 kg. The carcass of a female dromedary weighs less than the male, ranging between 250 and 350 kg. The brisket, ribs and loin are among the preferred parts, and the hump is considered a delicacy. The hump contains "white and sickly fat", which can be used to make the khli (preserved meat) of mutton, beef, or camel. Camel meat is reported to taste like coarse beef, but older camels can prove to be very tough, although camel meat becomes more tender the more it is cooked. The Abu Dhabi Officers' Club serves a camel burger mixed with beef or lamb fat in order to improve the texture and taste. In Karachi, Pakistan, some restaurants prepare nihari from camel meat. In Syria and Egypt, there are specialist camel butchers.
Camel meat has been eaten for centuries. It has been recorded by ancient Greek writers as an available dish at banquets in ancient Persia, usually roasted whole. The ancient Roman emperor Heliogabalus enjoyed camel's heel.[31] Camel meat is still eaten in certain regions, including Eritrea, Somalia, Djibouti, Saudi Arabia, Egypt, Syria, Libya, Sudan, Ethiopia, Kazakhstan, and other arid regions where alternative forms of protein may be limited or where camel meat has had a long cultural history. Camel blood is also consumable, as is the case among pastoralists in northern Kenya, where camel blood is drunk with milk and acts as a key source of iron, vitamin D, salts and minerals. Camel meat is also occasionally found in Australian cuisine: for example, a camel lasagna is available in Alice Springs.
A 2005 report issued jointly by the Saudi Ministry of Health and the United States Centers for Disease Control and Prevention details cases of human bubonic plague resulting from the ingestion of raw camel liver.
RELIGION
ISLAM
Camel meat is halal for Muslims. However, according to some Islamic schools of thought, a state of impurity is brought on by the consumption of it. Consequently, these schools hold that Muslims must perform wudhu (ablution) before the next time they pray after eating camel meat.
Also, some Islamic schools of thought consider it haraam for a Muslim to perform salat in places where camels lie, as it is said to be a dwelling place of shaytan.
According to Suni ahadith collected by Bukhari and Muslim, Muhammad ordered a certain group of people to drink camel milk and urine as a medicine. However, according to Abū Ḥanīfa, the drinking of camel urine, while not forbidden (ḥaram), is disliked (makrūh) in Islam.
Camel urine is sold as traditional medicine in shops in Saudi Arabia. The Sunni scholar Muhammad Al-Munajjid's IslamQA.info recommends camel urine as beneficial to curing certain diseases and to human health and cited Ahadith and scientific studies as justification. King Abdulaziz University researcher Dr. Faten Abdel-Rajman Khorshid has claimed that cancer and other diseases could be treated with camel urine as recommended by the Prophet. The United Arab Emirates "Arab Science and Technology Foundation" reported that cancer could be treated with camel urine. Camel urine was also prescribed as a treatment by Zaghloul El-Naggar, a religious scholar. Camel urine is the only urine which is permitted to be drunk according to the Hanbali madhhab of Sunni Islam. The World Health Organization said that camel urine consumption may be a factor in the spread of the MERS virus in Saudi Arabia. The Gulf Times writer Ahmad al-Sayyed wrote that various afflictions are dealt with camel urine by people. Dandruff, scalp ailments, hair, sores, and wounds were recommended to be treated with camel urine by Ibn Sina. Arab American University Professor of Cell Biology and Immunology Bashar Saad (PhD) along with Omar Said (PhD) wrote that medicinal use of camel urine is approved of and promoted by Islam since it was recommended by the prophet. A test on mice found that cytotoxic effects similar to cyclophosphamide were induced on bone marrow by camel urine. Besides for consumption as a medicinal drink, camel urine is believed to help treat hair. Bites from insects were warded off with camel urine, which also served as a shampoo. Camel urine is also used to help treat asthma, infections, treat hair, sores, hair growth and boost libido.
Several Sunni Ahadith mention drinking camel urine. Some Shia criticized Wahhabis for camel urine treatment. Shia scholars also recommend the medicinal use of camel urine. Shia Hadith on Imam Ja'far al-Sadiq reported that shortness of breath (asthma) was treated with camel urine. Shia Marja Ayatollah Sistani said that for medicinal purposes only, sheep, cow, and camel urine can be drunk.
JUDAISM
According to Jewish tradition, camel meat and milk are not kosher. Camels possess only one of the two kosher criteria; although they chew their cud, they do not possess cloven hooves:
Nevertheless these shall ye not eat of them that only chew the cud, or of them that only part the hoof: the camel, because he cheweth the cud but parteth not the hoof, he is unclean unto you.
— Leviticus 11:4
DISTRIBUTION ANDNUMBERS
There are around 14 million camels alive as of 2010, with 90% being dromedaries. Dromedaries alive today are domesticated animals (mostly living in the Horn of Africa, the Sahel, Maghreb, Middle East and South Asia). The Horn region alone has the largest concentration of camels in the world, where the dromedaries constitute an important part of local nomadic life. They provide nomadic people in Somalia (which has the largest camel herd in the world) and Ethiopia with milk, food, and transportation.
The Bactrian camel is, as of 2010, reduced to an estimated 1.4 million animals, most of which are domesticated. The only truly wild Bactrian camels, of which there are less than one thousand, are thought to inhabit the Gobi Desert in China and Mongolia.
The largest population of feral camels is in Australia. There are around 700,000 feral dromedary camels in central parts of Australia, descended from those introduced as a method of transport in the 19th and early 20th centuries. This population is growing about 8% per year. Representatives of the Australian government have culled more than 100,000 of the animals in part because the camels use too much of the limited resources needed by sheep farmers.
A small population of introduced camels, dromedaries and Bactrians, wandered through Southwest United States after having been imported in the 1800s as part of the U.S. Camel Corps experiment. When the project ended, they were used as draft animals in mines and escaped or were released. Twenty-five U.S. camels were bought and imported to Canada during the Cariboo Gold Rush.
WIKIPEDIA
Here we have Veracity Afterthought paying tribute to Esther Noriega. I shot this photo on a white background to minimize any distractions from the simple beauty of the outfit. The golden leaves on the side adornment as well as the earrings were custom made for this dress by Veracity as she celebrates Ms. Noriega's use of these in many of her designs. The Dress is from Blueberry ( Sophia Side-Split ). The Hair from Donna Flora ( Lia ). We have finished this piece with shoes from G & D ( Patricia ). Special thanks to Veracity Afterthought for her time and effort helping me realize this picture and bring it to life................................................................................................................... ( UPDATE 11/26/2015 - These pics were denied by Versus Magazine and I'm a little upset about it.The note card called for Photographer/Stylists .....Not Photographer/Stylist/Models....So they pretty much wanted me to put a dress on and take a selfy...Sorry Shena and Salvo , red is just not my color :) Oh well One week wasted shouldn't slow me down all that much. More to come soon ...)
A five-dimensional space is a space with five dimensions. If interpreted physically, that is one more than the usual three spatial dimensions and the fourth dimension of time used in relativistic physics. It is an abstraction which occurs frequently in mathematics, where it is a legitimate construct. In physics and mathematics, a sequence of N numbers can be understood to represent a location in an N-dimensional space. Whether or not the universe is five-dimensional is a topic of debate.Three Logical Proofs: The Five-Dimensional Reality of Space-Time
West Virginia University at Parkersburg Physics, 300 Campus Drive Parkersburg, West Virginia 26104 e-mail: jebcolst@aol.com
Abstract- A century and a half ago, a revolution in human thought began that has gone largely unrecognized by modern scholars: A system of non-Euclidean geometries was developed that literally changed the way that we view our world. At first, some thought that space itself was non-Euclidean and four-dimensional, but Einstein ended that 'speculation' when he declared that time was the fourth dimension. Yet our commonly perceived space is four-dimensional. Einstein unwittingly circumvented that particular revolution in thought and delayed its completion for a later day, although his work was also necessary for the completion of that revolution. That later day is now approaching. The natural progress of science has brought us back to the point where science again needs to consider the physical reality of a higher-dimensional space. Science must acknowledge the truth that space is four-dimensional and space-time is five- dimensional, as required by accepted physical theories and observations, before it can move forward with a new unified fundamental theory of physical reality.
Keywords: four-dimensional-five-dimensional-space-time-Einstein- Clifford- Kaluza- Kaluza-Klein- magnetic vector potential- electromagnetism- Yukawa potential- xpanding universe- general relativity-unification-superstrings-branes-Randall-Sundmm
Introduction
Individual scientists have been searching for evidence of a fourth dimension of space for more than a century and a half. That search subsided somewhat after Albert Einstein identified time as the fourth dimension and developed the theories of relativity. However, Theodor Kaluza added a fifth dimension to space-time in 1921. Others have contributed to this line of scientific devel- opment, but not to as high an extent. Given the fact the physicists have now developed 10- and 11-dimensional theories of reality, it would seem that the search for a fourth dimension of space would have taken on a new and sig- nificant meaning, but it has not. Yet several generally accepted scientific theories and concepts do imply the existence of a fourth spatial dimension.
On the other hand, a growing number of scientists have acknowledged and embraced the simple fact that physics needs a single fundamental theory to
524 J. E. Beichler
continue its astonishing rate of progress. A complete unification of the funda- mental forces of nature has itself been a long process predating the 1970s, but that unification was made basically from the relativistic point-of-view by Einstein and a few other scientists before the 1960s. Einstein searched for a successful unification of gravity and electromagnetism for the last three decades of his life, hoping that the quantum and quantum effects would emerge from the mathematical formalisms of his unified field theory, but most other scientists shared neither his optimism nor his goal. During the 1970s, quantum physicists finally adopted Einstein's goal, but not his emphasis on a unification based upon general relativity and a continuous view of the ultimate nature of reality. Quantum theorists began their own long search for unification with the discovery of the standard model, then the electroweak force and finally the hope that gravity would eventually submit to quantum analysis. They have utterly failed to achieve this last step toward unification.
All that science can say for certain is that there are presently two theories that can claim to represent the most fundamental nature of reality: Quantum theory and relativity. Unfortunately, these two are mutually incompatible. The near complete dominance of the quantum paradigm over the last century has led most physicists to conclude that any future theory that unifies physics must be based upon a discrete quantum model rather than a continuous relativistic model. The attitude that discreteness can replace continuity at all levels of reality is prob- lematic: It reflects a general disregard for the depth and extreme nature of the major differences between the two theories. This disregard has led scientists to speculate on the structure of reality at as small a level as the Planck length, resulting in the development of quantum loop theories and other attempts to find a quantum gravity theory. Whether the existence of a major conflict between the discrete and continuous is acknowledged or not, the fact that these two models of reality are mutually incompatible is generally minimized or belittled by many theoretical scientists who overwhelmingly assume that discreteness offers the only possible solution to the problem of unification.
Recent attempts to overcome this incompatibility, such as the supergravity, superstring and brane theories, have relied heavily upon the concept of hyper- dimensional spaces. These models have been unsuccessful, yet the overall notion of hyper-dimensionality still offers a way out of the dilemma. Einstein first rendered the notion of a higher-dimensional reality plausible in 1905, but the revolution that Einstein began when he unified three-dimensional space with time to form a four-dimensional space-time continuum has never been fully realized. In the meantime, the opposing quantum concept may have fully run its course and reached its inherent theoretical limits. The modem unification theories based upon the quantum model do not seek to rectify the fundamental differences between the quantum theory and special relativity. Quantum field theories only calculate quantum effects in the relativistic limit; they do not unify the theories at the necessary fundamental level that is often claimed. Many scientists ignore the extent and importance of the differences between continuity
Five Dimensions of Space-Time 525
and the discrete and instead worry about the insignificant problems of inde- terminism and counting bits of information. So the latest attempts at unification have failed utterly even though the quantum theory has been attempting to quantize gravity for several decades.
There are many levels to the hyper-dimensionality problem, many of which have not yet been explored even though the central problem of dimensionality for present day science dates back a century and a half. Science has been misled and has failed to recognize the significance of a far more fundamental revolution that began in the 1850s when Bernhard Riemann developed a generalized system of non-Euclidean geometries (Riemann, 1854). Riemann's work directly implied that space is four-dimensional as well as continuous. His new system of geometry remained relatively unknown for more than a decade and was only popularized within the scientific community in the late 1860s. Simultaneously, James Clerk Maxwell developed Michael Faraday's field concept of electro- magnetism into a complete theory of electromagnetism. Whether the timing of these developments was coincidental or not, and only a careful review of historical documents can determine if the simultaneous development of these theories was truly a coincidence, the two fundamental concepts of the continuity of the electromagnetic field and the four-dimensionality of space are physically related. There are three logical proofs that this fact is true.
The first logical proof derives directly from Maxwell's electromagnetic theory and deals directly with the inability of science to sufficiently explain the nature of the vector or magnetic potential used to explain magnetic induction. The second logical proof deals with the nature of matter itself as represented by the Yukawa potential and the atomic nucleus. The Yukawa potential is normally used to explain how electrical repulsion is overcome to bind particles within the nucleus. However, the mathematical expression for the potential also matches the general shape of space-time curvature within the individual particles that combine to form the nucleus. And finally, the last proof is a more general argu- ment dealing with the simple three-dimensional orientations of spiral galaxies relative to the Riemannian curvature of the universe as a whole. Although these proofs are independent of any particular modern hyper-dimensional theory, they are supported by Kaluza's theory of five-dimensional space-time.
Electromagnetism Speaks Up
The popular concept of a 'force field' is completely erroneous. Even in a classical sense, no force is associated with a field until a material particle or body interacts with it. Force is not a characteristic of the field alone. The interaction of the field and matter results in the force, but the interaction can also be characterized by a potential energy. The energy results from the force acting on the particle in one sense, or from the relative position of the particle in the field in another sense. What exists at any particular position in the field before the interaction takes place is called the potential. So a physical field is char- acterized by the potential of the field, not a force.
526 J. E. Beichler
Gravity presents a good example for the concept of potential. Gravitational field strength decreases radially outward from the center of gravity of a material body like the earth according to the inverse square law. All points that are equidistant from the center of gravity form a surface in three-dimensional space along which the gravitational potential is constant, an equipotential surface. At each point on this surface, the surface is perpendicular to a radial line drawn from the center of gravity. A material body orbiting the earth would have a constant speed along any equipotential surface. Electricity presents another simple example. In this case, the units of potential are 'volts', a common electrical unit with which everyone is familiar. Equipotential surfaces representing specific volt measurements are a commonly accepted fact of electrical fields. The fact that an equipotential surface can be formed and that the surface is perpendicular to the radius of curvature at each and every point where they intersect is a general property of fields. From a theoretical point-of-view, equipotential surfaces must exist for all physical fields. For any field, successive equipotential surfaces form onionskin-like concentric surfaces around point charges or charged bodies.
There is a direct equivalence between electricity and magnetism and that equivalence forms the basis of the electromagnetic theory. Any physical quan- tities or properties of electricity correspond to similar quantities and properties for magnetism. But that equivalence has not yet been fully realized since there is no such thing as magnetic 'volts' or measurable magnetic potential. Magnetic potential has been, is now and will be in the future a mathematical entity alone, given the three-dimensionality of space. Consider a simple magnetic field, per- haps that of a bar magnetic. An equipotential surface cannot be drawn or represented visually as it can for an electric field, although magnetic field lines can still represent the field. A line perpendicular to any field line through a given point on that field line, representing the magnetic vector potential at that point, cannot be connected to neighboring points of equal potential on other field lines to form a continuous surface. In other words, an equipotential surface cannot be formed in the three-dimensional space of the magnetic field represented by the field lines. All equipotential surfaces would go through the same point on a field line in three-dimensional space, which is impossible, but no other conclusion can be reached from the given physical geometry of the magnetic field.
According to Roger Penrose, the magnetic potential is "not uniquely determined by the field F, but is fixed to within the addition of a quantity dO where O is some real scalar field." The scalar field is taken to be a purely mathematical entity, such that the magnetic potential A "is not a locally mea- surable quantity" (Penrose, 2005).The magnetic potential A exists, but no phys- ical experiment can measure or otherwise determine the value of A plus the additional quantity dO, so the value of A alone cannot be uniquely determined. In a sense then, the magnetic potential exists only at the point of intersection, not beyond that point in three-dimensional space. Magnetic potential is purely a point phenomenon in three-dimensional space no matter what its value. It is a mathematical paradox, but the paradox can be solved if a higher dimension to
Five Dimensions of Space-Time 527
space is used. Any connection between a given potential on one field line and neighboring field lines must be in another dimension (orthogonal direction) other than the three normal directions of common space, in order for there to exist an equipotential surface. The 'gauge factor' dO mentioned by Penrose actually represents a minuscule measurement or perturbation in the fourth direction that does not otherwise affect normal three-dimensional field variations in the local environment. This fact can also be seen in the equations that are commonly used to express and model magnetic potential.
Although it cannot be described or measured in a normal three-dimensional space, the magnetic potential can be expressed mathematically, by its rela- tionship to the field, as
and
where B is the magnetic field strength. In this form, the quantity A is known as the magnetic vector potential or just the vector potential. Since the operator
V= (dldxi,dldyj,d/dzk),
taking the curl of A would be the mathematical equivalent of constructing the magnetic field B point-by-point by simultaneously looking at the perpendicular components to A in each of the three dimensions of space. These equations may seem trivial to physicists, but they have far more physical meaning than they have been given in the normally accepted electromagnetic interpretation.
The potential A must be simultaneously perpendicular to all three coordinates used to represent a point in space according to these formulations. However, the only 'thing' that can be perpendicular to all three dimensions of space simulta- neously would be a fourth orthogonal dimension. Therefore, changes in the magnetic potential as well as magnetic potential itself are perpendicular to all three directions at any spatial position in our normally perceived physical space. Different equipotential surfaces would still be expressed by three-dimensional equations even though they are displaced in the fourth direction because they would act like three-dimensional spaces that are parallel to or stacked on top of our common three-dimensional space in the fourth direction. Given the con- tinuity of space, our three-dimensional material world is actually embedded in a four-dimensional space (or manifold). Bernhard Riemann's original develop- ment of the generalized formulations of non-Euclidean geometry posited that an n-dimensional space would be embedded in an n+l-dimensional manifold, which implies that the physical reality of our three-dimensional space (where n= 3) requires the existence of a higher-dimensional manifold. In present theories of higher-dimensional spaces, such as the various superstring theories, several higher embedding dimensions are used, but the Riemannian mathematics used in general relativity only 'requires' one higher embedding dimension.
528 J. E. Beichler
The fact that magnetism implies a fourth dimension is not new. William Kingdom Clifford, a British geometer, tried to express Maxwell's electromag- netic theory using a four-dimensional space model in the 1870s. Clifford is better known for offering the first translation of Riemann's Habilitationsschrift lecture, " On the hypotheses which lie at the bases of geometry" , into English in 1873, among other things. Based on his understanding and interpretation of Riemann's geometry, Clifford claimed that what we sense as matter is nothing more than three-dimensional space curved in a fourth dimension and what we conceive as matter in motion is no more than variations in that curvature (Clifford, 1870). For having stated this, Clifford's geometrical model of space is normally regarded as a precursor to Einstein's model of space-time curvature in the general theory of relativity. Most twentieth century scholars have also concluded that Clifford never developed a theory and had no followers (Eddington, 1921; d'Abro, 1927; Bell, 1940; Jammer, 1954; Hoffman, 1972; Kilmister, 1973; Swenson, 1979)' so his theoretical work is viewed in this regard as a historical footnote and no more. The mathematician and historian E.T. Bell has gone so far as to characterized Clifford's anticipation of Einstein as little more than a case of some lucky person hitting "the side of a barn at forty yards with a charge of buckshot" (Bell, 1937), but this view of history is completely false. While Clifford's physical theories have gone unnoticed, Clifford numbers and his system of bi-quaternions have found new uses in some modern interpretations of quantum theory and relativity (Power, 1970; Gurney, 1983; Chisholm and Common, 1985) even though they were originally developed to describe his four-dimensional space, a fact that should imply new ways of interpreting the quantum.
Many modern scholars have mistakenly interpreted Clifford's theoretical model of a four-dimensional space in physics against a historical mindset biased by an early twentieth century view of general relativity (Beichler, 1996). Clifford's main purpose was not to develop a new theory of gravity, as did Einstein several decades later. Clifford's original theoretical work only dealt with Maxwell's electromagnetic theory even though he planned to add gravity to his theory at a later date (Clifford, 1887), if he had not died. Actually, Clifford was developing what we would today consider a unified field theory or better yet a theory of everything. He was fond of saying that he was " solving the universe" (Pollock in Clifford, 1879),which was his way of describing a single theory that covered all of the natural forces. Clifford attempted first to explain magnetic induction, not gravity, with his four-dimensional geometry (Pearson in Clifford, 1885). Magnetic induction is governed by the equation B = V@A, providing a direct link between the current logical argument for a four-dimensional space and Clifford's interpretation of Maxwell's electromagnetic induction.
Clifford published numerous mathematical papers on the motion of three- dimensional matter in four-dimensional elliptical (single polar Riemannian) spaces. He also published a book that actually presented his first step in building a proper theory, that is, for any of his peers who understood what he was trying to do. Historians and scholars today do not understand what Clifford was
Five Dimensions of Space-Time 529
attempting to accomplish, so they only see the book as a simple introductory trea- tise on kinematics. Anyone looking for a completed gravity theory in Clifford's work simply will not find it. Nearly all modern historians have mistakenly claimed that he never published his theory because they are looking for a nonexistent gravity theory with time as a fourth dimension.
Clifford expressed the opinion that all energies are either potential or kinetic (Clifford, 1880), but he also believed that kinetic energies in three-dimensional space would become potential energies in his four-dimensional spatial frame- work. In other words, forces in three-dimensional space would reduce to constant variations in position along paths in a four-dimensional curved space, an idea that was made current in general relativity. However, the modern concept only deals with gravity as modeled by modem relativity theory while Clifford meant to apply the concept to all forces in his model. Upon this hypothesis, he published the first volume of a series of books titled Elements of Dynamic (Clifford, 1878). His first volume was subtitled Kinematics. Everyone that knew Clifford or his work knew that dynamics in three-dimensional space is just kinematics in Clifford's four-dimensional space, that is why he referred to his explanation of Dynamics as Kinematics in the book title. He was writing about four-dimensional kinematics, which was equivalent to three-dimensional dynamics in his mind and theoretical model. Coincidentally, this same book is recognized by historians as the first published statement by a mathematician that distinguished between the cross and dot products in vector algebra (Crowe, 1967), the same dot and cross products that are used in the vector and scalar representations of magnetic potential given above. It should be clear then that Clifford understood the four- dimensionality of magnetic potential a full century before the modem scientific community took the unification of gravity and electromagnetism seriously.
In developing his theory, Clifford faced the problem that no mathematical formalism existed to express his four-dimensional ideas. So he used a form of quaternions of his own invention (bi-quaternions) to express his four- dimensional model of space (Clifford, 1882). Unfortunately, quaternions lost favor in the late nineteenth century to vectors and their use was largely aban- doned during the first few decades of the twentieth century. So no one today would even recognize that Clifford's mathematics represented his four- dimensional theory of physical reality. Einstein's theoretical work on a theory of gravity used the Levi-Civita tensor formalisms that had developed along a different line of reasoning than Clifford used for his quaternion algebra. The tensor calculus used by Einstein was only developed after Clifford's death.
As stated above, Clifford did not ignore the effect of his four-dimensional model of matter on the Newtonian theory of gravity. Clifford died of consumption in 1879 at the age of 34 and never completed his research, but it is still possible to discover what he planned to eventually accomplish with his four-dimensional model. His colleagues were so impressed with his theoretical ideas that both his published and unpublished works were collected, edited and published within a decade after his death. His followers and colleagues
530 J. E. Beichler
published everything that they could find, including lecture notes of classes that he taught, because they thought that his theoretical work was important enough to save for posterity and the future. Clifford's outline for the second volume of his Elements of Dynamic was among the unfinished works that were published. His student Robert Tucker edited this book. In it, Clifford stated his views on the theory of gravity and outlined how he would change gravity given his new four- dimensional geometry, thus indicating the fact that he was searching for, and may have found but never published, a unified field theory. But we will never know that fact for sure.
Of course, philosophical and mathematical arguments are not as valuable in science as observation and experimental verification. Yet there is some experi- mental evidence supporting the existence of magnetic potential in the Aharonov- Bohm effect (Aharonov & Bohm, 1959). In the Aharonov-Bohm experiment, an electron beam is split in such a manner that the two resulting beams pass on either side of an upright solenoid before coming back together on a screen. The solenoid is oriented in such a way that the twin beams cut across the field lines (perpendicular to B) and thus the net force acting on them is zero. Yet when the beams come together at the screen they interfere with each other. The interference clearly shows that the wave functions associated with the electron beams are out of phase, yet they should not be out of phase by the normal standards of Maxwell's electromagnetic theory. Although the effect is somewhat paradoxical, it is normally interpreted as evidence that the magnetic potential associated with the magnetic field is real even though it cannot be measured or experimentally determined. While the net force is zero, an integration of the potential A in a closed loop around the coil is not zero. The common interpretation of this experiment introduces a quantum solution (Bohm & Hiley, 1993). However, this effect can be simply explained and understood within the four-dimensional framework of electromagnetic induction. In other words, a classical electromagnetic interpretation can be used to explain the results if a physically real four-dimensional space that is associated with the magnetic vector potential is assumed.
While the net force is zero on either of the electron beams, the electrons are moving at a constant speed through different portions of the coil's mag- netic field. So they each follow paths of varying potential (surfaces) in four- dimensional space corresponding to the portions of the magnetic field through which they travel. Since they are following four-dimensional paths of different lengths, they are out of phase when they reach the screen and interfere with each other. The principle is similar to a satellite orbiting the earth at a constant speed. The constant speed holds the satellite to a path along a gravitational equi- potential surface. When the speed changes, the satellite follows a path through different equipotential surfaces. The orbital speed determines the altitude of the orbit and the potential path (surface) along which the satellite travels. The electrons in the beam also follow curved potential paths in the fourth dimension, which are different according to the portions of the magnetic field through which
Five Dimensions of Space-Time 531
they pass in three-dimensional space. The difference in curved paths in four- dimensional space puts them out of phase at the end of the trip even though their paths in three-dimensional space, the projections of their paths in four- dimensional space, are not curved.
And finally, given a real fourth dimension of space that is characterized by magnetic potential, anything that emits a normal transverse electromagnetic wave in three-dimensional space would also cause a corresponding compressive wave of magnetic potential variation in the fourth direction of space. Numerous scientists have claimed to show the mathematical possibility of such longitudinal electromagnetic waves. Edmund T. Whittaker's model of 1903 is perhaps the best known of these attempts (Whittaker 1903, 1904). According to Whittaker,
... thus we have the result, that the general solution of Laplace's equation
wheref is an arbitrary function of the two arguments z+ix cos u+iy sin u and u.
Moreover, it is clear from the proof that no generality is lost by supposing thatf is a periodic function of u (Whittaker, 1903).
The variable u actually represents the fourth dimension of space while V is the magnetic potential. This interpretation renders Whittaker's formulation com- patible with modem advances in the laws of electromagnetism without surren- dering the possibility of a longitudinal electromagnetic wave. The function f is periodical with respect to u, which means that the fourth dimension is closed with respect to the other three dimensions of space. This closure corresponds completely to Kaluza's closure condition for the fifth dimension of space-time, while the factor of du over which the function f is integrated corresponds to Penrose's gauge invariance dO.
In this respect, the fourth dimension of space is independent of the length of the extension in the fourth direction, such that the fifth direction of space-time can be either microscopic or macroscopic in extent. There is no difference between the two in the functionf as long as the fourth dimension of space is closed. Whittaker then analyzed the general form of the differential equations for wave motion
to demonstrate that the mathematical model can account for a longitudinal
532 J. E. Beichler
electromagnetic wave. However, if V is taken to mean the magnetic potential in the fourth direction of space, then the magnetic potential V can be related directly to the concept of proper time in special relativity. Whittaker's concept
I of a longitudinal component of electromagnetic waves can thus be rendered
~
in relativistic terms, which implies that the concept is actually a wave of changing magnetic potential propagating in the fifth direction of a five- dimensional space-time continuum.
Whether or not Maxwell's electromagnetic theory requires a longitudinal wave in its classical three-dimensional interpretation is open to debate, but the existence of a fourth dimension to space would require a corresponding longi- tudinal wave that propagates throughout the fourth dimension relative to the normal three dimensions of space. No one has ever detected a three-dimensional longitudinal wave, but that does not mean the wave cannot be four-dimensional. After all, no one has ever detected or measured a 'magnetic-volt' of potential in three-dimensional space either, even though the potential exists in four- dimensional space.
The Yukawa Field
Modern physics also requires the existence of a fourth spatial dimension, but this time the culprit is the Yukawa potential. The Yukawa potential normally takes the form
The quantity g is real. It represents the coupling constant between the meson field and the fermion with which it interacts, at least in the normal quantum interpretation. The Yukawa potential itself arises from the exchange of a massive scalar field or particle such as the pi meson or pion (Yukawa, 1935). The nega- tive sign guarantees that the force between particles in the nucleus is always attractive.
This potential is associated with the extremely short-range strong nuclear force and it is usually only interpreted as a quantum phenomenon. The potential associated with the Yukawa field decreases exponentially, guaranteeing the short range of the Yukawa field to little more than the outer boundaries of the nucleus. It is simply assumed that the Yukawa field cannot be interpreted within a non-quantum context, yet there is no hard and fast rule that states that the Yukawa potential cannot be interpreted geometrically. Classical fields are nor- mally interpreted geometrically, so it would seem that the Yukawa field should also have a geometrical interpretation. Even the modern view of gravity as resulting from the curvature of space-time is geometrical in nature.
According to a simple interpretation of physical laws, the field strengths of both electric and gravitational fields vary as llr2. Traditionally, this inverse square law has been interpreted as resulting from the three-dimensionality of
Five Dimensions of Space-Time 533
this may seem, the inverse square law has been used in the past to explain the necessity of a three-dimensional space to the laws of physics (Whitrow, 1955; Abramenko, 1958; Biichel, 1963; Freeman, 1969). In other words, the inverse square law is normally thought to imply (if not prove) that space 'must be' three-dimensional. It has also been a common practice in the past to criticize higher-dimensional theories by pointing out that gravity would not work in a higher-dimensioned space because the inverse square law would not apply. However, we commonly accept the notion of a four-dimensional space-time without any alteration to the inverse square law without realizing that we do so. The fourth dimension of time is both qualitatively and quantitatively different from the normal three dimensions of space, so it does not affect the inverse square law. By the same token, there is no hard and fast rule that unequivocally requires that a fourth dimension of space would be both quantitatively and qualitatively the same as our normal three dimensions of space. In fact, given the reality of a fourth dimension of space, nature seems to have ordained that the fourth dimension is different from our normal three dimensions of space and nature rules physics instead of the other way around. So there is no valid or compelling reason to assume that a fourth spatial dimension would have any effect on the inverse square law and gravity. In fact there are reasons to believe that the opposite is true.
Many scientists have long believed that matter is electrically constituted and electricity acts according to the inverse square law. Our perception of space is dependent on the relative positions of matter in that space. So if matter is three- dimensional we sense space as three-dimensional. The three-dimensional surface curvature of a material particle or material body may be sufficient to determine the three-dimensionality of space, but the complete three- dimensionality of the particle is not necessary according to how it outwardly appears. Nor is it complete. The interior portion of a material particle could still be higher dimensional. For instance, the interior of a proton could be a physical singularity stretching into a higher fourth dimension even though the exterior surface of the proton is still curved spherically in three-dimensional space. Space
1 could have any number of dimensions while three-dimensional matter only determines that part of the space or manifold in which the electrical field acts and reacts. Our normal senses evolved in the three-dimensional material world of nature, so they would be limited to detect only the three-dimensionality of matter even given a real fourth dimension. Since gravity acts between material particles, which are three-dimensional due to their electrical nature, it would also act three-dimensionally even if space had four or more dimensions. While it is commonly argued that space is three-dimensional because of the inverse square law, it could also be argued that we only sense three out of a greater number of dimensions because of the inverse square law by which gravity and electricity act as they do in three dimensions.
It seems that the inverse square law only guarantees the three-dimensional actions and interactions of matter, not the other way around. The forces
534 J. E. Beichler
associated with common fields act three-dimensionally and no more. The inverse square law does not guarantee that either space itself or fields in general are three-dimensional or otherwise limited to three dimensions. Fields could be higher-dimensional entities just as space could be higher dimensional even though we only sense three dimensions of space. Matter reacts with fields in three- dimensional space because matter is outwardly three-dimensional, not because fields are three-dimensional. If fields are higher dimensional, there may be field- field interactions that occur only in the higher dimensions of space and thus remain undetected in the three-dimensional material space except by their sec- ondary effects. An effect such as quantum entanglement could be explained in this manner. When all is taken into account, neither physical fields nor space need be limited to three dimensions by either the laws of nature or logic and reason.
On the other hand, the potentials associated with fields vary as llr. So
a physical field associated with a particular potential has one more factor of the
2
variable 'r' than the potential itself because fields vary as l/r . The dimen-
sionality of the space that the field occupies is generally two greater than the exponent of the variable 'r' in the denominator of the formula representing the potential. This logic also follows for the Yukawa potential: The variable 'r' in the denominator reflects the three-dimensionality of the field, but there is another term with an 'r-' factor in the exponent in the numerator of the formula. The variable 'r' in the numerator of the formula could easily represent another dimension, so the Yukawa potential would require that the space occupied by the Yukawa field is four-dimensional, not three-dimensional. The exponential term eKkrrepresents both the geometrical structure of the particle and its associated field as extended into the fourth dimension of space. The extension of a particle in the fourth direction would occur internally relative to three-dimensional space so that the part of the material particle that we sense or detect remains the three- dimensional exterior surface of the particle.
In this model of the Yukawa potential and field, the variable 'r' in the denominator would account for the spherical shape of elementary particles and the nucleus itself. By analogy, this would indicate that the exponential term in the numerator would refer to the geometrical shape of the Yukawa field in the higher fourth dimension. If the Yukawa field conforms to the shape of an exponential curve in the higher dimension, as opposed to the spherical shape in three-dimensional space, then the fourth dimension of space is most certainly different from the other three dimensions of normal space, as noted above.
In fact, elementary particles such as protons and neutrons would be small singularities according to the general theory of relativity; or rather they would be singular at their centers. They would therefore follow curved space-time in a shape similar to a rotated exponential curve, as shown in a normal drawing of the curved metric of a singularity (see Figure 1).
So the Yukawa field would correspond to the shape of a nucleus or elementary particles predicted by relativity theory, if general relativity is taken to depict a real curvature of three-dimensional space in a higher embedding fourth
Five Dimensions of Space-Time 535
Exponential curves define the outer shape of the singularity in
Fig. 1. The internal curvature of an elementary particle.
dimension of space. At this point, there is no need to assume a dimensionality greater than four as used in some recent theories, although there are no re- strictions on space having more than four dimensions. Moreover, the curvature of space-time in general relativity is a function of the mass of a particle or body. The constant k in the Yukawa potential is also related to the mass of the exchange particle between nucleons. In both cases, the mass is related to the curvature explicit in the mathematical model, which indicates that the Yukawa potential could be modeled by the curvature of space-time as expressed by the theory of relativity rather than the particle exchange concept of quantum field theory. In either case, the Yukawa potential logically requires that space is four- dimensional and thus the space-time continuum of relativity is five-dimensional. The relationship between the Yukawa potential and general relativity leads to the third logical proof that space is four-dimensional, only this time the proof deals with the macroscopic world of the greater universe rather than the microscopic world of the quantum.
The Cosmological Connection
In the late 1920s, Edwin Hubble observed that other galaxies were receding from our Milky Way galaxy with increasing speed as the distance to the other galaxies increased. These observations indicated that our universe is expanding. Georges-Henri Lemaitre and others who developed the expansion hypothesis by a theoretical application of general relativity had already predicted the expansion. The marriage of observation and theory in this case produced one of the most spectacular successes for science in the twentieth century. The simple notion of an expanding universe is usually explained by analogy to a two- dimensional surface expanding in a third dimension.
A good example would be a balloon with spirals drawn on its surface to represent galaxies. When the balloon is blown up and expands, the spirals spread
536 J. E. Beichler
apart and move away from each other in the same pattern of motion that the receding galaxies show during astronomical observation. The expanding surface of the balloon is analogous to our expanding universe, the difference being that the balloon is a two-dimensional surface expanding outward in a third direction while the universe is a three-dimensional surface expanding into 'who knows what'. Although the phrase 'who knows what' is not an appropriate phrase for scientific use, it does represent how science views the question of what the universe is expanding into.
Some versions of modern brane theory postulate variously dimensioned branes curved in higher-dimensional bulks, so brane theorists could claim that the universe is expanding into the embedding bulks. However, brane theories have other problems to overcome: There is a discontinuity between the branes and the bulks in which they are embedded, such that the branes and bulks are separate things. As such, they break the continuity of the space-time continuum. The brane theories are based upon Klein's interpretation of Kaluza's five-dimensional theory of space-time, but they violate the basic assumptions upon which Kaluza unified electromagnetism and gravity as expressed by general relativity: Kaluza assumed the continuity of four-dimensional space-time with the fifth and higher dimension. So it would seem that the brane theories as well as the superstring theories upon which they were conslrucled are at odds with their own basic premise.
However, the balloon analogy gives more information about the expansion than ordinarily suspected, which implies an answer to this unanswered question about what the universe is expanding into. The spirals drawn on the balloon's surface are all rotating and expanding relative to a single point, the geometric center of the balloon, rather than any center on the surface of the balloon. This part of the analogy is often used to argue that our universe has no center within its three-dimensional expanse, which is true. The curvature of space-time in general relativity has always been considered an intrinsic property of space-time such that a higher embedding dimension has been unnecessary to explain observed and suspected phenomena. However, a higher embedding dimension, demonstrating that the curvature of space-time is an extrinsic property, is still perfectly compatible with general relativity (Misner et al., 1973). Extrinsic curvature is sufficient to explain the effects of general relativity, but has never been considered necessary as long as the idea of intrinsic curvature was con- sidered more likely. But if the concept of extrinsic curvature and a higher embedding spatial dimension does not represent our true reality, simple rela- tivity will be violated in the case of the expanding universe and other astronomical observations.
In the balloon analogy, as stated above, the plane of rotation of the spirals and the recession of the spirals as the balloon expands are all oriented relative to a single point, the center of curvature of the balloon's surface. In the real three-dimensional spatially extended universe, all of the galaxies rotate and recede from each other at all possible angles or orientations in three-dimensional space. Yet you cannot have a mathematical property true for one configuration
Five Dimensions of Space-Time 537
of spatial dimensions (two dimensions embedded in three-dimensional space) that is not true for another configuration (three dimensions embedded in a four- dimensional space). Such an inconsistency would destroy the validity of the mathematical model. The general geometric properties are the same for all spaces and embedding manifolds for an n-dimensional geometry embedded in an n+l-dimensional manifold. Riemannian geometry is based upon this simple idea. So, there is a logical necessity that the orientation of all of the galaxies in the expanding universe be relative to a single point or center of curvature of the universe. The natural rotations of galaxies in the universe are all relative to the same point, and the planes of galactic rotation are all tangential to the three- dimensional surface that is our space, which is perpendicular to the real extrinsic radii drawn between them and the center of a physically real curvature of our universe in a fourth spatial dimension.
In this case, it is illogical to speak of the overall curvature of the universe and then deny the reality of the higher embedding dimension because of a human sensory and perceptual bias against the possibility of a fourth spatial dimension. Perhaps local spatial curvature can be explained away as an intrinsic charac- teristic of the space-time continuum, but the concept of intrinsic curvature on a global level is untenable. The notion of an intrinsic radius of curvature for the whole of the universe is illogical. The three-dimensional surface of our universe is closed such that it forms a Riemannian sphere, which would require a higher embedding dimension to account for the closure. Once again, the only way to derive a direction perpendicular to all three dimensions of space simultaneously would be to adopt the geometry of a real four-dimensional embedding space. That fourth dimension or direction is orthogonal to the normal three dimensions of space. So the observed three-dimensional orientation of astronomical bodies directly requires the reality of a fourth spatial dimension. In effect, our three- dimensional universe is expanding into a fourth dimension of space. The simple fundamental notions of relative motion and actual observation, rather than any specific theory, logically require that our space is four-dimensional and thus space-time is five-dimensional.
The Kaluza Confirmation
While these logical proofs may not be completely persuasive or even persuasive enough to sway the attitudes of many within the general scientific community, there are other extenuating factors and circumstances that should be persuasive given the validity of the logical proofs. Also, these three logical proofs should be considered independent of any particular hyper-dimensional theory of space-time. They only indicate that some higher-dimensional theory would give a more correct picture of our physical reality without specifying the exact theory to be used. Yet there is already a specific scientific theory that successfully utilizes a five-dimensional space-time geometry to unify general relativity and electromagnetism: Kaluza's 1921 theory. Kaluza's theory has been largely ignored in spite of its successful derivation of Maxwell's electromagnetic
538 J. E. Beichler
theory from the general relativity of a five-dimensional space-time continuum. Most modern scientists are only familiar with Kaluza's theory through its association with the work of Oskar Klein, altering the theory to the Kaluza-Klein model of space-time. Little is known of Kaluza's original theory under these circumstances. Klein's subsequent adaptation of the theory (Klein 1926a, 1926b, 1927) was an attempt to incorporate quantum theory into the geometry of space-
time. But Kaluza's theory can stand alone on its own merits, without considering 7
Klein s extended version of the theory into the realm of the quantum. Kaluza's original theory had nothing to do with the quantum.
According to Kaluza's original theory, two mathematical conditions are necessary to unify general relativity and electromagnetic theory. All points in the four-dimensional space-time continuum are extended orthogonally into the fifth dimension along what Kaluza called A-lines. The A-lines follow circular paths in the fifth direction back to our space-time continuum, so they are closed with respect to the fifth direction. Kaluza's first condition was to close the system in the fifth direction, but the A-lines were also required to be of equal length, giving the second condition. Kaluza also suggested that the A-lines are infinitesimally short to guarantee that we could not detect the fifth dimension, although this suggestion was not a required mathematical condition. The two conditions were necessary to guarantee the mathematical consequences of add- ing the fifth dimension: Deriving the equations of general relativity by applying a four-transformation while obtaining the equations of electromagnetism by applying a cut-transformation.
If either of the initial conditions were to be changed or relaxed in any manner, it is possible and even likely that the results of the change would render electromagnetism and gravity incompatible if not break Kaluza's link between them altogether. But Kaluza also assumed, without so stating, a third condition of continuity in the fifth direction. Continuity was built into the calculus that Kaluza used to develop his geometrical model. So if continuity is forfeited, then Kaluza's theory could still fall apart. Before any of these conditions is changed in new extensions of Kaluza's theory, it must be shown that any of these changes, or any combination of them, does not alter Kaluza's results, the unifi- cation of gravity and electromagnetism. There are no middle roads to take here; it is all either black or white. If Kaluza's initial conditions were altered in any manner that breaks or weakens the link between gravity and electromagnetism, then the extension would be invalid for having destroyed the very foundations upon which the new theory is based. Yet changes in these conditions have been made to expedite the development of modern theories and thus could have a direct bearing on the validity of the supergravity, superstring and brane theories, all of which depend on extended versions of the Kaluza-Klein model.
When Klein adopted Kaluza's theory in an attempt to quantize the unified field, he did not relax or alter Kaluza's conditions. He merely followed Kaluza's suggestion that the extension in the fifth direction must be extremely small since we cannot detect the extra dimension. Klein equated the periodicity in the
Five Dimensions of Space-Time 539
'closed loop' condition to the quantum of action. At the time, Klein's version of the theory was largely ignored by the scientific community, which was mesmer- ized by other developments in quantum theory such as quantum mechanics and wave mechanics. Unfortunately, Klein could not make his theory work. He rejected his first theory and made two later attempts to rectify the errors in his theory, in 1939 and 1947 (Klein 1939, 1947), but eventually rejected his basic hypothesis and gave his theory up as a lost cause.
Klein's adaptation of Kaluza's theory, the Kaluza-Klein theory, was re- discovered in the 1970s and adopted by supergravity theorists as a method to unify gravity with the latest versions of the quantum field theories and the standard model of elementary particles. The superstring theorists adopted the Kaluza-Klein theory a few years later, but both groups of theorists have expanded the number of dimensions to 10,11or more. However, these scientists have never demonstrated that adding the extra dimensions above Kaluza's original five would remain consistent with the original purpose of Kaluza's theory to unify general relativity and electromagnetism. These theories are untenable and speculative and they will remain so until superstring theorists can demonstrate that adding the extra dimensions does not alter the connection between Einstein and Maxwell's theories that Kaluza's five-dimensional structure established.
On the other hand, any extension of the Kaluza-Klein theory that is super- imposed on a quantum field theory should also suffer from fundamental problems because quantum field theories are by their very nature based upon a discrete model that is at odds with the assumed condition of continuity in Kaluza's original theory. Nor have the superstring theorists explained how the curvature of space-time fits into their theories, even though they take general relativity for granted as the basis of their theories. Any Kaluza or Kaluza-Klein theory that retains the infinitesimal (or Planck) extension of length in the fifth direction must deal with the same fundamental problem. The adoption of a real physical five-dimensional space-time structure, instead of a limited purely mathematical model, implies that curvature is an extrinsic characteristic of our common four-dimensional space-time continuum. However, an infinitesimally extended fifth direction seems to retain the intrinsic nature of the four- dimensional space-time by not explaining how the concept of curvature fits into the model, creating a paradox.
The superstring theories have evolved into the more general 'brane' theories. Several 'brane' theorists have speculated on all types of structures including dual three-dimensional branes, five-dimensional branes, colliding branes and curved branes within a bulk, to mention only a few examples. But it seems that they have yet to demonstrate whether these geometrical structures conform to the basic hypotheses upon which their theories depend, Kaluza's initial derivation of the general relativity and electromagnetic formulas from an extremely limited and conditional five-dimensional mathematical model of a continuous space- time. The Randall-Sundrum theory offers a case in point (Randall & Sundrum,
1999a, 1999b). In the Randall-Sundrum model, two branes are separated
1
540 J. E. Beichler
by a higher-dimensional bulk. One of the branes represents our common three-dimensional curved space, while gravitons traveling from our brane to the other brane are the only direct links between the branes. In one model, the second brane is an infinite distance away, effectively limiting our world to the single brane embedded in the bulk and guaranteeing a weak gravitational force. However, this model is in direct violation of Kaluza's condition that our four- dimensional world is closed with respect to the higher fifth dimension. Brane theories of this type must be required to demonstrate that their models do not disrupt the unification of electromagnetism and gravity in the Kaluza model upon which they are based. Yet no one has ever argued or even explored how such changes would affect the basic underlying principles of the original mathematical unification model developed by Kaluza.
The only theoretical research ever conducted to determine the mathematical consequences of changing Kaluza's theory only considered the relaxation of his initial suggestion of an infinitesimal extension, rather than changing any of his initial conditions. Einstein and Peter G. Bergmann completed this change in 1938 (Einstein & Bergmann, 1938). Einstein, Bergmann and Valentine Bargmann again considered it in 1941 (Einstein et al., 1941). They retained the 'closed loop' and 'equal length' conditions and remained within a continuous mathematical model of five-dimensional space-time, but allowed for the possibility of macroscopically extended lengths of the A-lines. Under these conditions, they were still able to derive Maxwell's formulas and thus maintain Kaluza's unification. But Einstein eventually gave up this avenue of research toward his goal of a unified field theory because he could not justify the notion of a normal sized fifth dimension that could not be sensed or detected in any manner. Even so, Einstein listed the five-dimensional approach as one of three possibilities to develop a unified field theory in his last published book before he died (Einstein, 1956). He stipulated that the five-dimensional hypothesis would only be tenable if it could be explained why the fifth dimension cannot be detected.
Conclusion
These three logical proofs, in themselves, will not immediately change the course of science. Science has ignored the implied existence of a real fourth spatial dimension for more than a century, so it will not be so easily compelled to accept it now. However, it is not just the three logical proofs that indicate the existence of a fourth spatial dimension to our universe. It is a preponderance of the evidence that will soon force science to accept the four-dimensional reality of space. The value of these three logical proofs will only become evident over [he lvnger term of scientific advances.
While logically proving the existence of a fourth dimension to space, these proofs also imply the geometric structure of that dimension relative to the other three. First of all, the fourth dimension of space would be different, like time, from the other three common dimensions of space. Otherwise, four- dimensionality would adversely affect the inverse square law and thus conflict
Five Dimensions of Space-Time 541
with normally accepted physical laws. Instead, the fourth dimension should be characterized by changing magnetic potential except inside elementary particles where the space curvature corresponding to matter would assume the shape of an exponential curve. Both of these characteristics imply that the total extension of space in the fourth direction cannot be infinitesimally small or even microscopic as in Klein's version of Kaluza's theory. The exponentially shaped singularity at the center of elementary particles such as protons would require a non- infinitesimal extension of space in the higher dimension.
In other words, if the magnetic potential and Yukawa potential exist in nature as described, then the fourth dimension of space, or the fifth dimension of space- time, cannot be infinitesimally extended. Both logical arguments imply that the extra higher dimension is macroscopically extended as Einstein, Bergmann and Bargmann demonstrated. It is provident that Kaluza's theory has already been developed as the basis for a new unification, but the macroscopic extension in the fourth direction of space means that the present unification theories that are based upon Kaluza's suggestion and Kaluza-Klein models are not valid. The path of unification that science must follow is the path that physics and nature leads us down, not the path that some scientists decide that nature must logically follow, no matter how 'beautiful' or aesthetically pleasing those theories might be. The path that nature has decided for science is the one that leads to the four- dimensionality of space (the Clifford model) and the five-dimensionality of the space-time continuum (the Einstein-Kaluza model).
Much of the early work on five-dimensional space was in an attempt to develop a theory that unifies the four fundamental interactions in nature: strong and weak nuclear forces, gravity and electromagnetism. German mathematician Theodor Kaluza and Swedish physicist Oskar Klein independently developed the Kaluza–Klein theory in 1921, which used the fifth dimension to unify gravity with electromagnetic force. Although their approaches were later found to be at least partially inaccurate, the concept provided a basis for further research over the past century.
Space-time--time couples Kaluza's five-dimensional geometry with Weyl's conformal space-time geometry to produce an extension that goes beyond what either of those theories can achieve by itself. Kaluza's ``cylinder condition'' is replaced by an ``exponential expansion constraint'' that causes translations along the secondary time dimension to induce both the electromagnetic gauge transformations found in the Kaluza and the Weyl theories and the metrical gauge transformations unique to the Weyl theory, related as Weyl had postulated. A space-time--time geodesic describes a test particle whose rest mass, space-time momentum, and electric charge q, all defined kinematically, evolve in accord with definite dynamical laws. Its motion is governed by four apparent forces: the Einstein gravitational force, the Lorentz electromagnetic force, a force proportional to the electromagnetic potential, and a force proportional to a scalar field's gradient d(ln phi). The test particles exhibit quantum behavior: (1) they appear and disappear in full-blown motion at definite events; (2) all that share an event E of appearance or disappearance do so with the same charge magnitude |q| = phi(E); (3) conservation of space-time--time momentum at such an event entails conservation of electric charge in addition to conservation of space-time momentum, among the participating particles; (4) at such events the d(ln phi) force infinitely dominates the other three --- this strongly biases the appearance and disappearance events to be concentrated deep in the discretely spaced potential wells of ln phi, and sparse elsewhere.
To explain why this dimension would not be directly observable, Klein suggested that the fifth dimension would be rolled up into a tiny, compact loop on the order of 10-33 centimeters. Under his reasoning, he envisioned light as a disturbance caused by rippling in the higher dimension just beyond human perception, similar to how fish in a pond can only see shadows of ripples across the surface of the water caused by raindrops.[2] While not detectable, it would indirectly imply a connection between seemingly unrelated forces. The Kaluza–Klein theory experienced a revival in the 1970s due to the emergence of superstring theory and supergravity: the concept that reality is composed of vibrating strands of energy, a postulate only mathematically viable in ten dimensions or more. Superstring theory then evolved into a more generalized approach known as M-theory. M-theory suggested a potentially observable extra dimension in addition to the ten essential dimensions which would allow for the existence of superstrings. The other 10 dimensions are compacted, or "rolled up", to a size below the subatomic level. The Kaluza–Klein theory today is seen as essentially a gauge theory, with the gauge being the circle group.
The fifth dimension is difficult to directly observe, though the Large Hadron Collider provides an opportunity to record indirect evidence of its existence. Physicists theorize that collisions of subatomic particles in turn produce new particles as a result of the collision, including a graviton that escapes from the fourth dimension, or brane, leaking off into a five-dimensional bulk. M-theory would explain the weakness of gravity relative to the other fundamental forces of nature, as can be seen, for example, when using a magnet to lift a pin off a table — the magnet is able to overcome the gravitational pull of the entire earth with ease.
Mathematical approaches were developed in the early 20th century that viewed the fifth dimension as a theoretical construct. These theories make reference to Hilbert space, a concept that postulates an infinite number of mathematical dimensions to allow for a limitless number of quantum states. Einstein, Bergmann and Bargmann later tried to extend the four-dimensional spacetime of general relativity into an extra physical dimension to incorporate electromagnetism, though they were unsuccessful.[1] In their 1938 paper, Einstein and Bergmann were among the first to introduce the modern viewpoint that a four-dimensional theory, which coincides with Einstein-Maxwell theory at long distances, is derived from a five-dimensional theory with complete symmetry in all five dimensions. They suggested that electromagnetism resulted from a gravitational field that is “polarized” in the fifth dimension.
www.scientificexploration.org/docs/21/jse_21_3_beichler.pdf
The main novelty of Einstein and Bergmann was to seriously consider the fifth dimension as a physical entity, rather than an excuse to combine the metric tensor and electromagnetic potential. But they then reneged, modifying the theory to break its five-dimensional symmetry. Their reasoning, as suggested by Edward Witten, was that the more symmetric version of the theory predicted the existence of a new long range field, one that was both massless and scalar, which would have required a fundamental modification to Einstein's theory of general relativity. Minkowski space and Maxwell's equations in vacuum can be embedded in a five-dimensional Riemann curvature tensor.
In 1993, the physicist Gerard 't Hooft put forward the holographic principle, which explains that the information about an extra dimension is visible as a curvature in a spacetime with one fewer dimension. For example, holograms are three-dimensional pictures placed on a two-dimensional surface, which gives the image a curvature when the observer moves. Similarly, in general relativity, the fourth dimension is manifested in observable three dimensions as the curvature path of a moving infinitesimal (test) particle. 'T Hooft has speculated that the fifth dimension is really the spacetime fabric.
<a href="https://en.wikipedia.org/wiki/Five-dimens
+++ DISCLAIMER +++
Nothing you see here is real, even though the model, the conversion or the presented background story might be based historical facts. BEWARE!
Some background:
The Heinkel He 70 Blitz (Lightning) was designed in the early 1930s to serve as a mailplane for Deutsche Luft Hansa in response to a request for an aircraft faster than the Lockheed Vega and Orion (as used by Swissair) for use on short routes.
It was a low-wing monoplane, with the main characteristic of its design being its elliptical wing (which the Günther brothers had already used for the Bäumer Sausewind sports aircraft before they joined Heinkel) and its small, rounded control surfaces. In order to meet the demanding speed requirements, the design minimized drag with a steamlined cowling, flush rivets, giving a smooth surface finish, and a retractable undercarriage. It was powered by a liquid-cooled BMW VI V12, cooled by ethylene glycol rather than water, allowing a smaller radiator and therefore reducing drag even further. The pilot and radio operator were seated in tandem, with a cabin housing four passengers on two double seats facing each other behind them.
The first prototype flew on 1 December 1932, and proved to have excellent performance, setting eight world records for speed over distance, and reaching a maximum speed of 377 km/h (222 mph) – faster than many contemporary fighter aircraft.
Luft Hansa operated He 70s between 1934 and 1937 for a fast flight service, which connected Berlin with Frankfurt, Hamburg and Cologne, as well as on the Cologne/Hamburg route. He 70s were also flown abroad from Stuttgart to Seville between 1934 and 1936. This route was part of the South America mail service provided by Luft Hansa that continued via Bathurst, The Gambia to Natal, Brazil, using Junkers Ju 52/3m and Dornier Wal flying boats. Swissair received a few Heinkel He 70s for express trans-alpine flights between Zurich and Milan in 1934, too.
Remaining aircraft were transferred to the Luftwaffe in 1937, and the type saw limited military use during WWII. The Luftwaffe operated He 70s from 1935 onwards, initially as a light bomber and reconnaissance aircraft, but as soon as purpose-built designs became available, the He 70 was relegated to liaison and courier aircraft duties.
Twenty-eight He 70s were sent with the Legion Condor and used during the Spanish Civil War as fast reconnaissance aircraft. Their high speed (and likely the already existing "blitz" title) gave them the nickname Rayo (lightning).
The He 70K was another fast reconnaissance airplane variant, but it was powered by a WM-K-14 radial engine, a license-built version of the French Gnome-Rhône 14K Mistral Major engine. It was used by the Royal Hungarian Air Force in early World War II during 1941–42 and later re-designated He 170 (since the suffix “K” originally indicated “kommerziell” for a civil export version).
Another military customer of the He70K was Sweden, even though in the unique form of a floatplane conversion. Twelve machines, basically of similar configuration to the land-based Hungarian He 70Ks, were delivered in 1937 and operated for reconnaissance and patrol duties along the Baltic coast line under the local designation S 13 (Spaning = Observation). By the end of the hostilities in Europe in 1945, nine S 13 floatplanes were still operational but deemed outdated for military purposes.
However, six of the robust machines were still in good shape and earmarked for the new Scandinavian Airlines System (better known as 'SAS'). SAS airline was officially founded on 1 August 1946, when Svensk Interkontinental Lufttrafik AB (an airline owned by the Swedish Wallenberg family), Det Danske Luftfartselskab A/S and Det Norske Luftfartselskap AS (the flag carriers of Denmark and Norway) formed a partnership to handle the intercontinental air traffic of these three Scandinavian countries. Operations started on 17 September 1946, and the revamped He 70 floatplanes (registered in Norway with the codes LN-KMA-F) were to operate in the northern regions of Norway and Sweden for postal and other transport services, extending the Hurtigruten postal ship connections landwards. The other three surviving aircraft were retired, but stored for spares.
All military equipment, like the dorsal defensive weapon station, which was simply faired over, was deleted. The civilian crew consisted typically of two (pilot and navigator/Radio operator), but a PostVerket (the Swedish Postal service) official who would assist loading and handle the official paperwork was a frequent third crew member.
For easier loading the machines received bigger two-wing freight room doors on both sides of the fuselage, and the original Gnome-Rhône 14K engine with 746 kW (1,000 hp) was replaced by its post-war SNECMA 14R evolution. This supercharged engine considerably improved the aircraft’s take-off performance and overall payload (400kg of goods could be carried now instead of 300kg) and temporarily delivered 1,190 kW (1,590 hp). The cabin had a level floor and featured foldable seats on the side walls for up to six passengers, even though this was only a secondary duty.
In 1948 the Swedish flag carrier AB Aerotransport joined SAS and the companies coordinated European operations and finally merged to form the SAS Consortium in 1951. When established, the airline was divided between SAS Danmark (28.6%), SAS Norge (28.6%) and SAS Sverige (42.8%), all owned 50% by private investors and 50% by their governments.
However, the fast technical development in the late Forties and the advent of the jet age rendered the SAS’ He 70 floatplane fleet quickly obsolete and they were retired in 1953.
General characteristics:
Crew: 2 (pilot, navigator/radio operator) plus up to 6 passengers
Length: 11.70 m (38 ft 4⅔ in)
Wingspan: 14.80 m (48 ft 6⅔.75 in)
Height: 3.10 m (10 ft 2 in)
Wing area: 36.50 m² (392.9 sq ft)
Empty weight: 2,360 kg (5,203 lb)
Loaded weight: 3,386 kg (7,450 lb)
Max. takeoff weight: 3,500 kg (7,700 lb)
Powerplant:
1× SNECMA 14R supercharged 14 cylinder radial engine with 1,190 kW (1,590 hp) for take-off
Performance:
Maximum speed: 320 km/h (177 knots, 200 mph) at sea level
Cruise speed: 260 km/h (144 knots, 162 mph)
Range: 2,100 km (1,135 nmi, 1,305 mi)
Service ceiling: 5,300 m (17,390 ft)
Climb to 1,000 m (3,300 ft) 3 min
Climb to 4,000 m (13,125 ft): 18 min
The kit and its assembly:
A straightforward idea for the “Flying Boat, Seaplane and Amphibian” Group Build at whatifmodelers.com in late 2017. This civilian transport aircraft originally started as a military aircraft (even though this one might materialize later, too). The decision to change the topic fell when I came across a Ju 52/3m sheet (Italeri) in my decal box which features an SAS machine. After some legwork I found that these machines were still in use in the Fifties, and so, why not add a smaller aircraft on floats to the post-WWII SAS fleet for remote regions, e. g. for postal service? The He 70 appeared like a plausible candidate, and from this concept the model evolved.
Kit basis is the Matchbox He 70, and the floats come from the KP Letov S.328, a popular donor source since you find this kit quite often and with a small price tag. The floats are still a little ‘petites’ for the He 70, and their "track" is rather narrow. But the combo works, since the He 70 is a very sleek aircraft.
The floats’ assembly needed some serious PSR, though, and mounting them to the wobbly struts was challenging in itself. They were outfitted with mooring anchors, new rudders (one OOB piece got lost, they are very fragile and wobbly) and walking planks.
The aircraft model is a Revell re-boxing of the Matchbox He 70, and the kit is a PITA. Gone are the days when I thought that a Matchbox kit was simple, but would go together well. Here, nothing really fits, PSR everywhere, this thing SUCKS. Be warned!
Since the small windows do not allow much view inside, the interior was kept at a minimum detail level. The original IP side windows were omitted, because they are thick and blurry, and they were later replaced/filled with ClearFix. The cockpit canopy is OOB, but it is so small (and thick, too) that only the pilot's head can be seen – or better: guessed. Since there’s surprisingly little space under the canopy, I could not mount an 1:72 figure and rather used a generic 1:87 (H0 scale) sitting figure.
The machine was built with the radial engine option (IMHO a plausible option for the original military operator and also more suitable for operations in the Far North), but the primitive OOB "engine plate" was replaced by a deeper and much better detailed resin piece found in the scrap box (IIRC, left over from a converted ArtModel Polikarpov I-185). It fits snuggly into the OOB front end, even though the ring cover needed some tuning. The propeller is new, too (from a Hobby Boss Fw 190A/F, IIRC), mated with a new axis.
In order to adapt the He 70 to the new floats the original landing gear openings were closed (thankfully, the kit comes with dedicated covers) and blended into the lower wing surface with putty. In order to give the floats a good hold to the fuselage, small round adapters (actually rings cut from a 3mm styrene tube) were glued to the lower hull. Not the most elegant solution, but a pragmatic way to bridge some gaps and lay a good foundation.
In order to add stability to the aircraft with the additional draggy floats, I mounted a ventral fin under the rear fuselage, under the fin.
Another detail: due to the floats, the crew and potential passengers would need boarding ladders, and I used the He 115 as a benchmark. I knew that I have some PE ladders somewhere, but could not find them... So I had to improvise and converted IP window frames from a H0 scale American industrial building into boarding aids. Looks better than most OOB solutions!
Towards the finish line, a HO scale pilot figure added to the cockpit (it's tight and the canopy so thick that I could not fit an 1:72 pilot inside!) and the canopy stuck into place with white glue.
Painting and markings:
I kept this aspect very simple, and used the livery of a post-WW2 Ju 52/3m as benchmark: uniform silver, but apparently not in NMF – but this could also be corroded aluminum. Or is it a silver paint coat against corrosion? The only contrast were black engine covers, and the airline markings.
In order to achieve the silver paint look I tried an experiment: a basic overall coat with acrylic paint from a rattle can, a Duplicolor tone called "Weissaluminium" - which, on the reference sample, rather looks like a greyish paint than a true NMF; at first I was skeptical about the mica particles' size when the paint was still fresh, but once dry the coat looked very good and even, and more like a bare NMF than expected. On top of that, some panel shading with Polished Aluminum Metallizer was added, but only lightly.
In order to add some more "color" I decided to paint the underwater parts of the floats in black. Not a good idea – at least with the Tamiya tape I used for a clean demarcation line... Painting went fine, but when I removed the tape wide sections of the alu paint came off with them. Hmpf.
Anyway, I will try to use the damage creatively and not sand it off or overpaint the damage with silver - I'll rather use a grey primer, as if some real world damage would have been repaired. After all, it's a kind of bush aircraft.
Then the black cowling was added, and I started with the decals, which had to be improvised. For the civil registration code on the wings I used large USAF 45° characters (from a Colorado Decals sheet) – chosing those letters which do not show the typical font, rather simple forms.
For the fuselage markings I used leftover material from an 1:144 SAS Caravelle from Mistercraft. These are a little modern for the aircraft’s intended timeframe, but the characteristic blue cheatline with the dragon boat head at the nose was already present on early post-war SAS aircraft, so this detail is more or less O.K., and with the trim in place the aircraft looks very elegant. The “Scandinavian” line also comes from the Caravelle – it should be complemented by “Airlines System” in smaller front, but this was not available, and the line alone was already so big and long that it covers literally the whole cabin.
However, the problem with these decals was that the cheatlines featured the triangular Caravelle windows, so that I had to paint them over manually (with Humbrol 104, which is a good match, though). Some more decals, like the country emblems on the fuselage, come from an Italeri SAS Ju 52/3m, or the OOB sheet. The cabin doors were simulated with single 0.5mm decal strips in black.
Finally the kit was sealed with semi-matt acrylic varnish (Italeri), the windows were created with Humbrol ClearFix (instead of the OOB styrene pieces) and almost no other weathering was done. In a final step, the floats were mounted under the fuselage and a wire antenna added.
Not a spectacular whif, but an elegant one, despite (or thanks to?) the relatively simple civil scheme. The Letov S.328 floats are IMHO a good match in size and volume, but somehow I think the floats’ track with is a little too narrow? Anyway, I stuck with it, and the resulting He 70 floatplane does not look bad at all.
We have had a good run of clear pre-dawn skies this past week which has meant that it has been a real joy to look upwards at the night sky objects. They have had as much definition and clarity as is possible at any time given the ambient light levels in the suburbs around our apartment in the inner south of Canberra. Although I cannot quite discern the level of detail seen in this image, the night sky has still been tremendously impressive.
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To minimize the effects of camera shake in long exposure images acquired with my Hasselblad V-series camera, it is considered to be good practice to initiate and terminate each exposure with a mechanical shutter release cable rather than depressing and holding the shutter release button on the camera body. It has always been difficult to achieve a strong coupling between one of these cables and my 500C/M camera body, but in the past week, it has become all but completely impossible to achieve any degree of connection whatsoever. I have been investigating the options to resolve this "crisis" (e.g., finding somewhere that could repair the camera body by swapping out the shutter button for one that has a better threaded socket in it, or purchasing another camera body, or ... etc.), but in the meantime, I have also been refining and testing different camera technique for these long exposures.
Naturally, I am using a tripod. For this image, I set the exposure length to 16 seconds via the exposure length option in the menu system on the CFV-50c digital back. This eliminated the effects of camera shake that would be introduced if I terminated the exposure by releasing the shutter button. Before taking the exposure, I activated the mirror lockup lever that is found underneath the winder on the righthand side of the camera body. This pre-stages the mirror by rotating it upwards, taking it out of the light path. The "mirror slap" that is associated with this action is a guarranteed source of camera shake, but by performing this action prior to taking the exposure, its effects are excluded from the photographs. I have been waiting a few seconds after performing mirror lockup to allow the vibrations to settle down. In the absence of being able to use a shutter release cable, I have been initiating the actual exposure by depressing and holding the shutter button using my finger. I have been holding down the shutter button until the exposure has been terminated by the digital back and the new image displayed on the screen. Overall, I have been surprised by the quality and consistency of the results that I have achieved when following the procedure described above.
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This image shows a portion of the Milky Way that is not seen as often in photographs posted on sharing sites as the regions near the Galactic Center. The density of stars is lower than is present around the Galactic Center, yet the Milky Way is still moderately well defined and visually interesting.
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The Milky Way in the lower half of the image is assigned to the constellations of Crux and Centaurus. Above this region, we have the constellations of Vela on the left and Carina on the right. The base of the Southern Cross (in the constellation of Crux) is pointing towards 2 o'clock (i.e., slightly upwards and to the right). This is one of the methods that can be used to locate the South Celestial Pole. In this instance, the pole is located just off the righthand side of the image.
Adjacent to the Southern Cross, there is a dark, shadowy region known as the Coalsack Dark Nebula. This is a patch of dark matter that obscures the light from the stars that are behind it. It is object C99 in the Caldwell Catalogue, a list of 109 objects that can be observed by amateur astronomers. Another Caldwell object, the Jewel Box (C94) open cluster, can be seen immediately below Beta Crucis (that is also known as "Mimosa").
Two Caldwell objects (C97 on the left and C100 on the right) are present in the central region of the image. They are not very easy to distinguish on this image and I shall not attempt to do so here. The 3 concentrations of stars that are 1/3rd of the way down from the top of the image are Caldwell objects C91 (bottom), C92 (upper left) and C102 (upper right). The remaining concentration of stars that can be seen in the middle along the upper edge of the image is not named, and nor does it host any named features.
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List of Caldwell Catalog objects that are present in this scene ...
Catalogue # | Name | NGC or IC # | Type | Constellation | Apparent Brightness
C91 Wishing Well Cluster - NGC 3532 - Open Cluster - Carina - +3
C92 Eta Carinae Nebula - NGC 2272 - Nebula - Carina - +3
C94 Jewel Box - NGC 4755 - Open Cluster - Crux - +4.2
C97 Pearl Cluster - NGC 3766 - Open Cluster - Centaurus - +5.3
C99 Coalsack Nebula - N/A - Dark Nebula - Crux - N/A
C100 Lambda Centauri - IC 2944 - Open Cluster and Nebula - Centaurus - +4.5
C102 Theta Car Cluster - IC 2602 - Open Cluster - Carina - +1.9
en.wikipedia.org/wiki/Caldwell_catalogue
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[ Location - Kingston, Australian Capital Territory, Australia ]
Photography notes ...
The photograph was taken using the following hardware configuration ...
(Year of manufacture indicated in braces where known.)
- Hasselblad 500C/M body (1994).
- Hasselblad CFV-50c Digital Back for Hasselblad V mount camera.
- Hasselblad Focusing Screen for the CFV-50c digital back, with focussing prism and crop markings.
- Hasselblad 45 Degree Viewfinder PME-45 42297 (2001).
- Hasselblad Carl Zeiss lens - Distagon 50mm f/4 CF T* (1985).
- FotodioX B60 Lens Hood for Select Hasselblad Wide-Angle CF Lenses
I acquired the photograph (8272 x 6200 pixels) with an ISO of 3200, exposure time of 16 seconds, and aperture of f/4.0
Post-processing ...
Finder - Removed the CF card from the camera digital back and placed it in a Lexar 25-in-1 USB card reader. Then used Finder on my MacBook Air to download the raw image file (3FR extension) from the card.
Lightroom - Imported the 3FR image.
Lightroom - Used the Map module to add the location details to the EXIF header.
Lightroom - Applied various lighting and color adjustments in the Develop module.
Lightroom - Saved the basic Develop module settings as preset 20161105-004.
Lightroom - Output the image as a JPEG image using the "Maximum" quality option (8272 x 6200 pixels).
PhotoSync - Copied the JPEG file to my iPad Mini for any final processing, review, enjoyment, and posting to social media.
@MomentsForZen #MomentsForZen #MFZ #Hasselblad #500CM #CFV50c #Lightroom #Sky #Night #Dark #Stars #MilkyWay #SouthernCross #Crux #JewelBox #CoalsackNebula #Vela #Carina #Centaurus
Heart Well-balanced Diet Recommendation
Mass management together with the routine physical exercise are important for maintaining your cardiovascular system in figure-- yet the meals you eat might matter equally as much. A heart-healthy diet regimen can minimize your hazard of center ailment or perhaps move by 80 %. By being aware of which foods items and also methods of cooking are healthiest for your soul, you could be actually equipped to deal with or avoid cardiovascular disease together with the higher blood tension, and also get greater management over the top quality and span of your life.
In this particular Guide:.
You can easily avoid center condition.
Reduce saturated and also trans fats.
Select foods that reduced cholesterol.
Prevent salt and procedured meals.
Rekindle house food preparation.
Pay attention to high-fiber foods items.
Management portion measurements-- together with the your mass.
Print this! Typical Content SizeLarger Content SizeLargest Content Measurements.
You can go through measures to stop cardiovascular disease.
Cardiovascular disease may be actually the leading great of females and also guys, yet that does not imply you can not guard your own self. In addition to work out, bewaring pertaining to which you consume-- as well as exactly what you do not consume-- can aid you lesser blood cholesterol, management blood stress together with the blood glucose degrees, and keep a healthy and balanced mass. If you have actually already been recognized with heart problem or have high cholesterol levels or perhaps blood stress, a heart-smart nutrition can easily assist you better handle these conditions, decreasing your danger for cardiac arrest.
Improving your eating plan is a critical step to stopping heart ailment, yet you may sense uncertain where to start. Check out at the huge picture: your overall eating designs are actually more vital than obsessing over individual foods items. No single food items can make you magically well-balanced, and so your objective can easily be to include a wide array of healthy and balanced foods prepared in well-balanced ways in to your diet, as well as make these patterns your fresh way of life.
Eat Even more.
Consume Less.
Well-balanced fatty tissues: raw nuts, tawny oil, fish oils, flax seeds, or even coconuts.
Trans fats through partially hydrogenated or perhaps deep-fried foods; filled fats from whole-fat milk or perhaps red food.
Nutrients: vibrant fruits and also veggies-- frosted or new, equipped without butter.
Packaged meals of any type of kind, particularly those high in sodium.
Fiber: grains, breads, and also noodles made because of entire grains or even legumes.
White or perhaps egg breads, granola-type cereals, improved pastas or even rice.
Omega 3 together with the protein: fish and also seafood, poultry.
Reddish meat, sausage, bratwurst, seared chick.
Calcium mineral together with the healthy protein: Egg dress uniforms, egg substitutes, shave or even 1 % milk, nonfat or low-fat cheeses or even yogurt.
Egg yolk sacs, whole or perhaps 2 percentage milk, entire milk products like cheese or natural yogurt.
Center healthy and balanced eating plan recommendations: Decrease out filled together with the trans fatty tissues.
Both forms of fat raise your LDL, or "bad" cholesterol level, which could enhance your threat for heart spell as well as stroke. Keep these reasons in mind since you create and cook food items options-- and also know how to prevent all of them.
Minimize the volume of strong fatty tissues like butter, marg., or perhaps minimizing you extra to food when food preparation or perhaps providing. You may likewise restrict sturdy fatty tissue by trimming down fatty tissue off your food or even opting for leaner proteins.
Substitute. Swap out high-fat meals for their lower-fat equivalents. Leading your baked yam, for example, along with condiment or low-fat yogurt as opposed to butter, or perhaps use low-sugar fruit spread on your salute as opposed to margarine. When cooking, make use of fluid oils like canola, safflower, sunflower, or perhaps olive, as well as alternative two egg cell whites for one entire egg in a dish.
Examine food tags on any sort of ready foods items. Several treats, even those identified "lowered fatty tissue," could be created along with oils including trans fats.
The greatest means to prevent saturated or even trans fats is actually to alter your way of life practices. Instead of chips, snack on fruit or veggies.
Not all fats are bad for your soul.
While filled and also trans fatty tissues are obstructions to a well-balanced heart, unsaturated fats are actually crucial permanently health. You simply get to know the difference. "Great" fats consist of:.
Omega 3 Fatty Acids. Oily fish like , trout, or even herring together with the flaxseed, canola oil, and also walnuts all consist of polyunsaturated fatty tissues that are crucial for the physique.
Omega 6 Fatty Acids. Vegetable oils, soy nuts, and many kinds of seeds all contain healthy fats.
Monounsaturated fatty tissues. Almonds, cashews, peanuts, butters, as well as pecans made because of these nuts, in addition to avocadoes, are all wonderful origins of "really good" fatty tissue.
Core healthy and balanced nutrition tips: Choose foods items that lower cholesterol.
Unhealthy cholesterol levels boost your hazard for heart problem, and so keeping yours reduced is actually crucial to a healthier heart. Your eating plan is actually main to controlling your cholesterol. Some meals can in fact lower your blood cholesterol, while others only produce concerns worse.
Avoid saturated or perhaps trans fatty tissues. Foods consisting of higher levels of saturated trans or perhaps fatty tissues fats-- such as yam chips as well as packaged cookies-- may increase your cholesterol degrees even more substantially than cholesterol- including foods items such since egg cells. Saturated fatty tissue and also trans fat each increase LDL ("bad") cholesterol levels. Trans lush reduces your degrees of HDL ("really good") blood cholesterol, which may put you at improved cardio danger.
Opt for foods rich in unsaturated fats, nutrient, and healthy protein. The ideal foods for reducing cholesterol levels are oatmeal, fish, pines (and also additional nuts), olive oil, as well as meals reinforced with stanols or perhaps sterols-- materials found in plants that help prevent the absorption of cholesterol levels.
Bear in mind that tags may be outwiting. Browsing food items labels may often be complexed due to the fact that packaged foods with labels like "cholesterol levels free" or even "reasonable blood cholesterol" aren't essentially heart-healthy; they might also consist of blood cholesterol that is actually heart-risky. Stick to rudiments whenever feasible: fruit, veggies, nuts, and also slim proteins.
Reducing your cholesterol levels with fish or fish oil supplements.
By incorporating fish like salmon or even herring to your diet plan two times a week, you could significantly reduce your cholesterol, and thereby your hazard for cardiovascular disease. Fish have omega-3 fatty acids, which work like superheroes, accomplishing kind deeds for your heart-- and your whole physical body.
Cardiovascular system well-balanced nutrition recommendations: Avoid sodium and also refined meals.
Consuming a bunch of sodium may bring about hypertension, which is a huge threat factor for heart attack. Reducing the salt in your meals is actually a huge aspect of a heart-healthy nutrition. The American Heart Affiliation recommends just concerning a tsp of sodium a time for a grownup. That might seem amazingly little, however there are really many easy-- also tasty-- ways to lower your salt consumption.
Reduce canned or perhaps refined foods. A lot of the sodium you eat stems from tinned or perhaps procedured meals like soups or perhaps held up suppers-- even chicken or various meats frequently have sodium extrad throughout processing. Eating new foods, trying to find saltless meats, and making your very own soups or perhaps soups could substantially lower your sodium consumption.
Cook in the home, utilizing seasonings for flavor. Preparing for yourself permits you to possess even more control over your salt consumption. Utilize the various delicious other solutions to sodium. Attempt new herbs like basil, thyme, or chives. In the dried out spices alley, you may discover substitutes such since allspice, bay turns, or even cumin to taste your dish without sodium.
Substitute lowered salt variations, or perhaps sodium substitutes. Choose your dressings and packaged foods items carefully, seeking meals identified salt complimentary, reasonable salt, or even saltless. Much better yet, utilize wholesome ingredients and also cook without salt.
The DASH diet plan for reducing blood pressure.
The Dietary Approaches to Cease High blood pressure, or perhaps DASH eating plan, is a particularly made eating strategy to help you decrease your blood tension, which is a main root cause of hypertension and also movement. To find out more, download the pamphlet from the National Cardiovascular system, Bronchi, as well as Blood Principle located in the Funds as well as References portion listed here.
Cardiovascular system well-balanced diet ideas: Rekindle house food preparation.
It is actually extremely difficult to eat right for your heart when you're dining in a restaurant a ton, buying in, or eating microwave suppers as well as additional processed foods items. Fortunately is actually that you may find out to create easy, core meals in your home. It is actually simpler together with the much less lengthy than you might think.
Heart-healthy grocery store buying and equipping.
Making a heart-friendly diet begins along with equipping your refrigerator with available and well-balanced foods items. Ready a list before you visit the shop or even farmer's market, and also keep a little bit of time after your travel to set on your own up for effectiveness throughout the full week.
Examine labels.
While scanning the church aisles of a supermarket in the UNITED STATE, search for foods featuring the United states Heart Association's heart-check scar to locate heart-healthy meals. This logo design means that the meals has been actually licensed to measure up to the United states Heart Association's requirements for saturated fatty tissue and also cholesterol. In Australia, try to find the Soul Groundwork Tick.
American Soul Association.
American citizen Soul Affiliation.
Australian Soul Groundwork.
Australian Soul Base.
Make healthy and balanced replacements. Choose alternatives like 1 % or even scooped milk instead of entire milk, soft marg. for butter, and lean foods like chick and fish instead of ribs or perhaps area meat. These alternatives may conserve you a whole time's worth of saturated fatty tissue.
Make foods items ready-to-eat. When you heal meals simple to grab throughout your bustling week, you're more likely to stay heart-healthy. When you come home from grocery purchasing, vilified vegetables as well as fruits and save them in the fridge, all set for the next meal or when you are trying to find a ready-to-eat treat.
Make well-balanced eating much simpler by cold heart-healthy meals in various portions. Freeze fruits such as bananas, grapes, as well as orange pieces to make all of them more exciting to consume for kids.
Heart-healthy cooking pointers.
Well-balanced Recipes May Save Money.
You possess better command over the dietary information and also the total healthfulness of the meals you eat when you ready and prepare meals at home. An extrad perk: you may likewise conserve money.
Develop a library of heart-healthy recipes. Squirrel away on heart-healthy recipe books and recipes for food preparation ideas. The web teems with meals weblogs together with the websites alloted to healthy cooking strategies as well as dishes, and also a public library may be an excellent resource for recipe books also.
Usage heart-healthy food preparation approaches. Equally important as picking healthy and balanced foods items at the grocery outlet is exactly how you cook those meals in to healthy and balanced meals. Make use of low-fat methods: you can cook, broil, microwave, roast, steam, poach, lightly stir fry, or perhaps sauté-- making use of a small volume of veggie or even olive oil, decreased salt broth, as well as spices.
Cook simply twice a full week as well as make food for the entire week. Cooking healthy food items ahead of time this technique is actually perhaps the most time-saving, money-saving, together with the heart-saving strategy obtainable.
Core healthy diet regimen suggestions: Pay attention to high-fiber foods items.
An eating plan high in nutrient may reduce "bad" cholesterol levels and also offer nutrients that can easily assist secure against soul illness. Simply by replacing up on entire grains, veggies, and fruits, you can easily get many of the nutrient you'll require, which means you'll likewise be actually decreasing your threat of soul ailment.
Choose whole grains.
Refined or even procedured meals are lower in fiber subject matter, so create entire grains an integral component of your diet. There are actually numerous straightforward methods to incorporate entire grains to your foods.
Breakfast a lot better. For morning meal decide on a high-fiber morning meal grain-- one using five or perhaps additional grams of nutrient every offering. Or perhaps incorporate a handful of tbsps of raw wheat or grain bran to your preferred grain.
Attempt a brand-new grain. Try out brownish rice, untamed rice, barley, whole-wheat pasta, together with the bulgur. These options are actually greater in fiber than their more mainstream counterparts-- as well as you may locate you love their inclinations.
In yeast breadstuffs, make use of a little bit much more yeast or even allow the dough surge longer. Try extraing crushed wheat bran cereal or perhaps unprocessed wheat or grain bran to buns, cakes, and desserts.
Add flaxseed. Flaxseeds are actually small dark seeds that are higher in nutrient together with the omega-3 oily acids, which can easily reduce your absolute blood cholesterol levels. You can grind the seeds in a coffee grinder or even mixer as well as stir a tsp of them into natural yogurt, applesauce, or perhaps trendy grain.
Consume an assortment of vegetables together with the fruits.
Most vegetables and fruits are actually reasonable in fats as well as high in fiber, making all of them heart healthy. You can easily utilize some of the adhering to strategies to produce eating fruits and also veggies component of your eating plan everyday.
Keep fruit and vegetables at your fingertips. Cleaning together with the reduced fruit together with the veggies as well as place all of them in your fridge for speedy as well as well-balanced treats. Decide on recipes that showcase these high-fiber active ingredients, like veggie stir-fries or fruit tossed salad.
Combine veggies in to your food preparation. Incorporate pre-cut smart or perhaps frozen vegetables to soups together with the dressings. Mix sliced frozen broccoli into equipped spaghetti sauce or toss fresh little one carrots in to stews.
Do not turn out the legumes. Legumes are actually fiber-rich, as well. Consume even more grains, lentils, and also peas. Add kidney beans to canned soup or perhaps a greenish salad.
Make snacks count. New as well as dried out fruit, raw vegetables, together with the whole-grain crackers are all great ways to incorporate nutrient at snack precious time. An irregular handful of nuts is actually also a healthy, high-fiber snack.
Center healthy diet plan ideas: Command part measurements-- and also your mass.
Acquiring or holding excess fat suggests that your cardiovascular system should function harder, and this frequently leads to higher blood pressure-- a main reason of heart ailment. Accomplishing a well-balanced body weight is fundamental to lowering your threat of center illness.
A providing size is a particular amount of food, specified by popular dimensions such since pieces, cups, or even ozs-- together with the a healthy serving dimension could be a lot more compact than you are actually utilized to. Judging providing measurements is an understood capability, and so you could need to make use of gauging cups, spoons, and also a food items size to assist.
Eyeball this. As soon as you get a far better plan of what a serving must be, you can determine your portion. You can make use of popular objects for recommendation; for instance, a serving of pasta must be actually about the measurements of a baseball (slightly smaller sized than a cricket ball), while an offering of poultry, meat, or perhaps fish is concerning the measurements and also density of a deck of playing cards.
Beware of bistro portions. Parts served in dining establishments are frequently beyond any person necessities. Crack an entrée along with your eating partner, or even take half your food house for tomorrow's lunch time.
No single food may create you amazingly well-balanced, therefore your aim could be actually to combine a selection of healthy foods prepared in healthy and balanced methods in to your diet regimen, and create these practices your fresh lifestyle.
The ideal foods items for reducing cholesterol levels are oatmeal, fish, walnuts (as well as people nuts), olive oil, and foods items reinforced using stanols or sterols-- materials discovered in flowers that assist shut out the absorption of blood cholesterol.
Navigating food items marks can easily typically be actually complexed due to the fact that packaged meals along with tags like "blood cholesterol free of cost" or perhaps "low blood cholesterol" may not be essentially heart-healthy; they could also include cholesterol levels that is actually heart-risky. While checking the lanes of a grocery shop in the UNITED STATE, appearance for foods items featuring the American citizen Heart Affiliation's heart-check spot to detect heart-healthy meals. Just as necessary as selecting healthy foods items at the grocery shop is actually exactly how you prepare those foods items into healthy dishes.
(more details later, as time permits)
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Months from now, if people stumble onto this set of Flickr photos, they won't know or care when the photos were actually taken. After all, rain is a fairly universal phenomenon, and it can happen in any of the four seasons of the year.
Still, it's an odd experience to be writing these notes a week after the photographs were taken -- at an altitude of 35,000 feet, on a flight to Miami that lifted off from JFK airport just as the first snow flurries hit the runway at the beginning of what promises to be the first major snowfall of the 2009 season. Twelve inches of snow are expected by the time the storm stops, which makes this collection of water-soaked individuals seem like they got stuck in the wrong place and the wrong time.
But a week ago, the temperature was about ten degrees warmer -- and what could easily have been a foot or two of snow was instead just a couple of inches of cold rain. Rain, of course, brings out the umbrellas; and on a couple of earlier occasions this year (which you can see here and here on Flickr), I began to see that -- notwithstanding the typical stories about New York fashions -- people were not restricting themselves to black raincoats and black umbrellas. My winter coat (courtesy of North Face) is black, and just about every umbrella I've ever owned has been black; my suitcases are black, my backpacks and briefcases have always been black, and even my camera bag is black. Since it's promising to be a cold winter, I just bought a new pair of gloves and a new woolen cap ... in black.
But that's apparently not true for many other New Yorkers. While you'll see a few black outfits in the photos collected here, the range of vivid colors continues to surprise me. Somehow, it's something you would expect to see at the beginning of the spring season -- signifying the rejection of the dark gloom of clouds and rain, and celebrating the imminent arrival of flowers and blossoms, of emerald-colored trees and thick green grass and the chirping of birds. But this collection of photos was taken in mid-December, only a week before the official beginning of winter. You'd think that people would be carrying black umbrellas and somber raincoats that marked the season of death and darkness, but I guess that's just not the way things are here in New York City.
On the previous occasions when I've photographed umbrellas in the rain, I've deliberately used a "pocket camera," albeit a fairly sophisticated one such as the Canon G-10. I wanted something that would be compact enough that I could stick into my jacket pocket if the rain got heavy, and I didn't want to risk damaging the electronic components a really expensive, sophisticated camera by getting it wet. The results were usually fairly good, but I always wondered if I could do a better job with one of my high-end DSLR cameras...
... so that's what I used for this collection of photos: my Nikon D700 camera, with a big, heavy 70-300mm zoom lens. I attached a lens hood to the lens, to minimize the chances of raindrops falling directly onto the lens itself; and I stood beneath the awning and overhang of various storefronts and buildings along Broadway as the rain poured down steadily all around me. Next time, I might be even more adventurous, since I've got a professional waterproof bag-thingy that should keep the camera dry even if I'm standing out in the middle of a torrential downpour. But for now, this was a good start.
Because of the rain, most of the people I photographed paid no attention to me at all; they were too busy concentrating on where they were walking, where the puddles were deepest, and whose umbrellas were about to poke them in the face. On the rare occasions when they did see a crazy guy standing under an awning, pointing a camera in their general direction, they frowned or gave me a quizzical look, and just kept going...
So that's the way it was, on this rainy Sunday afternoon. At this point, I'm going to assume that winter has officially arrived, and that the precipitation during the next few months will take the form of snow, not rain. I don't know how well it will turn out, but one of my future projects will be a series of photos during a blizzard. Stay tuned ... and in the meantime, stay dry.
Old lady plait
Why hide gray hair with dye or minimize it with a short cut? I plan to grow my silver braid to my waist.
To quote myself: “Colorless hair does not mean a colorless life.” And, if I need more color in my life, I can always wear the color in my clothes and makeup.
Kimono, Carole Little (thrifted). Dress, Roundy Bay (thrifted). Boots, Madden Girl. Sunglasses, Marc Jacobs. Earrings, Super Silver. Tote, Nordstrom Rack.
Srirangapatna (also spelled Shrirangapattana; anglicized to Seringapatam during the British Raj) is a town in Mandya district of the Indian state of Karnataka. Located near the city of Mysore, it is of religious, cultural and historic importance.
The monuments on the island town of Srirangapatna has been nominated as a UNESCO World Heritage Site, and its application is pending on the tentative list of UNESCO
LOCATION
Although situated a mere 15 km from Mysore city, Srirangapatna lies in the neighbouring district of Mandya. The entire town is enclosed by the river Kaveri to form a river island, northern half of which is shown in the adjacent image. While the main river flows on the eastern side of the island, the Paschima Vaahini segment of the same river flows to its west. The town is easily accessible by train from Bangalore and Mysore and is also well-connected by road, lying as it does just off the Bangalore-Mysore highway. The highway passes through this town and special care was taken to minimize any impact on the monuments.
RELIGIOUS SIGNIFICANCE
The town takes its name from the celebrated Ranganathaswamy temple which dominates the town, making Srirangapatna one of the most important Vaishnavite centers of pilgrimage in South India. The temple was built by the Ganga dynasty rulers of the area in the 9th century; the structure was strengthened and improved upon architecturally some three centuries later. Thus, the temple is a medley of the Hoysala and Vijayanagar styles of temple architecture.
Tradition holds that all the islands formed in the Kaveri River are consecrated to Sri Ranganathaswamy, and large temples have been built in very ancient times dedicated to that deity on the three largest islands. These three towns, which constitute the main pilgrimage centers dedicated to Ranganathaswamy, are:
Adi Ranga - at Srirangapatna
Madhya Ranga - at Shivanasamudra
Antya Ranga - at Srirangam
The presence of the Kaveri River is in itself considered auspicious and sanctifying. The Paschima Vaahini section of the Kaveri at Srirangapatna is considered especially sacred; the pious come from far and wide to immerse the ashes of the departed and perform obsequies to their ancestors in these waters.
DEMOGRAPHICS
As of 2001 India census, Srirangapatna had a population of 23,448. Males constitute 51% of the population and females 49%. Srirangapatna has an average literacy rate of 68%, higher than the national average of 59.5%: male literacy is 74%, and female literacy is 63%. In Srirangapatna, 10% of the population is under 6 years of age.
GEOGRAPHY
Srirangapatna is located at 12.41°N 76.7°E. It has an average elevation of 679 metres (2227 feet). Srirangapatna Sangama is the confluence of the three holy streams creating the island. Located 27 km upstream from the town is the spectacular Shivanasamudra Falls, the second biggest waterfall in India and the 16th largest in the world.
HISTORY
Srirangapatna has since time immemorial been an urban center and place of pilgrimage. During the Vijayanagar empire, it became the seat of a major viceroyalty, from where several nearby vassal states of the empire, such as Mysore and Talakad, were overseen. When, perceiving the decline of the Vijayanagar empire, the rulers of Mysore ventured to assert independence, Srirangapatna was their first target. Raja Wodeyar vanquished Rangaraya, the then viceroy of Srirangapatna, in 1610 and celebrated the Navaratri festival in the town that year. It came to be accepted in time that two things demonstrated control and signified sovereignty over the Kingdom of Mysore by any claimant to the throne:
Successful holding of the 10-day-long Navaratri festival, dedicated to Chamundeshwari, patron goddess of Mysore;
Control of the fort of Srirangapatna, the fortification nearest to the capital city of Mysore.
Srirangapatna remained part of the Kingdom of Mysore from 1610 to after India's independence in 1947; as the fortress closest to the capital city of Mysore, it was the last bastion and defence of the kingdom in case of invasion.
HYDER AND TIPU
Srirangapatna became the de facto capital of Mysore under Hyder Ali and Tipu Sultan. When Tipu finally dispensed with the charade of deference to the legitimate Wodeyar Maharaja who was actually his captive, and proclaimed the "Khudadad State" under his own kingship, Srirangapatna became de jure the capital of this just and ably managed kingdom. In that heady period, the state ruled by Tipu extended its frontiers in every direction, encompassing a major portion of South India. Srirangapatna flourished as the cosmopolitan capital of this powerful state. Various Indo-Islamic monuments that dot the town, such as Tipu Sultan's palaces, the Darya Daulat and the Jumma Masjid (Friday congregational mosque), date from this period.
TREATY OF SERINGAPATAM 1792
The Treaty of Seringapatam (also called Srirangapatinam), signed 18 March 1792, ended the Third Anglo-Mysore War. Its signatories included Lord Cornwallis on behalf of the British East India Company, representatives of the Nizam of Hyderabad and the Mahratta Empire, and Tipu Sultan, the ruler of Mysore.
BATTLE OF SERINGAPATAM 1799
Srirangapatna was the scene of the last and decisive battle fought between Tipu Sultan and a combined force of 50,000 men provided equally by the Nizam of Hyderabad and the East India Company under the overall command of General George Harris. This battle was the last engagement of the Fourth Anglo-Mysore War. The Battle of Seringapatam, 1799, was truly momentous in its historic effects.
At the battle's climax, Tipu Sultan was killed within the fort of Seringapatam, betrayed by one of his own confidants; the spot where he ultimately fell is marked by a memorial. For the last time in history, Seringapatam had been the scene of political change in the Sultanate of Mysore. The joint forces of the victorious army proceeded to plunder Seringapatam and ransack Tipu's palace. Apart from the usual gold and cash, innumerable valuables and objets d'art, not excepting even the personal effects of Tipoo Sultan, his rich clothes and shoes, sword and firearms, were shipped to England.
While most of this is now to be found in the British Royal Collection and in the Victoria and Albert Museum, some articles have occasionally become available at auctions and have been retrieved for their native land. The sword of Tipu Sultan has been acquired by Vijay Mallya, a liquor baron from Karnataka, who purchased the same at a Sotheby's auction.
Much of the site of the Battle is still intact including the ramparts, the Water Gate, the place where the Tippu Sultan's body was found, the area where the British prisoners were held and the site of the destroyed palace.
Tipu's Tiger, an automaton now in the Victoria & Albert Museum, was captured at the battle.
PLACES OF INTEREST
The town is famous for a very ancient temple dedicated to Sri Ranganathaswamy, a form of Lord Vishnu. There is also Kalyani Siddhi Vinayaka Temple in front of the Sri Ranganathaswamy Temple. Other temples in Srirangapatna include the Lakshminarasimha Swamy Temple, Jyothi Mahaswara Temple, Bidhcotta Ganesha Temple, Panduranga Swamy Temple, the Sathyanarayana Swamy Temple, the Anjunaya Swamy Temple, the Ayyapa Temple, the Gangadhareswara Swamy Temple, and RaganathaNagara Ganesha Temple, Lakshmi Temple, Sri raghavendra swamy mutt on old post office road, surrounding Srirangapatna in fort 8 Ganesh & Anjunaya temples. The Karighatta (Black Hill) and its temple of Lord Srinivasa is situated a few kilometres from the town. The deity is that of Kari-giri-vasa (one who resides on the black hill). The renowned Nimishambha Temple is located about 2 km from the town. Srirangapatna also hosts the summer palace of Tipu Sultan and his mausoleum.
SRI RANGANATHASWAMY TEMPLE
The Ranganthaswamy Temple – usually referred to as "Sri Ranganathaswamy" – is dedicated to Ranganatha, a manifestation of Vishnu. It is one of the five important pilgrimage sites along the river Kaveri for devotees of Ranganatha. These five sacred sites are together known as Pancharanga Kshetrams in Southern India. Since Srirangapatna is the first temple starting from upstream, the deity is known as Adi Ranga (lit; "first Ranga"), and the town of Srirangapatna, which derives its name from the temple, is located on an island in the river Kaveri.
DARIA DAULAT BAGH
The Dariya Daulat Palace (Summer Palace) is set amidst beautiful gardens called Daria Daulat Bagh. Tippu Sultan built this palace in 1784. The palace is built in the Indo-Sarcenic style in mostly made of teakwood. The palace has a rectangular plan and is built on a raised platform.
Other attractions in Srirangapatna include the Jumma Masjid (a Mosque) and the Daria Daulat Gardens. The mosque has stone Arabic inscriptions which mention the 99 different titles given to the Prophet Mohammed, along with the Farsi inscriptions which mentions that the Jamia Masjid called Masjid-E-Ala was built in AD 1782 by Tipu Sultan.
TIPU SULTAN GUMBAZ
The Gumbaz is an impeccably detailed mausoleum and houses the remains of Tipu Sultan, his father Hyder Ali and his mother Fatima Begum among beautifully manicured gardens. Various tombs of other relatives surround the gumbaz, some with small signs offering guidance on which specific individuals are buried here. The outer gumbaz columns are made of amphibolite, a very dark rock that exudes a somber richness. Handcrafted door frames covered in a deep lacquer finish lead into an inner tomb illuminated only by natural light. All visitors are welcome inside, and even encouraged to enter by the friendly doormen.
WELLESLEY BRIDGE
Wellesley Bridge was erected by Dewan Purnaiya on the Kavery river in 1804. It was named after the then Governor General Marquis of Wellesley. The bridge is built of stone pillars and stone corbels and surrounded by stone girders. The bridge is very strong and has survived the heavy traffic of many years.
KARRIGHATTA VIEWPOINT
The Karighatta viewpoint gives good panorama of Mysore and Srirangapatna cities from a height of 3,000 feet. Karighatta is a hill situated a few kilometres outside the 'island' town of Srirangapatna. The name Karighatta translates to "Black Hill" in Kannada. The hill supports dry scrub jungle and many tamarind and gooseberry trees are found around the temple. A small river, Lokapavani, a tributary of Kaveri flows by the hill. The main entrance to the temple, with huge wooden doors opens into a large quadrangle, which is the main shrine for Vaikunta Srinivasa in black stone, flanked by Yoga Srinivasa (without his consort) and Bhoga Srinivasa idols. The hill may be climbed by stone steps (450 in number). A winding paved road is used for vehicular transport. The stone steps lead to a flat hilltop where the temple stands. The hillock has a superb panoramic view of Srirangapatna and Mysore. The beautiful landscape around the hill and the confluence of the Kaveri and Lokapavani rivers can be seen from atop the hill.
NIMISHAMBA TEMPLE
The famous Nimishamba (the incarnation of Parvathi, the goddess wife of Lord Shiva) temple is on the bank of the Lokapavani river. This temple too can be clearly seen from the top of the Karighatta hill. It is a belief that Parvathi will clear all the problems and troubles of her devotees within a minute (nimisha in Sanskrit), and hence the name.
GARRISON CEMETERY SRIRANGAPATNA
The Garrison Cemetery is located in Srirangapatna, on the banks of the river Cauvery, about 300m from the Bangalore Mysore Highway. It has about 307 graves of the European officers killed in the final assault on Tippu Sultan in 1799, and their family members. Among the graves, there are 80 graves of the officers of the Swiss Regiment de Meuron, and the rest of the graves are their family members.
SCOTTT´S BUNGALOW SERINGAPATAM
The Scott’s Bungalow is located in Seringapatam on the banks of the river Cauvery, at about half a mile from the Mysore Gate of the Seringapatam gate. The bungalow was the residence of Col. Scott, an officer of the Madras Army who took part in the Siege of Seringapatam in 1799. The bungalow is associated with the legend and tradegy of Col. Scott. The story of Scott’s Bungalow is lamented in a poem by Walter Yeldham called The Deserted Bungalow, published in 1875
LORD HARRIS´S HOUSE
Between the Garrison Cemetery and Scott’s Bungalow a path leads to house on the river banks. This house is known as Lord Harris's House or The Doctor's Bungalow or Puraniah's Bungalow. This house was the residence of General Harris, for a short time after the Siege of Seringapatam in 1799, and went on to become headquarters of the commanding officer of Seringapatam. In 1809, the house was the scene of a mutiny by officers of the Madras Army, led by Col. Bell, against Sir. George Barlow, the Governor of Madras. Purnaiah, lived in this house after his retirement from service in 1811, and died there on 28 March 1812. A tablet on the wall records the connection of Lord Harris and Puraniah to the house.
SRIRANGAPATNA FORT
The fortress is situated in the west of the island, and is surrounded by double walls. The point at which the British broke through the walls, and thus Tipu Sultan's troops surprised, is marked by an obelisk. Also highlighted is the place where Tipu Sultan was killed by the British forces. In addition, the dungeon in which the Mysore rulers had imprisoned British soldiers.
BAILEY´S DUNGEON
This was the place where Tipu Sultan used to imprison all the British officers. It is located near the death place memorial of Tipu Sultan and is surrounded by gardens on all four sides. Lord Bailey was the only British officer who died in that place and could not make it through the tough conditions and so it was later named after him.
Another version says that the commanding officer of the British at the Battle of Pollilur (1780), Col. Baillie, was imprisoned here after the defeat of his troops in the First Mysore War.
RANGANATHITTU BIRD SANCTUARY
Near the town is the Ranganathittu Bird Sanctuary, which is the breeding site for several bird species, including the painted stork, open-billed stork, black-headed ibis, river tern, great stone plover and Indian shag.
WIKIPEDIA
A camel is an even-toed ungulate within the genus Camelus, bearing distinctive fatty deposits known as "humps" on its back. The two surviving species of camel are the dromedary, or one-humped camel (C. dromedarius), which inhabits the Middle East and the Horn of Africa; and the bactrian, or two-humped camel (C. bactrianus), which inhabits Central Asia. Both species have been domesticated; they provide milk, meat, hair for textiles or goods such as felted pouches, and are working animals with tasks ranging from human transport to bearing loads.
The term "camel" is derived via Latin and Greek (camelus and κάμηλος kamēlos respectively) from Hebrew or Phoenician gāmāl.
"Camel" is also used more broadly to describe any of the six camel-like mammals in the family Camelidae: the two true camels and the four New World camelids: the llama, alpaca, guanaco, and vicuña of South America.
BIOLOGY
The average life expectancy of a camel is 40 to 50 years. A full-grown adult camel stands 1.85 m at the shoulder and 2.15 m at the hump. Camels can run at up to 65 km/h in short bursts and sustain speeds of up to 40 km/h. Bactrian camels weigh 300 to 1,000 kg and dromedaries 300 to 600 kg.
The male dromedary camel has in its throat an organ called a dulla, a large, inflatable sac he extrudes from his mouth when in rut to assert dominance and attract females. It resembles a long, swollen, pink tongue hanging out of the side of its mouth. Camels mate by having both male and female sitting on the ground, with the male mounting from behind. The male usually ejaculates three or four times within a single mating session. Camelids are the only ungulates to mate in a sitting position.
ECOLOGICAL AND BEHAVIORAL ADAPTIONS
Camels do not directly store water in their humps as was once commonly believed. The humps are actually reservoirs of fatty tissue: concentrating body fat in their humps minimizes the insulating effect fat would have if distributed over the rest of their bodies, helping camels survive in hot climates. When this tissue is metabolized, it yields more than one gram of water for every gram of fat processed. This fat metabolization, while releasing energy, causes water to evaporate from the lungs during respiration (as oxygen is required for the metabolic process): overall, there is a net decrease in water.
Camels have a series of physiological adaptations that allow them to withstand long periods of time without any external source of water. Unlike other mammals, their red blood cells are oval rather than circular in shape. This facilitates the flow of red blood cells during dehydration and makes them better at withstanding high osmotic variation without rupturing when drinking large amounts of water: a 600 kg camel can drink 200 L of water in three minutes.
Camels are able to withstand changes in body temperature and water consumption that would kill most other animals. Their temperature ranges from 34 °C at dawn and steadily increases to 40 °C by sunset, before they cool off at night again. Maintaining the brain temperature within certain limits is critical for animals; to assist this, camels have a rete mirabile, a complex of arteries and veins lying very close to each other which utilizes countercurrent blood flow to cool blood flowing to the brain. Camels rarely sweat, even when ambient temperatures reach 49 °C Any sweat that does occur evaporates at the skin level rather than at the surface of their coat; the heat of vaporization therefore comes from body heat rather than ambient heat. Camels can withstand losing 25% of their body weight to sweating, whereas most other mammals can withstand only about 12–14% dehydration before cardiac failure results from circulatory disturbance.
When the camel exhales, water vapor becomes trapped in their nostrils and is reabsorbed into the body as a means to conserve water. Camels eating green herbage can ingest sufficient moisture in milder conditions to maintain their bodies' hydrated state without the need for drinking.
The camels' thick coats insulate them from the intense heat radiated from desert sand; a shorn camel must sweat 50% more to avoid overheating. During the summer the coat becomes lighter in color, reflecting light as well as helping avoid sunburn. The camel's long legs help by keeping its body farther from the ground, which can heat up to 70 °C. Dromedaries have a pad of thick tissue over the sternum called the pedestal. When the animal lies down in a sternal recumbent position, the pedestal raises the body from the hot surface and allows cooling air to pass under the body.
Camels' mouths have a thick leathery lining, allowing them to chew thorny desert plants. Long eyelashes and ear hairs, together with nostrils that can close, form a barrier against sand. If sand gets lodged in their eyes, they can dislodge it using their transparent third eyelid. The camels' gait and widened feet help them move without sinking into the sand.
The kidneys and intestines of a camel are very efficient at reabsorbing water. Camel urine comes out as a thick syrup, and camel feces are so dry that they do not require drying when the Bedouins use them to fuel fires.
Camels' immune system differs from those of other mammals. Normally, the Y-shaped antibody molecules consist of two heavy (or long) chains along the length of the Y, and two light (or short) chains at each tip of the Y. Camels, in addition to these, also have antibodies made of only two heavy chains, a trait that makes them smaller and more durable. These "heavy-chain-only" antibodies, discovered in 1993, are thought to have developed 50 million years ago, after camelids split from ruminants and pigs.
GENETICS
The karyotypes of different camelid species have been studied earlier by many groups, but no agreement on chromosome nomenclature of camelids has been reached. A 2007 study flow sorted camel chromosomes, building on the fact that camels have 37 pairs of chromosomes (2n=74), and found that the karyotime consisted of one metacentric, three submetacentric, and 32 acrocentric autosomes. The Y is a small metacentric chromosome, while the X is a large metacentric chromosome.The hybrid camel, a hybrid between Bactrian and dromedary camels, has one hump, though it has an indentation 4–12 cm deep that divides the front from the back. The hybrid is 2.15 m at the shoulder and 2.32 m tall at the hump. It weighs an average of 650 kg and can carry around 400 to 450 kg, which is more than either the dromedary or Bactrian can. According to molecular data, the New World and Old World camelids diverged 11 million years ago. In spite of this, these species can still hybridize and produce fertile offspring. The cama is a camel–llama hybrid bred by scientists who wanted to see how closely related the parent species were. Scientists collected semen from a camel via an artificial vagina and inseminated a llama after stimulating ovulation with gonadotrophin injections. The cama has ears halfway between the length of camel and llama ears, no hump, longer legs than the llama, and partially cloven hooves. According to cama breeder Lulu Skidmore, cama have "the fleece of the llamas" and "the strength and patience of the camel". Like the mule, camas are sterile, despite both parents having the same number of chromosomes.
EVOLUTION
The earliest known camel, called Protylopus, lived in North America 40 to 50 million years ago (during the Eocene). It was about the size of a rabbit and lived in the open woodlands of what is now South Dakota. By 35 million years ago, the Poebrotherium was the size of a goat and had many more traits similar to camels and llamas. The hoofed Stenomylus, which walked on the tips of its toes, also existed around this time, and the long-necked Aepycamelus evolved in the Miocene.
The direct ancestor of all modern camels, Procamelus, existed in the upper Miocone and lower Pliocene. Around 3–5 million years ago, the North American Camelidae spread to South America via the Isthmus of Panama, where they gave rise to guanacos and related animals, and to Asia via the Bering land bridge. Surprising finds of fossil Paracamelus on Ellesmere Island beginning in 2006 in the high Canadian Arctic indicate the dromedary is descended from a larger, boreal browser whose hump may have evolved as an adaptation in a cold climate. This creature is estimated to have stood around nine feet tall.
The last camel native to North America was Camelops hesternus, which vanished along with horses, short-faced bears, mammoths and mastodons, ground sloths, sabertooth cats, and many other megafauna, coinciding with the migration of humans from Asia.
DOMESTICATION
Most camels surviving today are domesticated. Along with many other megafauna in North America, the original wild camels were wiped out during the spread of Native Americans from Asia into North America, 12,000 to 10,000 years ago. The only wild camels left are the Bactrian camels of the Gobi Desert.
Like the horse, before their extinction in their native land, camels spread across the Bering land bridge, moving the opposite direction from the Asian immigration to America, to survive in the Old World and eventually be domesticated and spread globally by humans.
Dromedaries may have first been domesticated by humans in Somalia and southern Arabia, around 3,000 BC, the Bactrian in central Asia around 2,500 BC, as at Shar-i Sokhta (also known as the Burnt City), Iran.
Discussions concerning camel domestication in Mesopotamia are often related to mentions of camels in the Hebrew Bible. The International Standard Bible Encyclopedia: E-J for instance mentions that "In accord with patriarchal traditions, cylinder seals from Middle Bronze Age Mesopotamia showed riders seated upon camels."
Martin Heide's 2010 work on the domestication of the camel tentatively concludes that the bactrian camel was domesticated by at least the middle of the third millennium somewhere east of the Zagros Mountains, then moving into Mesopotamia, and suggests that mentions of camels "in the patriarchal narratives may refer, at least in some places, to the Bactrian camel." while noting that the camel is not mentioned in relationship to Canaan.
Recent excavations in the Timna Valley by Lidar Sapir-Hen and Erez Ben-Yosef discovered what may be the earliest domestic camel bones found in Israel or even outside the Arabian peninsula, dating to around 930 BCE. This garnered considerable media coverage as it was described as evidence that the stories of Abraham, Joseph, Jacob and Esau were written after this time.
The existence of camels in Mesopotamia but not in Israel is not a new idea. According to an article in Time Magazine, the historian Richard Bulliet wrote in his 1975 book "The Camel and the Wheel" that "the occasional mention of camels in patriarchal narratives does not mean that the domestic camels were common in the Holy Land at that period." The archaeologist William F. Albright writing even earlier saw camels in the Bible as an anachronism. The official report by Sapir-Hen and Ben-Joseph notes that "The introduction of the dromedary camel (Camelus dromedarius) as a pack animal to the southern Levant signifies a crucial juncture in the history of the region; it substantially facilitated trade across the vast deserts of Arabia, promoting both economic and social change (e.g., Kohler 1984; Borowski 1998: 112-116; Jasmin 2005). This, together with the depiction of camels in the Patriarchal narrative, has generated extensive discussion regarding the date of the earliest domestic camel in the southern Levant (and beyond) (e.g., Albright 1949: 207; Epstein 1971: 558-584; Bulliet 1975; Zarins 1989; Köhler-Rollefson 1993; Uerpmann and Uerpmann 2002; Jasmin 2005; 2006; Heide 2010; Rosen and Saidel 2010; Grigson 2012). Most scholars today agree that the dromedary was exploited as a pack animal sometime in the early Iron Age (not before the 12th century BCE)" and concludes that "Current data from copper smelting sites of the Aravah Valley enable us to pinpoint the introduction of domestic camels to the southern Levant more precisely based on stratigraphic contexts associated with an extensive suite of radiocarbon dates. The data indicate that this event occurred not earlier than the last third of the 10th century BCE and most probably during this time. The coincidence of this event with a major reorganization of the copper industry of the region - attributed to the results of the campaign of Pharaoh Shoshenq I - raises the possibility that the two were connected, and that camels were introduced as part of the efforts to improve efficiency by facilitating trade."
MILITARY USES
By at least 1200 BC, the first camel saddles had appeared, and Bactrian camels could be ridden. The first saddle was positioned to the back of the camel, and control of the Bactrian camel was exercised by means of a stick. However, between 500–100 BC, Bactrian camels attained military use. New saddles, which were inflexible and bent, were put over the humps and divided the rider's weight over the animal. In the seventh century BC, the military Arabian saddle appeared, which improved the saddle design again slightly.
Camel cavalries have been used in wars throughout Africa, the Middle East, and into modern-day Border Security Force of India (though as of July 2012, the BSF has planned the replacement of camels with ATVs). The first use of camel cavalries was in the Battle of Qarqar in 853 BC. Armies have also used camels as freight animals instead of horses and mules.
In the East Roman Empire, the Romans used auxiliary forces known as dromedarii, whom they recruited in desert provinces. The camels were used mostly in combat because of their ability to scare off horses at close ranges (horses are afraid of the camels' scent), a quality famously employed by the Achaemenid Persians when fighting Lydia in the Battle of Thymbra.
19th and 20th CENTURIES
The United States Army established the U.S. Camel Corps, which was stationed in California in the late 19th century. One may still see stables at the Benicia Arsenal in Benicia, California, where they nowadays serve as the Benicia Historical Museum. Though the experimental use of camels was seen as a success (John B. Floyd, Secretary of War in 1858, recommended that funds be allocated towards obtaining a thousand more camels), the outbreak of the American Civil War saw the end of the Camel Corps: Texas became part of the Confederacy, and most of the camels were left to wander away into the desert.
France created a méhariste camel corps in 1912 as part of the Armée d'Afrique in the Sahara in order to exercise greater control over the camel-riding Tuareg and Arab insurgents, as previous efforts to defeat them on foot had failed. The camel-mounted units remained in service until the end of French rule over Algeria in 1962.
In 1916, the British created the Imperial Camel Corps. It was originally used to fight the Senussi, but was later used in the Sinai and Palestine Campaign in World War I. The Imperial Camel Corps comprised infantrymen mounted on camels for movement across desert, though they dismounted at battle sites and fought on foot. After July 1918, the Corps began to become run down, receiving no new reinforcements, and was formally disbanded in 1919.
In World War I, the British Army also created the Egyptian Camel Transport Corps, which consisted of a group of Egyptian camel drivers and their camels. The Corps supported British war operations in Sinai, Palestine, and Syria by transporting supplies to the troops.
The Somaliland Camel Corps was created by colonial authorities in British Somaliland in 1912; it was disbanded in 1944.
Bactrian camels were used by Romanian forces during World War II in the Caucasian region.
The Bikaner Camel Corps of British India fought alongside the British Indian Army in World Wars I and II.
The Tropas Nómadas (Nomad Troops) were an auxiliary regiment of Sahrawi tribesmen serving in the colonial army in Spanish Sahara (today Western Sahara). Operational from the 1930s until the end of the Spanish presence in the territory in 1975, the Tropas Nómadas were equipped with small arms and led by Spanish officers. The unit guarded outposts and sometimes conducted patrols on camelback.
FOOD USES
DAIRY
Camel milk is a staple food of desert nomad tribes and is sometimes considered a meal in and of itself; a nomad can live on only camel milk for almost a month. Camel milk is rich in vitamins, minerals, proteins, and immunoglobulins; compared to cow's milk, it is lower in fat and lactose, and higher in potassium, iron, and vitamin C. Bedouins believe the curative powers of camel milk are enhanced if the camel's diet consists of certain desert plants. Camel milk can readily be made into a drinkable yogurt, as well as butter or cheese, though the yields for cheese tend to be low.
Camel milk cannot be made into butter by the traditional churning method. It can be made if it is soured first, churned, and a clarifying agent is then added. Until recently, camel milk could not be made into camel cheese because rennet was unable to coagulate the milk proteins to allow the collection of curds. Developing less wasteful uses of the milk, the FAO commissioned Professor J.P. Ramet of the École Nationale Supérieure d'Agronomie et des Industries Alimentaires, who was able to produce curdling by the addition of calcium phosphate and vegetable rennet. The cheese produced from this process has low levels of cholesterol and is easy to digest, even for the lactose intolerant. The sale of camel cheese is limited owing to the small output of the few dairies producing camel cheese and the absence of camel cheese in local (West African) markets. Cheese imports from countries that traditionally breed camels are difficult to obtain due to restrictions on dairy imports from these regions.
Additionally, camel milk has been made into ice cream in a Netherlands camel farm.
MEAT
A camel carcass can provide a substantial amount of meat. The male dromedary carcass can weigh 300–400 kg, while the carcass of a male Bactrian can weigh up to 650 kg. The carcass of a female dromedary weighs less than the male, ranging between 250 and 350 kg. The brisket, ribs and loin are among the preferred parts, and the hump is considered a delicacy. The hump contains "white and sickly fat", which can be used to make the khli (preserved meat) of mutton, beef, or camel. Camel meat is reported to taste like coarse beef, but older camels can prove to be very tough, although camel meat becomes more tender the more it is cooked. The Abu Dhabi Officers' Club serves a camel burger mixed with beef or lamb fat in order to improve the texture and taste. In Karachi, Pakistan, some restaurants prepare nihari from camel meat. In Syria and Egypt, there are specialist camel butchers.
Camel meat has been eaten for centuries. It has been recorded by ancient Greek writers as an available dish at banquets in ancient Persia, usually roasted whole. The ancient Roman emperor Heliogabalus enjoyed camel's heel.[31] Camel meat is still eaten in certain regions, including Eritrea, Somalia, Djibouti, Saudi Arabia, Egypt, Syria, Libya, Sudan, Ethiopia, Kazakhstan, and other arid regions where alternative forms of protein may be limited or where camel meat has had a long cultural history. Camel blood is also consumable, as is the case among pastoralists in northern Kenya, where camel blood is drunk with milk and acts as a key source of iron, vitamin D, salts and minerals. Camel meat is also occasionally found in Australian cuisine: for example, a camel lasagna is available in Alice Springs.
A 2005 report issued jointly by the Saudi Ministry of Health and the United States Centers for Disease Control and Prevention details cases of human bubonic plague resulting from the ingestion of raw camel liver.
RELIGION
ISLAM
Camel meat is halal for Muslims. However, according to some Islamic schools of thought, a state of impurity is brought on by the consumption of it. Consequently, these schools hold that Muslims must perform wudhu (ablution) before the next time they pray after eating camel meat.
Also, some Islamic schools of thought consider it haraam for a Muslim to perform salat in places where camels lie, as it is said to be a dwelling place of shaytan.
According to Suni ahadith collected by Bukhari and Muslim, Muhammad ordered a certain group of people to drink camel milk and urine as a medicine. However, according to Abū Ḥanīfa, the drinking of camel urine, while not forbidden (ḥaram), is disliked (makrūh) in Islam.
Camel urine is sold as traditional medicine in shops in Saudi Arabia. The Sunni scholar Muhammad Al-Munajjid's IslamQA.info recommends camel urine as beneficial to curing certain diseases and to human health and cited Ahadith and scientific studies as justification. King Abdulaziz University researcher Dr. Faten Abdel-Rajman Khorshid has claimed that cancer and other diseases could be treated with camel urine as recommended by the Prophet. The United Arab Emirates "Arab Science and Technology Foundation" reported that cancer could be treated with camel urine. Camel urine was also prescribed as a treatment by Zaghloul El-Naggar, a religious scholar. Camel urine is the only urine which is permitted to be drunk according to the Hanbali madhhab of Sunni Islam. The World Health Organization said that camel urine consumption may be a factor in the spread of the MERS virus in Saudi Arabia. The Gulf Times writer Ahmad al-Sayyed wrote that various afflictions are dealt with camel urine by people. Dandruff, scalp ailments, hair, sores, and wounds were recommended to be treated with camel urine by Ibn Sina. Arab American University Professor of Cell Biology and Immunology Bashar Saad (PhD) along with Omar Said (PhD) wrote that medicinal use of camel urine is approved of and promoted by Islam since it was recommended by the prophet. A test on mice found that cytotoxic effects similar to cyclophosphamide were induced on bone marrow by camel urine. Besides for consumption as a medicinal drink, camel urine is believed to help treat hair. Bites from insects were warded off with camel urine, which also served as a shampoo. Camel urine is also used to help treat asthma, infections, treat hair, sores, hair growth and boost libido.
Several Sunni Ahadith mention drinking camel urine. Some Shia criticized Wahhabis for camel urine treatment. Shia scholars also recommend the medicinal use of camel urine. Shia Hadith on Imam Ja'far al-Sadiq reported that shortness of breath (asthma) was treated with camel urine. Shia Marja Ayatollah Sistani said that for medicinal purposes only, sheep, cow, and camel urine can be drunk.
JUDAISM
According to Jewish tradition, camel meat and milk are not kosher. Camels possess only one of the two kosher criteria; although they chew their cud, they do not possess cloven hooves:
Nevertheless these shall ye not eat of them that only chew the cud, or of them that only part the hoof: the camel, because he cheweth the cud but parteth not the hoof, he is unclean unto you.
— Leviticus 11:4
DISTRIBUTION ANDNUMBERS
There are around 14 million camels alive as of 2010, with 90% being dromedaries. Dromedaries alive today are domesticated animals (mostly living in the Horn of Africa, the Sahel, Maghreb, Middle East and South Asia). The Horn region alone has the largest concentration of camels in the world, where the dromedaries constitute an important part of local nomadic life. They provide nomadic people in Somalia (which has the largest camel herd in the world) and Ethiopia with milk, food, and transportation.
The Bactrian camel is, as of 2010, reduced to an estimated 1.4 million animals, most of which are domesticated. The only truly wild Bactrian camels, of which there are less than one thousand, are thought to inhabit the Gobi Desert in China and Mongolia.
The largest population of feral camels is in Australia. There are around 700,000 feral dromedary camels in central parts of Australia, descended from those introduced as a method of transport in the 19th and early 20th centuries. This population is growing about 8% per year. Representatives of the Australian government have culled more than 100,000 of the animals in part because the camels use too much of the limited resources needed by sheep farmers.
A small population of introduced camels, dromedaries and Bactrians, wandered through Southwest United States after having been imported in the 1800s as part of the U.S. Camel Corps experiment. When the project ended, they were used as draft animals in mines and escaped or were released. Twenty-five U.S. camels were bought and imported to Canada during the Cariboo Gold Rush.
WIKIPEDIA
A group of Marine Iguanas on Isabella
Marine Iguana
The Marine Iguana (Amblyrhynchus cristatus) is an iguana found only on the Galapagos Islands that has the ability, unique among modern lizards, to live and forage in the sea. It has spread to all the islands in the archipelago, and is sometimes called the Galapagos Marine Iguana. It mainly lives on the rocky Galapagos shore, but can also be spotted in marshes and mangrove beaches. On his visit to the islands, Charles Darwin was revolted by the animals' appearance, writing “The black Lava rocks on the beach are frequented by large (2-3 ft), disgusting clumsy Lizards. They are as black as the porous rocks over which they crawl & seek their prey from the Sea. I call them 'imps of darkness'. They assuredly well become the land they inhabit.” In fact, Amblyrhynchus cristatus is not always black; the young have a lighter coloured dorsal stripe, and some adult specimens are grey. The reason for the sombre tones is that the species must rapidly absorb heat to minimize the period of lethargy after emerging from the water. They feed almost exclusively on marine algae, expelling the excess salt from nasal glands while basking in the sun, and the coating of salt can make their faces appear white. In adult males, coloration varies with the season. Breeding-season adult males on the southern islands are the most colorful and will acquire reddish and teal-green colors, while on Santa Cruz they are brick red and black, and on Fernandina they are brick red and dull greenish. Another difference between the iguanas is size, which is different depending on the island the individual iguana inhabits. The iguanas living on the islands of Fernandina and Isabela (named for the famous rulers of Spain) are the largest found anywhere in the Galápagos. On the other end of the spectrum, the smallest iguanas are found on the island on Genovesa. Adult males are approximately 1.3 m long, females 0.6 m, males weigh up to 1.5 kg. On land, the marine iguana is rather a clumsy animal, but in the water it is a graceful swimmer, using its powerful tail to propel itself. As an exothermic animal, the marine iguana can spend only a limited time in the cold sea, where it dives for algae. However, by swimming only in the shallow waters around the island they are able to survive single dives of up to half an hour at depths of more than 15 m. After these dives, they return to their territory to bask in the sun and warm up again. When cold, the iguana is unable to move effectively, making them vulnerable to predation, so they become highly aggressive before heating up (since they are unable to run away they try to bite attackers in this state). During the breeding season, males become highly territorial. The males assemble large groups of females to mate with, and guard them against other male iguanas. However, at other times the species is only aggressive when cold. Marine iguanas have also been found to change their size to adapt to varying food conditions. During El Niño conditions when the algae that the iguanas feed on was scarce for a period of two years, some were found to decrease their length by as much as 20%. When food conditions returned to normal, the iguanas returned to their pre-famine size. It is speculated that the bones of the iguanas actually shorten as a shrinkage of connective tissue could only account for a 10% length change. Researchers theorize that land and marine iguanas evolved from a common ancestor since arriving on the islands from South America, presumably by driftwood. It is thought that the ancestral species inhabited a part of the volcanic archipelago that is now submerged. A second school of thought holds that the Marine iguana may have evolved from a now extinct family of seagoing reptiles. Its generic name, Amblyrhynchus, is a combination of two Greek words, Ambly- from Amblus meaning "blunt" and rhynchus meaning "snout". Its specific name is the Latin word cristatus meaning "crested," and refers to the low crest of spines along the animal's back. Amblyrhynchus is a monotypic genus in that Amblyrhynchus cristatus is the only species which belongs to it at this point in time. This species is completely protected under the laws of Ecuador. El Niño effects cause periodic declines in population, with high mortality, and the marine iguana is threatened by predation by exotic species. The total population size is unknown, but is, according to IUCN, at least 50,000, and estimates from the Charles Darwin Research Station are in the hundreds of thousands. The marine iguanas have not evolved to combat newer predators. Therefore, cats and dogs eat both the young iguanas and dogs will kill adults due to the iguanas' slow reflex times and tameness. Dogs are especially common around human settlements and can cause tremendous predation. Cats are also common in towns, but they also occur in numbers in remote areas where they take a toll on iguanas.
Isabella
Shaped like a sea horse, Isabela is the largest of the the islands in the Galapagos, more than 4 times larger than Santa Cruz the next largest. Isabela is 80 miles (100 km) in length and though it is remarkably beautiful it is not one of the most visited islands in the chain. Its visitor sites are far apart making them accessible only to faster boats or those with longer itineraries. One of the youngest islands, Isabela is located on the western edge of the archipelago near the Galapagos hot spot. At approximately 1 million years old, the island was formed by the merger of 6 shield volcanoes - Alcedo, Cerro Azul, Darwin, Ecuador, Sierra Negra and Wolf. Five of the six volcanoes are still active (the exception is Ecuador) making it one of the most volcanically active places on earth. Visitors cruising past Elizabeth Bay on the west coast can see evidence of this activity in the fumaroles rising from Volcan Chico on Sierra Negra. Two of Isabela's volcanoes lie directly on the equator - Ecuador and Volcan Wolf. Volcan Wolf is the youngest of Isabela's volcanoes and at 5,600ft (1707 m) the highest point in the Galapagos. Isabela is known for its geology, providing visitors with excellent examples of the geologic occurrences that have created the Galapagos Islands including uplifts at Urbina Bay and the Bolivar Channel, Tuft cones at Tagus Cove, and Pulmace on Alcedo. Isabela is also interesting for its flora and fauna. The young island does not follow the vegetation zones of the other islands. The relatively new lava fields and surrounding soils have not developed the sufficient nutrients required to support the varied life zones found on other islands. Another obvious difference occurs on Volcan Wolf and Cerro Azul, these volcanoes loft above the cloud cover and are arid on top. Isabela's rich animal, bird, and marine life is beyond compare. Isabela is home to more wild tortoises than all the other islands. Isabela's large size and notable topography created barriers for the slow moving tortoises; apparently the creatures were unable to cross lava flows and other obstacles, causing several different sub-species of tortoise to develop. Today tortoises roam free in the calderas of Alcedo, Wolf, Cerro Azul, Darwin and Sierra Negra. Alcedo Tortoises spend most of their life wallowing in the mud at the volcano crater. The mud offers moisture, insulation and protects their exposed flesh from mosquitoes, ticks and other insects. The giant tortoises have a mediocre heat control system requiring them to seek the coolness of the mud during the heat of the day and the extra insulation during the cool of the night. On the west coast of Isabela the nutrient rich Cromwell Current upwelling creating a feeding ground for fish, whales, dolphin and birds. These waters have long been known as the best place to see whales in the Galapagos. Some 16 species of whales have been identified in the area including humpbacks, sperms, sei, minkes and orcas. During the 19th century whalers hunted in these waters until the giant creatures were near extinction. The steep cliffs of Tagus Cove bare the names of many of the whaling ships and whalers which hunted in these waters. Birders will be delighted with the offerings of Isabela. Galapagos Penguins and flightless cormorants also feed from the Cromwell Current upwelling. These endemic birds nest along the coast of Isabela and neighboring Fernandina. The mangrove finch, Galapagos Hawk, brown pelican, pink flamingo and blue heron are among the birds who make their home on Isabela. A colorful part to any tour located on the western shore of Isabela, Punta Moreno is often the first or last stopping point on the island (depending on the direction the boat is heading). Punta Moreno is a place where the forces of the Galapagos have joined to create a work of art. The tour starts with a panga ride along the beautiful rocky shores where Galapagos penguins and shore birds are frequently seen. After a dry landing the path traverses through jagged black lava rock. As the swirling black lava flow gave way to form craters, crystal tide pools formed-some surrounded by mangroves. This is a magnet for small blue lagoons, pink flamingos, blue herons, and Bahama pintail ducks. Brown pelican can be seen nesting in the green leaves of the mangroves. You can walk to the edge of the lava to look straight down on these pools including the occasional green sea turtle, white-tipped shark and puffer fish. This idyllic setting has suffered from the presence of introduced species. Feral dogs in the area are known to attack sea Lions and marine iguanas.
Galapagos Islands
The Galápagos Islands (official name: Archipiélago de Colón; other Spanish names: Islas de Colón or Islas Galápagos) are an archipelago of volcanic islands distributed around the equator in the Pacific Ocean, some 900 km west of Ecuador. It is a UNESCO World Heritage site: wildlife is its most notable feature. Because of the only very recent arrival of man the majority of the wildlife has no fear of humans and will allow visitors to walk right up them, often having to step over Iguanas or Sea Lions.The Galápagos islands and its surrounding waters are part of a province, a national park, and a biological marine reserve. The principal language on the islands is Spanish. The islands have a population of around 40,000, which is a 40-fold expansion in 50 years. The islands are geologically young and famed for their vast number of endemic species, which were studied by Charles Darwin during the voyage of the Beagle. His observations and collections contributed to the inception of Darwin's theory of evolution by natural selection.
Watch This Video On YouTube Here: youtu.be/DqXlvXVFQiw
How To Get Harder Erections - Simple Steps To Get Harder Erections And Last Longer
Grab Your Free Copy of The 3 Deadliest Myths About Erectile Dysfunction Here: bit.ly/Impotence-3DeadlyMythsOfErectileDysfunctionEbook It's hardly a news flash that exercise is very important to your overall health, but what you may well not have known is that getting enough exercise is also an important step toward minimizing your ED symptoms. Needless to say, don't be prepared to hear might be found from the folks who are selling you ED pills every month. They'd just as soon see you not do anything to minimize your symptoms so you'll keep buying from them on a monthly basis, but it's true. By itself, exercise is nearly certain not to be sufficient to get rid of ED totally, but it can absolutely help minimize your symptoms. Why Exercise Improves Your ED? At the core, erection dysfunction is a circulatory condition. It's all about blood flow. Think about it: What is it that triggers your penis to become erect? Blood flowing to it. The better your circulation and a lot more blood that flows into your erectile tissue, the firmer and stronger your erections will be. This explains why some exercises are better than others at reducing ED symptoms. Specifically, what you want are cardiovascular exercises. Yes, you want to work up a sweat, but more than that, you want to do an exercise that really gets your heart pumping. People will tell you that the best way to start out is to start out modestly. To invest in, say, quarter-hour of exercise, three to five times a week when you're first starting out. Then, as time passes, increase your duration slowly, and the number of days per week you're exercising. That's generally pretty good advice, but we'd like to add yet another wrinkle compared to that. For starters, Keep the exercise to three days a full week, but yes, gradually build-up the amount of time you may spend exercising. In addition to that though, find a sport you love. It could be anything. Kayaking, soccer, fencing, hiking...just make sure it's something you love, and something you're interested in. If you wish to undertake it, and are passionate about any of it, you'll naturally be inclined to do more of it. This is the reason you don't have to boost your exercise to more than three times per week. You'll be supplementing that with your new sports activity. Consider this to be your "sweat equity." This is the equity you placed into living a longer, healthier life. In exchange for your sweat equity, you'll get a wholesome heart and lungs, better circulation, more energy, more stamina, if you have ED, you'll notice a marked decrease in your symptoms. Unless you have ED, a good workout program won't guarantee that you'll never experience difficulties, but if so when you do, they'll be much milder than they otherwise could have been. A couple of relatively few people beyond "gym rats" who like to exercise, so consider it as an investment. That is why we used the term "sweat equity." We want you to think of it in exactly the same conditions as financial investments you make in your future. If you can put yourself for the reason that mindset, in case you supplement your regular exercise with a sport you love, you'll be much more likely to stay with it, and consistency is key. Exercise, and its overall effectiveness is only as effective as your commitment to it. The sole kind of exercise that comes with a caveat is bicycling. There's no doubt that it is a great way to get (and stay) in form, but they have one small drawback. Studies have shown that spending a lot of time cycling can result in an increased likelihood of issues with your prostate gland. Additionally, it may, in at least some cases, cause numbness around the penis, which while not quite exactly like ED, can decrease the quality of your erections definitely. In addition to cardio-based exercises and a normal fitness regimen, don't overlook the value of stretching. You can certainly do something similar to Tai Yoga or Chi, for example. Both of these are excellent ways to stretch and tone the muscles, and make an outstanding addition to your overall fitness routine. The best thing about Yoga is that it is a wonderful, meditative technique, in addition to being a terrific way to stretch. Start and modestly simply, and slowly work the right path into more advanced postures. The end result is simple: Exercise is not only good for your overall health, it's also good for your sexual health. If you're genuinely interested in maintaining a dynamic sex life well past your forties, when men begin experiencing sexual difficulties typically, then you are going to want to make regular physical exercise an important part of your daily routine. Again, the most important thing here is to make certain you pick a sport you are genuinely interested in, because that makes it easy to stay with it. Subscribe to my channel here: youtube.com/c/BretmcopelandBlogspot
via Men's Health Channel
Safety Harness, Lanyards, Lifelines, Anchor Points & Fall Arrest Block
To help minimize the risks associated with working at height, Bishop provide an extensive range of safety equipment. Our range includes harnesses, lifelines, lanyards, anchor points and fall arrest blocks. As with all of our product ranges, quality is of paramount importance. As such we only supply from the best manufacturers of height safety equipment. With products from Yale, Ridgegear, Kratos and IKAR you can be sure you are in safe hands.
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This photo was taken near a natural water reservoir near the river ' Brahmaputra'. The brown water moss on the reservoir created an excellent contrast with the blue sky and the lush greenery. Handheld shot with a Nisi 52mm Polariser to boost the color contrast and minimize reflections.
Flickr Group Roulette is doing What The Fluff today -- real constructive criticism, rather than the regular "fluff" comments :) So I took some selfies, and kept the processing down to a minimum.
Explored :)
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!
Some background:
The Bell AH-1 Cobra (company designation: Model 209) is a two-blade, single engine attack helicopter manufactured by Bell Helicopter. It was developed using the engine, transmission and rotor system of the Bell's UH-1 Iroquois. The AH-1 is also referred to as the HueyCobra or Snake.
The AH-1 was the backbone of the United States Army's attack helicopter fleet, but has been replaced by the AH-64 Apache in Army service. Upgraded versions continue to fly with the militaries of several other nations. The latest user in a long row of international operators is the Czech Republic, which partially replaced its Mi-24/35 fleet with the smaller and less costly AH-1.
These new aircraft were actually bought in Japan and technically represent the single-engined AH-1S, which is roughly the equivalent to the United States Army's AH-1Fs and still in use with the JGSDF, but was outfitted with different armament and avionics, tailored to the Czech needs in order to minimize the maintenance and equipment cost for the mixed type helicopter fleet. Fuji Heavy Industries built the Bell Cobra under license from 1984 to 2000, and 89 were delivered to the Japan Ground Self-Defense Force, while 15 more were produced for the Czech Republic in 1999 and 2000. The engine is the T53-K-703 turboshaft, which Kawasaki Heavy Industries produced under license.
The Czech Air Force (CZAF; Czech: Vzdušné síly Armády České republiky) introduced the type in 2002, and they were grouped in a separate helicopter squadron. The Czech Cobras received a major change of armament and mission avionics, though. Main weapon is the Russian 9K121 'Vikhr' (Вихрь, English: Whirlwind) missile complex which replaces the former Western TOW equipment. The Vikhr is a Russian laser guided anti-tank missile system that is believed to have entered service around 1990, having been first shown publicly at the 1992 Farnborough Airshow. Furthermore, the General Dynamics 20 mm (0.787 in) M197 3-barreled Gatling cannon in the chin turret was replaced by a flexible twin-barrel GSh-23L, with 300 rounds of ammunition.
The Vikhr remains the main armement, though. The compact missile is designed to engage vital ground targets, including armoured targets fitted out with built-in and add-on explosive reactive armor, at a range of up to 8 km when fired from a helicopter, up to 5 km at night, as well as air targets in conditions of air defense assets activity.
The Czech Cobras (which received the designation AH-1CZ) are primarily used in the latter role, serving as escorts and support for the Mi-24/35 and are intended for fighting against low speed/low altitude airborne targets like other helicopters. The heavier Mi-24/35 are primariliy intended for the ground attack/CAS role.
The Vikhr missile is part of the Vikhr-M system, which also includes an automatic sight. The automatic sight is provided with TV and IR channels for target sighting, a laser beam channel for missile control, a laser rangefinder, an automatic target tracking unit, a digital computer and a system for stabilization and aiming the sighting and beam channels.
The automatic sight provides for target detection and identification both by day and night, automatic target tracking and missile guidance, and generates exact information for gun and rocket firing. The guided missile consists of a HEAT fragmentation warhead fitted with a contact and a proximity fuze, an air-dynamic control actuator, control electronics, a motor and laser detector. It is kept in a sealed launching transporting container, and the Czech AH-1CZ can carry up to sixteen of these on it four hardpoints, even though a mix of these guided with unguided missiles or gun pods is more frequent.
The multi-purpose warhead (two-stage HEAT and an additional fragmentation sleeve) allows the missile to be used against armoured, airborne and area targets alike. The use of the proximity fuze allows a near miss of up to 5 m and makes it possible to engage an air target at speeds of 500 m/s.
The Vikhr missile laser beam control system provides for its precise guidance owing to data transmission to the missile in the course of its launch, which is excluded in homing systems. A series of non-imaging detectors face backwards from the missile toward the launch platform and guide the missile toward the centre of the laser beam (unlike semi-active laser seekers, which aim for a laser reflected off the target). This is much cheaper and also more resistant to countermeasures.
The missiles can be fired singly or in pairs (at the same target to increase lethality). The high flight speed allows it to engage targets rapidly. The system is capable of launching Vikhr missiles against two to four targets during a 30-second period and starting at a range of 10 km, which increases its lethality to three to four times that of earlier systems.
The independence of the Czech Air Force was terminated on 1 December 2003 when the force became a part of newly established Joint Forces of the Czech Army with the command post located at Olomouc. Within the new structure the Air Force Commander in Chief was in a position of one of Joint Forces Chief Commander Deputy.
Since 1 July 2013, the Czech Air Force is independent again, with headquarters located in Prague and with new Commander in Chief Brigadier General Libor Štefánik.
At the moment it is uncertain if more AH-1CZ will be bought, or if these as well as the Mi-35 fleet will be replaced by a more modern, single helicopter type - the Czech Mi-35 will definitively be retired in 2018.
General characteristics:
Crew: 2: one pilot, one co-pilot/gunner (CPG)
Length: 53 ft (16.1 m) (with both rotors turning)
Fuselage length: 44 ft 7 in (13.6 m)
Stub wing span: 10 ft 4 in (3.15 m)
Rotor diameter: 44 ft (13.6 m)
Height: 13 ft 6 in (4.12 m)
Empty weight: 6,600 lb (2,993 kg)
Max. takeoff weight: 10,000 lb (4,500 kg)
Powerplant:
1× Lycoming T53-L-703 turboshaft, 1,800 shp (1,300 kW)
Rotor system: 2 blades on main rotor, 2 blades on tail rotor
Performance:
Never exceed speed: 170 knots (196 mph, 315 km/h)
Maximum speed: 149 knots (172 mph, 277 km/h)
Range: 274 nmi (315 mi, 510 km)
Service ceiling: 12,200 ft (3,720 m)
Rate of climb: 1,620 ft/min (8.2 m/s)
Armament
Chin barbette with a stabilized, flexible twin-barrel GSh-23L cannon, with 300 RPG
Four stub wing hardpoints for up to sixteen 9K121 'Vikhr' laser-guided missiles,
or a mix of unguided missiles (various pods) and GSh-23L gun pods.
The kit and its assembly:
Like some other whiffy projects this kit conversion was inspired by fellow user PantherG at whatifmodelers.com who posted a set of AH-1 profiles in fictional CZAF markings. These looked intereresting, to say the least, and I decided to take this idea to the hardware stage, and add a personal twist. Another factor was the recent introduction of A Model's CZAF Whif AH-1G as an OOB offer - time to put together some creativity against "mass-market stuff". ;)
The kit is the nice AH-1S from Hobby Boss - I had it in the pile for some time and decided to 'sacrifice' it for this project. Basically the kit was built OOB, I just changed the ordnance and the respective sensors to the new background story.
The Vikhr launch tubes were scratched from styrene strips - they are actually just slender, round tubes with ropunded tips and as goos as no features. The gun pods come from a KP Iskra model and received hollow muzzles. The gun turret was modified, too, with two hollow injection steel needles as gun barrels, and on the Cobra's nose a guidance antenna was added. Onn thze stub wings a pair of chaff/flare dispensers (left over from an Italeri AH-1) complete the ordnance load.
Inside, I added a pair of Matchbox pilots, but otherwise the detailed interior was taken OOB.
All just subtle changes that will not immediately be recognized.
Painting and markings:
Even though PantherG provided a lot of potential liveries for a Czech AH-1 I actually settled for the real world livery of CZAF Mi-24/35 - a three-tone scheme consisting of a pale gray, medium gray and olive drab, coupled with an even more pale gray for the lower surfaces. This looks pretty unique and reminds a bit of the USMCs SuperCobras?
I used Humbrol 129 (Gull Grey, FS 36640), Humbrol 126 (FS 36231) and 155 (FS 34087) as basic upper colors, while the lower surfaces were painted with Humbrol 166 (Light RAF aircraft Grey), all pretty good matches to the real CZAF colors.
The interior surfaces were painted in a very dark gray - I used Humbrol 67. The kit received a light black ink wash in order to emphasize the finely engraved panel lines, and also some light dry-brushing as additional contrast - even though the machine was not supposed to look worn.
The CZAF markings come from a Hungarian Aero Decals (a. k. a. HAD Models) aftermarket sheet for various Mi-24s, and I settled for the more subtle low-viz insignia and markings.
Finally, the kit was sealed with a coat of matte acrylic varnish - the CZAF Mi-24s look almost glossy, but I refrained from a semi-matt varnish because this might look a bit odd at the small 1:72 scale?
In the end, about a week of work and a nice result - the Czech Cobra looks odd but appears natural in the vicinity of its real Mi-24 brethren?
I hated my processing yesterday.
It is true, I need to minimize time spent on 365 sometimes but I've now learned that if I can't really be excited about uploading whatever it is I'm working on, I'm better off sticking a post-it note on my face and calling it done.....
I also learned that when I'm not happy with something, I start adding more stuff trying to make it better. It's a good reminder that when you are in doubt, it's best to ADD LESS, not more.....simplicity is so often the best route....
So, I had to delete it and start over. This, I LOVE!
This portrait of a miner was done underground at the depth of 400 meters in the oldest gold mine in the world - Berezovskaya Shakhta. Miner distracted from his work and delivered to the appointed location. item posing was minimized.
For Hummers I prefer perching locations with sufficient distance from the feeders to minimize the reflected red glow on the birds. I typically place natural slender tree branches a distance above the feeders. With time, the feeding birds get used to my presence and allow for close shots like this. They often land above the feeders for a last look around. This setting is just above my eye level. If I can position myself with the sun at my back, I also have a good chance of showing the splendid red gorget iridescence like in this shot.
IMG_2352; Broad-tailed Hummingbird
A major part of the offshore wind industry's success depends on efficient and accurate analysis and design to overcome the challenge of the stress to submerged structures caused by continuous ocean waves and currents. To meet this industry-wide need, Sandia National Laboratories has developed tools to accurately assess seabed stability to help minimize risks to offshore wind infrastructure, and help reduce financing, installation, and maintenance costs throughout the structure's lifecycle.
This shot was taken with a ND8 to minimize the reflection of the people that was crossing.
I tried to get a shot with no people, I almost got it, only a guy at the right and a also a halo of a person at the end of the street. Unfortunately took another photo brighter 45sec @f4 but a car stoppedat the left and we it see to ghosty when I tried to blend both images. I tried to get more trees detail at the far centre section of the picture.
Exposure: 45 sec
Aperture: f/22
ISO Speed: 100
Filter ND8
Even before the Korean War broke out in 1950, the US Air Force had been planning for a jet-powered replacement of the B-26 Marauder and A-26 Invader. Korea only exacerbated the need for a new aircraft, and the USAF issued a requirement for a new tactical bomber in late 1950, with the stipulation that it had to be based on an existing design to minimize production delays.
Three American designs were considered—the North American AJ-1 Savage and B-45 Tornado, and the completely new Martin XB-51—but so pressing was the need that the USAF included, in a rare move, foreign aircraft as well—a modified Avro Canada CF-100 Canuck, and the English Electric Canberra B.2. The Canberra, to the surprise of everyone involved, won the competition easily. The USAF did have misgivings about the design, especially the fact that the bombardier sat behind the canopy, completely enclosed in the fuselage, but its performance was what won the competition: the Canberra had been designed to replace the deHavilland Mosquito and had the speed and maneuverability to match. The problem was, English Electric was a small startup company and could barely supply the British Royal Air Force with its Canberras, let alone the much larger USAF. To solve the problem, Martin Aircraft was awarded a contract to build the Canberra as the B-57.
Though the initial batch of B-57As were basically identical to the Canberra B.2, aside from upgraded engines and the deletion of the navigator station, the B-57B was to be fundamentally different and more in line of what the USAF intended. The B-57B had a completely redesigned forward fuselage, eliminating the clear navigator nose and wide side-by-side seating of the Canberra B.2, and replacing it with tandem seating, with the bombardier/navigator sitting behind the pilot. The Canberra B.2 had been unarmed, but the B-57B could either carry eight machine guns or four 20mm cannon in an underfuselage tray. The internal bomb bay of the Canberra was replaced with a rotary-type developed for the XB-51, which would rotate to expose the bomb load on the target run, enhancing the aerodynamics of the aircraft. USAF B-57Bs entered service in June 1954, replacing the A-26 in the night attack role.
Soon after it entered service, however, the USAF began to question its new bomber’s capabilities. The Canberra had been fast enough when it was designed in the late 1940s, but technology had moved so quickly that it was now vulnerable to surface-to-air missiles, proven when two RB-57As were lost over mainland China in 1957. The B-57 also had to be flown by strong pilots—the South Vietnamese had quickly returned four B-57Bs to the USAF because they simply were not muscular enough to fly it—and if one engine flamed out, the Canberra would inevitably crash. With all this in mind, the USAF resolved to replace the B-57 in tactical bomber units with F-100 Super Sabres and delete the entire night interdiction role, though the Vietnam War was to temporarily intervene.
Since the Canberra was a stable platform with good aerodynamics, it was well suited for the target-towing role, and Martin subsequently built 68 B-57Es. These were identical to the B-57B, but lacked armament, with target-towing equipment carried in the former bomb bay. The bomb bay was also armored (in case a towing cable should break, which would potentially slice the aircraft in half), and the controls boosted to make the E easier to fly. As missiles replaced rockets and guns in USAF service, however, the B-57E found itself without a mission. The surviving aircraft were then converted to EB-57Es, with all target-towing equipment deleted and replaced with ECM equipment. The job of the EB-57E was to test USAF radar sites and act as electronic aggressors, simulating Soviet bomber attacks. Initially assigned to Air Defense Command, these EB-57s were passed on to the Vermont ANG before being retired in 1982. Of the 50 or so EB-57s in service, six remain today in museums.
55-4279 was built as a B-57E target tug and joined the USAF in 1957. It served with a myriad of units before it was converted to an EB-57E around 1969. Its history lists a brief stint with the 1st Special Operations Squadron in 1971-1972, so it may have been involved with Project Pave Gat, an attempt to convert B-57s to gunships with a single M61 Vulcan 20mm gatling cannon in a turret beneath the aircraft. (Though Pave Gat was successful in testing, it was never deployed due to the development of the AC-130.) It finished up with the 17th DSES at Malmstrom AFB, Montana before it was retired in 1977. 55-4279 made its last flight from Malmstrom to Peterson AFB, Colorado around 1979, and has been there at the base museum ever since.
This is one of two aircraft that I still have a picture of from 1983, when I visited Peterson as a kid. It wasn't in great shape then, but it was repainted around 2011. It's getting another repaint now, which is why it lacks any USAF sigils or unit markings (and why the wheels are masked off), though this is obviously an EB-57. The massive number of dents on the tiptank is due to a hailstorm the museum went through a few years ago that damaged some of the aircraft.
Here's 55-4279 back in 1983. 40 years separate the pictures. www.flickr.com/photos/31469080@N07/34345025970/in/photoli...
One of the massive Marine Iguanas on Isabella
Marine Iguana
The Marine Iguana (Amblyrhynchus cristatus) is an iguana found only on the Galapagos Islands that has the ability, unique among modern lizards, to live and forage in the sea. It has spread to all the islands in the archipelago, and is sometimes called the Galapagos Marine Iguana. It mainly lives on the rocky Galapagos shore, but can also be spotted in marshes and mangrove beaches. On his visit to the islands, Charles Darwin was revolted by the animals' appearance, writing “The black Lava rocks on the beach are frequented by large (2-3 ft), disgusting clumsy Lizards. They are as black as the porous rocks over which they crawl & seek their prey from the Sea. I call them 'imps of darkness'. They assuredly well become the land they inhabit.” In fact, Amblyrhynchus cristatus is not always black; the young have a lighter coloured dorsal stripe, and some adult specimens are grey. The reason for the sombre tones is that the species must rapidly absorb heat to minimize the period of lethargy after emerging from the water. They feed almost exclusively on marine algae, expelling the excess salt from nasal glands while basking in the sun, and the coating of salt can make their faces appear white. In adult males, coloration varies with the season. Breeding-season adult males on the southern islands are the most colorful and will acquire reddish and teal-green colors, while on Santa Cruz they are brick red and black, and on Fernandina they are brick red and dull greenish. Another difference between the iguanas is size, which is different depending on the island the individual iguana inhabits. The iguanas living on the islands of Fernandina and Isabela (named for the famous rulers of Spain) are the largest found anywhere in the Galápagos. On the other end of the spectrum, the smallest iguanas are found on the island on Genovesa. Adult males are approximately 1.3 m long, females 0.6 m, males weigh up to 1.5 kg. On land, the marine iguana is rather a clumsy animal, but in the water it is a graceful swimmer, using its powerful tail to propel itself. As an exothermic animal, the marine iguana can spend only a limited time in the cold sea, where it dives for algae. However, by swimming only in the shallow waters around the island they are able to survive single dives of up to half an hour at depths of more than 15 m. After these dives, they return to their territory to bask in the sun and warm up again. When cold, the iguana is unable to move effectively, making them vulnerable to predation, so they become highly aggressive before heating up (since they are unable to run away they try to bite attackers in this state). During the breeding season, males become highly territorial. The males assemble large groups of females to mate with, and guard them against other male iguanas. However, at other times the species is only aggressive when cold. Marine iguanas have also been found to change their size to adapt to varying food conditions. During El Niño conditions when the algae that the iguanas feed on was scarce for a period of two years, some were found to decrease their length by as much as 20%. When food conditions returned to normal, the iguanas returned to their pre-famine size. It is speculated that the bones of the iguanas actually shorten as a shrinkage of connective tissue could only account for a 10% length change. Researchers theorize that land and marine iguanas evolved from a common ancestor since arriving on the islands from South America, presumably by driftwood. It is thought that the ancestral species inhabited a part of the volcanic archipelago that is now submerged. A second school of thought holds that the Marine iguana may have evolved from a now extinct family of seagoing reptiles. Its generic name, Amblyrhynchus, is a combination of two Greek words, Ambly- from Amblus meaning "blunt" and rhynchus meaning "snout". Its specific name is the Latin word cristatus meaning "crested," and refers to the low crest of spines along the animal's back. Amblyrhynchus is a monotypic genus in that Amblyrhynchus cristatus is the only species which belongs to it at this point in time. This species is completely protected under the laws of Ecuador. El Niño effects cause periodic declines in population, with high mortality, and the marine iguana is threatened by predation by exotic species. The total population size is unknown, but is, according to IUCN, at least 50,000, and estimates from the Charles Darwin Research Station are in the hundreds of thousands. The marine iguanas have not evolved to combat newer predators. Therefore, cats and dogs eat both the young iguanas and dogs will kill adults due to the iguanas' slow reflex times and tameness. Dogs are especially common around human settlements and can cause tremendous predation. Cats are also common in towns, but they also occur in numbers in remote areas where they take a toll on iguanas.
Only in Galagapagos! The sign says, "Beware, Iguana's crossing"!
Isabella
Shaped like a sea horse, Isabela is the largest of the the islands in the Galapagos, more than 4 times larger than Santa Cruz the next largest. Isabela is 80 miles (100 km) in length and though it is remarkably beautiful it is not one of the most visited islands in the chain. Its visitor sites are far apart making them accessible only to faster boats or those with longer itineraries. One of the youngest islands, Isabela is located on the western edge of the archipelago near the Galapagos hot spot. At approximately 1 million years old, the island was formed by the merger of 6 shield volcanoes - Alcedo, Cerro Azul, Darwin, Ecuador, Sierra Negra and Wolf. Five of the six volcanoes are still active (the exception is Ecuador) making it one of the most volcanically active places on earth. Visitors cruising past Elizabeth Bay on the west coast can see evidence of this activity in the fumaroles rising from Volcan Chico on Sierra Negra. Two of Isabela's volcanoes lie directly on the equator - Ecuador and Volcan Wolf. Volcan Wolf is the youngest of Isabela's volcanoes and at 5,600ft (1707 m) the highest point in the Galapagos. Isabela is known for its geology, providing visitors with excellent examples of the geologic occurrences that have created the Galapagos Islands including uplifts at Urbina Bay and the Bolivar Channel, Tuft cones at Tagus Cove, and Pulmace on Alcedo. Isabela is also interesting for its flora and fauna. The young island does not follow the vegetation zones of the other islands. The relatively new lava fields and surrounding soils have not developed the sufficient nutrients required to support the varied life zones found on other islands. Another obvious difference occurs on Volcan Wolf and Cerro Azul, these volcanoes loft above the cloud cover and are arid on top. Isabela's rich animal, bird, and marine life is beyond compare. Isabela is home to more wild tortoises than all the other islands. Isabela's large size and notable topography created barriers for the slow moving tortoises; apparently the creatures were unable to cross lava flows and other obstacles, causing several different sub-species of tortoise to develop. Today tortoises roam free in the calderas of Alcedo, Wolf, Cerro Azul, Darwin and Sierra Negra. Alcedo Tortoises spend most of their life wallowing in the mud at the volcano crater. The mud offers moisture, insulation and protects their exposed flesh from mosquitoes, ticks and other insects. The giant tortoises have a mediocre heat control system requiring them to seek the coolness of the mud during the heat of the day and the extra insulation during the cool of the night. On the west coast of Isabela the nutrient rich Cromwell Current upwelling creating a feeding ground for fish, whales, dolphin and birds. These waters have long been known as the best place to see whales in the Galapagos. Some 16 species of whales have been identified in the area including humpbacks, sperms, sei, minkes and orcas. During the 19th century whalers hunted in these waters until the giant creatures were near extinction. The steep cliffs of Tagus Cove bare the names of many of the whaling ships and whalers which hunted in these waters. Birders will be delighted with the offerings of Isabela. Galapagos Penguins and flightless cormorants also feed from the Cromwell Current upwelling. These endemic birds nest along the coast of Isabela and neighboring Fernandina. The mangrove finch, Galapagos Hawk, brown pelican, pink flamingo and blue heron are among the birds who make their home on Isabela. A colorful part to any tour located on the western shore of Isabela, Punta Moreno is often the first or last stopping point on the island (depending on the direction the boat is heading). Punta Moreno is a place where the forces of the Galapagos have joined to create a work of art. The tour starts with a panga ride along the beautiful rocky shores where Galapagos penguins and shore birds are frequently seen. After a dry landing the path traverses through jagged black lava rock. As the swirling black lava flow gave way to form craters, crystal tide pools formed-some surrounded by mangroves. This is a magnet for small blue lagoons, pink flamingos, blue herons, and Bahama pintail ducks. Brown pelican can be seen nesting in the green leaves of the mangroves. You can walk to the edge of the lava to look straight down on these pools including the occasional green sea turtle, white-tipped shark and puffer fish. This idyllic setting has suffered from the presence of introduced species. Feral dogs in the area are known to attack sea Lions and marine iguanas.
Galapagos Islands
The Galápagos Islands (official name: Archipiélago de Colón; other Spanish names: Islas de Colón or Islas Galápagos) are an archipelago of volcanic islands distributed around the equator in the Pacific Ocean, some 900 km west of Ecuador. It is a UNESCO World Heritage site: wildlife is its most notable feature. Because of the only very recent arrival of man the majority of the wildlife has no fear of humans and will allow visitors to walk right up them, often having to step over Iguanas or Sea Lions.The Galápagos islands and its surrounding waters are part of a province, a national park, and a biological marine reserve. The principal language on the islands is Spanish. The islands have a population of around 40,000, which is a 40-fold expansion in 50 years. The islands are geologically young and famed for their vast number of endemic species, which were studied by Charles Darwin during the voyage of the Beagle. His observations and collections contributed to the inception of Darwin's theory of evolution by natural selection.