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China 1992, India 2012

Why you always throw out a one liner troll without having any critical thinking?

USSR were even refused to provide any help for our atomic bomb, now how we can copy the H-bomb from them?

This H-bomb was detonated in 1967, while the Sino-Soviet relationship has already been deteriorated since 1957.

The Russian version of H-bomb was an exact copy of the US one, while China developed from its own.

I am sure.

I think you even invented all those equations (including E=mc2) from first principles again rather than reusing them from Western textbooks.

Strange that one doesn't find a single Chinese author writing any original book on any subject. No original research (except some papers in large numbers with no known value), no breakthrough research in any field, technical or managerial or philosophical...

Nothing at all!

In any field!
 
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I am sure.

I think you even invented all those equations (including E=mc2) from first principles again rather than reusing them from Western textbooks.

Strange that one doesn't find a single Chinese author writing any original book on any subject. No original research (except some papers in large numbers with no known value), no breakthrough research in any field, technical or managerial or philosophical...

Nothing at all!

In any field!

New York Times: Chinese artemisinin scientists being talked for Nobel Prize

"For Intrigue, Malaria Drug Gets the Prize
By DONALD G. McNEIL Jr.
Published: January 16, 2012

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MADE TO ORDER Mao Zedong, center, demanded that Chinese scientists act when a malaria strain felled North Vietnamese troops. (Credit: Agence France-Presse — Getty Images)

The Chinese drug artemisinin has been hailed as one of the greatest advances in fighting malaria, the scourge of the tropics, since the discovery of quinine centuries ago.

Artemisinin’s discovery is being talked about as a candidate for a Nobel Prize in Medicine. Millions of American taxpayer dollars are spent on it for Africa every year.

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LATE BLOOMER Sweet wormwood provides artemisinin, discovered decades ago in China. (Credit: Luigi Rignanese)

But few people realize that in one of the paradoxes of history, the drug was discovered thanks to Mao Zedong, who was acting to help the North Vietnamese in their jungle war against the Americans. Or that it languished for 30 years thanks to China’s isolation and the indifference of Western donors, health agencies and drug companies.

Now that story is coming out. But as happens so often in science, versions vary, and multiple contributors are fighting over the laurels. That became particularly clear in September, when one of the Lasker Awards — sometimes called the “American Nobels” — went to a single one of the hundreds of Chinese scientists once engaged in the development of the drug.

Mao’s role was simple.

In the 1960s, he got an appeal from North Vietnam: Its fighters were dying because local malaria had become resistant to all known drugs. He ordered his top scientists to help.

But it wasn’t easy. The Cultural Revolution was reeling out of control, and intellectuals, including scientists, were being publicly humiliated, forced to labor on collective farms or even driven to suicide. However, because the order came from Mao himself and he put the army in charge, the project was sheltered. Over the next 14 years, 500 scientists from 60 military and civilian institutes flocked to it.

Meanwhile, thousands of American soldiers in Vietnam were also getting malaria, and the Walter Reed Army Institute of Research began its own drug hunt. That effort ultimately produced mefloquine, later sold under the brand name Lariam.

While powerful, mefloquine has serious drawbacks, including nightmares and paranoia. In 2003, dozens of American Marines in Liberia got malaria after refusing to take pills because of military scuttlebutt that several Special Forces soldiers who killed their wives after returning home from Afghanistan in 2002 had been driven insane by the drug.

China’s effort formally began at a meeting on May 23, 1967, and was code-named Project 523, for the date.

Researchers pursued two paths. One group screened 40,000 known chemicals. The second searched the traditional medicine literature and sent envoys into rural villages to ask herbal healers for their secret fever cures.

One herb, qinghao, was mentioned on tomb carvings as far back as 168 B.C. and praised on medical scrolls through the centuries, up to the 1798 Book of Seasonal Fevers. Rural healers identified qinghao as what the West calls Artemisia annua, or sweet wormwood, a spiky-leafed weed with yellow flowers.

In the 1950s, officials in parts of rural China had fought malaria outbreaks with qinghao tea, but investigating it scientifically was new. It also had at least nine rivals from traditional medicine with some anti-malarial effects, including a pepper.

In the lab, qinghao extracts killed malaria parasites in mice. Researchers tried to find exactly which chemical worked, which plants had the most, whether it could cross the blood-brain barrier to fight cerebral malaria, and whether it worked in oral, intravenous and suppository forms.

Outmoded equipment slowed research. But by the 1970s it was known that the lethal chemical, first called qinghaosu and now artemisinin, had a structure never seen before in nature: In chemical terms, it is a sesquiterpene lactone with a peroxide bridge. Trials in 2,000 patients showed that it killed parasites remarkably rapidly.

However, the body eliminated it so fast that any parasites it missed made a comeback. So scientists began mixing it with slower but more persistent drugs, creating what is now called artemisinin combination therapy. (One new combination includes mefloquine.)

A 2006 history of the project by Zhang Jianfang, its former deputy director, contains some gripping details: petty disputes between rivals, Cultural Revolution street fighting that forced one laboratory into a basement, project doctors’ living on brown rice and vegetables as they did clinical trials in remote villages in China’s tropical southern mountains, and other doctors’ hiking the Ho Chi Minh Trail with the Vietcong.

Mao died in 1976; Project 523 was officially disbanded in 1981, though clinical work continued.

In 1979, Dr. Keith Arnold, a malaria researcher in Hong Kong who had helped the Army develop mefloquine, wangled his way into China, hoping to test his drug there. He met Dr. Li Guoqiao, who was testing artemisinin variants. They decided to try head-to-head trials, and the Chinese mystery drug beat his, Dr. Arnold said.

Soon, World Health Organization scientists asked for articles from China’s medical journals, the first of which had been published in 1977, in response to reports that a Yugoslav chemist was experimenting with wormwood.

In 1982, The Lancet had an article by Chinese researchers. It won a prize, but the check, in British pounds, could not be cashed in China.

Shortly thereafter, Dr. Arnold said, Walter Reed scientists found wormwood growing on the banks of the Potomac and extracted artemisinin. Nonetheless, the drug languished. The W.H.O. did not endorse it until 2000, and it was not widely available until 2006. (article continues)"
 
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I am sure.

I think you even invented all those equations (including E=mc2) from first principles again rather than reusing them from Western textbooks.

Strange that one doesn't find a single Chinese author writing any original book on any subject. No original research (except some papers in large numbers with no known value), no breakthrough research in any field, technical or managerial or philosophical...

Nothing at all!

In any field!

China's bullet trains are the world's fastest by far at 500km per hour. This technology has never existed before.

Now, I want to ask you the same question that you have been raising. What has India invented that is worthy of being written by The New York Times (see article on Chinese artemisinin above or "A Radical Kind of Reactor" in second citation below)?

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China unveils new super-speed train that hits 300 mph (or 500 kph)

Faster than a speeding bullet: China unveils new super-speed train that can hit 300 mph (... 100 mph quicker than its bullet trains) | Mail Online

"Faster than a speeding bullet: China unveils new super-speed train that can hit 300 mph (... 100 mph quicker than its bullet trains)
By Gareth Finighan
Last updated at 7:33 PM on 26th December 2011

China has produced a super-rapid test train capable of travelling at speeds of up to 300 miles per hour - 100 mph faster than the current record-holder.

The train, made from plastic materials reinforced with carbon fibre, is designed to resemble an ancient Chinese sword and 'will provide useful reference for current high-speed railway operations', according to train expert Shen Zhiyun.

Earlier this year, the Communist regime unveiled its fastest operational locomotive which was able to cover the 824-mile trip between Beijing and Shanghai in five hours - reaching record-breaking top speed of 200 mph and maintaining an average speed of 165 mph.

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Showpiece: Although not yet operational, the new bullet train has achieved speeds of 300 mph

The latest test model has a maximum tractive power of 22,800 kilowatts, compared with 9,600 kilowatts for the Beijing-Shanghai CRH380 trains.

But future Chinese trains will not necessarily run at such high speeds. CSR chairman Zhao Xiaogang said: 'We aims to ensure the safety of trains operation.'

China is home to the largest network of bullet-train track in the world, with 8,000 miles of track linking up the vast country at a cost of 700 billion yuans (£66 billion). Another 8,000 miles of line is expected to be added by 2015.

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Already out of date: The CRH380A high-speed train was launched earlier this year and currently holds the world train speed record. But the new model can outrun it by 100 mph

China's railway industry has had a tough year, highlighted by a collision between two high-speed trains in July which killed at least 40 people. Construction of new high-speed trains in China has since been a near halt.

In February, the railways minister, Liu Zhijun, a key figure behind the boom in the sector, was dismissed over corruption charges that have not yet been tried in court.

And the multi-billion-pound plan has provoked complaints that it is too expensive for a country where millions of people still live in poverty. The government announced in April the top speed of the fastest lines would be reduced and ticket prices would be cut.

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Being overtaken: China's current bullet train can hurtle through the countryside at speeds of up to 200 mph

Critics also claim that railway officials have diverted too much money to high-speed rail and should be expanding lower-cost traditional rail.

The Ministry of Railways claims it has made extensive preparations for safety and security on the trains.

They include plans for daily inspections of tracks and other facilities and an earthquake monitoring system."

[Note: MSNBC more accurately cited Xinhua and reported a 310 mph (or 500 kph) top speed.]

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The New York Times: A Radical Kind of Reactor

"A Radical Kind of Reactor
By KEITH BRADSHER
Published: March 24, 2011

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Dr. Xu Yuanhui of Chinergy with one of the "pebbles" or fuel elements that power the reactor.
(Photo credit: Shiho Fukada for The New York Times)

SHIDAO, China — While engineers at Japan’s stricken nuclear power plant struggle to keep its uranium fuel rods from melting down, engineers in China are building a radically different type of reactor that some experts say offers a safer nuclear alternative.

The technology will be used in two reactors here on a peninsula jutting into the Yellow Sea, where the Chinese government is expected to let construction proceed even as the world debates the wisdom of nuclear power.


Rather than using conventional fuel rod assemblies of the sort leaking radiation in Japan, each packed with nearly 400 pounds of uranium, the Chinese reactors will use hundreds of thousands of billiard-ball-size fuel elements, each cloaked in its own protective layer of graphite.

The coating moderates the pace of nuclear reactions and is meant to ensure that if the plant had to be shut down in an emergency, the reaction would slowly stop on its own and not lead to a meltdown.

The reactors will also be cooled by nonexplosive helium gas instead of depending on a steady source of water — a critical problem with the damaged reactors at Japan’s Fukushima Daiichi power plant. And unlike those reactors, the Chinese reactors are designed to gradually dissipate heat on their own, even if coolant is lost.

If the new plants here prove viable, China plans to build dozens more of them in coming years.

The technology under construction here, known as a pebble-bed reactor, is not new. Germany, South Africa and the United States have all experimented with it, before abandoning it over technical problems or a lack of financing.

But as in many other areas of alternative energy, including solar panels and wind turbines, China is now taking the lead in actually building the next-generation technology. The government has paid for all of the research and development costs for the two pebble-bed reactors being built here, and will cover 30 percent of the construction costs.

Despite Japan’s crisis, China still plans to build as many as 50 nuclear reactors over the next five years — more than the rest of the world combined. Most of this next wave will be of more conventional designs.

But if the pebble-bed approach works as advertised, and proves cost effective, China hopes it can eventually adopt the technology on a broad scale to make nuclear power safer and more feasible as it deals with the world’s fastest growing economy and the material expectations of its 1.3 billion people.

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Western environmentalists are divided on the safety of pebble-bed nuclear technology.

Thomas B. Cochran, the senior scientist on nuclear power for the Natural Resources Defense Council, an American group, said that such reactors would probably be less dangerous than current nuclear plants, and might be better for the environment than coal-fired plants.

“Over all, in terms of design,” he said, “it would appear to be safer, with the following caveat: the safety of any nuclear plant is not just a function of the design but also of the safety culture of the plant.”

The executives overseeing construction of the new Chinese reactors say that engineers are already being trained to oversee the extensively computerized controls for the plant, using a simulator at a test reactor that has been operating for a decade near Beijing, apparently without mishap.

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Engineers have been trained to oversee the controls on a test pebble-bed reactor that has been operating for a decade near Beijing. (Photo credit: Shiho Fukada for The New York Times)

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Students look at an experimental reactor project built at Tsinghua University, north of Beijing.
(Photo credit: Shiho Fukada for The New York Times)

But Greenpeace, the international environmentalist group, opposes pebble-bed nuclear reactors, questioning whether any nuclear technology can be truly safe. Wrapping the uranium fuel in graphite greatly increases the volume of radioactive waste eventually requiring disposal, said Heinz Smital, a Greenpeace nuclear technology specialist in Germany.

But he said the waste is far less radioactive per ton than spent uranium fuel rods — one of the big sources of trouble at the Fukushima Daiichi plant.

China is building a repository for high-level nuclear waste, like conventional fuel rods, in the country’s arid west. But the far less radioactive spheres, or pebbles, like those from the Shidao reactors will not require such specialized storage; China plans to store the used pebbles initially at the power plants, and later at lower-level radioactive waste disposal sites near the reactors.

Whatever fears the rest of the world may have about China’s nuclear ambitions, the environmental cost-benefit analysis contains at least one potential positive: More nukes would let China reduce the heavy reliance on coal and other fossil fuels that now make it the world’s biggest emitter of global-warming gases.

“China epitomizes the stark choices that we face globally in moving away from current forms of coal-based electricity,” said Jonathan Sinton, the top China specialist at the International Energy Agency in Paris. “Nuclear is an essential alternative” to coal, he said. “It’s the only one that can provide the same quality of electricity at a similar scale in the medium and long term.”

Chinese leaders have been largely unwilling to engage in the global debate on climate change. But they have made a priority of reducing urban air pollution — which kills thousands of people every year and is largely caused by burning coal — and of improving mine safety. Coal mining accidents killed more than 2,400 people in China last year alone.

China’s biggest electric company, the state-owned Huaneng Group, now aims to prove that the technology can work on a commercial scale by building the two pebble-bed reactors — each capable of meeting the residential power needs of an American city of 75,000 to 100,000 people. The reactors are expected to go into operation in about four years.

The plants’ foundations have already been laid
, their steel reinforcing bars pointing skyward, on a desolate landscape dominated by thatch-roofed huts and last season’s cornfields. Chinese safety regulations require that all nuclear plants be located at least 30 miles from the nearest city, in this case Rongcheng, which has a population of one million.

It was only three days after a tsunami swamped Japan’s Fukushima Daiichi plant that China’s legislature approved its five-year plan calling for dozens of new nuclear reactors. As the severity of that crisis became evident, Beijing said it would “temporarily suspend“ the approval of new nuclear reactors, but would allow construction to proceed at more than two dozen other nuclear projects already under way.

By coincidence, China’s cabinet and its national energy bureau had both given final approval for the pebble-bed reactors here in Shidao in the two weeks before the earthquake, said Xu Yuanhui, the father of China’s pebble-bed nuclear program.

China’s nuclear safety agency has met since the Japanese earthquake and reviewed the Shidao’s project plans and site preparation, and has indicated it will be the next project to receive safety clearance.

“The conclusion is clear that it is all ready to start to pour concrete,” said Dr. Xu, a former Tsinghua University professor who is now the vice general manager of Chinergy, the contractor building the reactors here.

Germany led the initial research into pebble-bed nuclear reactors and built its own research version in the 1960s. That reactor closed after an accident, caused by a jammed fuel pebble that released traces of radiation — coincidentally nine days after the Chernobyl accident in 1986, at a time of greatly increased worry about nuclear safety. Dr. Xu said that China, learning from the German mishap, had designed its reactors to keep the pebbles from jamming.

South Africa tried hard until last summer to build a pebble-bed reactor but ran into serious cost overruns.

In the United States, the federal government and companies have spent heavily on pebble-bed research. But there has been little appetite for actually building new nuclear reactors — of any sort — since the Three Mile Island accident in 1979.

“The Chinese had a determination to build, to show the technology to work, and a commitment to get it done,” said Andrew Kadak, a Massachusetts Institute of Technology nuclear engineer specializing in pebble-bed reactors. 'In the U.S. we didn’t have, and still don’t have, the commitment.'”
 
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^^ China was not capable of building even 100 KMPH trains till recently.

Then they stole the German technology and the rest is history.

Did you not see my question?

"Now, I want to ask you the same question that you have been raising. What has India invented that is worthy of being written by The New York Times (see article on Chinese artemisinin above or "A Radical Kind of Reactor" in second citation below)?"

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You had your turn to ask your questions and I've answered them. Now it's my turn to ask you a question and I want an answer.
 
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Did you not see my question?

"Now, I want to ask you the same question that you have been raising. What has India invented that is worthy of being written by The New York Times (see article on Chinese artemisinin above or "A Radical Kind of Reactor" in second citation below)?"

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You had your turn to ask your questions and I've answered them. Now it's my turn to ask you a question and I want an answer.


INDIA invented ZERO :wave::lol::P
 
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Did you not see my question?

"Now, I want to ask you the same question that you have been raising. What has India invented that is worthy of being written by The New York Times (see article on Chinese artemisinin above or "A Radical Kind of Reactor" in second citation below)?"

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You had your turn to ask your questions and I've answered them. Now it's my turn to ask you a question and I want an answer.

The answer will run in several books.

But it is not me who is making loud mouth irrelevant claims here.
 
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The answer will run in several books.

But it is not me who is making loud mouth irrelevant claims here.

Pathetic Indian with a big mouth. Your country is a cesspool and yet, you can't keep your mouth shut.

Comparing yourselves to China is one of the most ridiculous ideas ever.

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Shanghai is one of China's many mega-cities. (Photo: Reuters)

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China isn't worried about Indian economic competition

China isn't worried about Indian economic competition. The national average Indian IQ level is 82. But why? Obviously, when 42% of Indian children are malnourished and 60% stunted, you're not equipped to compete with well-fed and well-educated Chinese.

The Indian government is not feeding your young people. Until it does, your brains are stunted. On average, Chinese will remain smarter than you by an awesome 23 IQ points at 105. The contest is already over before it even started.

Chinese keep growing taller (see second post below) and 60% of Indians are stunted. Gee, I wonder who will dominate in the future?

Reference: IQ and Global Inequality

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42 percent of Indian children under 5 malnourished - CBS News

"42 percent of Indian children under 5 malnourished
January 10, 2012 7:01 AM

(AP) NEW DELHI — Forty-two percent of children in India younger than 5 are underweight and nearly 60 percent are stunted, a new survey found.

The Hunger and Malnutrition Survey monitored over 100,000 children in 112 districts across nine states in the country from October 2010 to February of last year.

Prime Minister Manmohan Singh released the report Tuesday and called child malnutrition the country's shame.

India's economy has boomed, with growth over the last few years averaging about 8 percent, but the country's development indicators continue to be abysmal.

Singh released a summary of the report's findings and more details on its findings were not yet available.

The survey conducted by a group of non-profits was the largest such study since 2004, when the Indian government had surveyed child malnutrition. It was the first study by the group so comparative numbers are not available.

UNICEF's latest data say one-third of the world's malnourished children younger than 3 lives in India, a rate worse than sub-Saharan Africa."

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China Rising literally

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Average Chinese man is 5' 8". Average American man is 5' 9".
Average Chinese and American women are both 5' 4".

http://findarticles.com/p/articles/mi_m0EI...2/ai_n27988145/

"Alvanon Releases Most Extensive Chinese Body Measurement Study
Business Wire / August 12, 2008

Analysis Reveals Significant Insight on Chinese Size and Shape for the Fashion Industries

NEW YORK & LONDON & HONG KONG -- Alvanon, the global size and fit expert, today announced it has compiled the most extensive collection of body scan research in China. Over 28,000 people were scanned in four key regions of the country at various urban retail shopping centers. The scanners captured 45 measurements per person, resulting in the largest body measurement study ever performed in China.

"There is an unprecedented retail opportunity in China. The right product mix must be combined with the right size and fit to achieve a successful brand following in China," said Janice Wang, CEO, Alvanon. "Our China body measurement study, combined with the data we've compiled in the rest of the world, uniquely enables us to provide leading apparel brands with powerful insights about their target consumers.

"As the global size and fit expert, Alvanon's industry-leading solutions allow these brands to deliver better fitting garments, increasing sales and building consumer loyalty to the brands," Wang said.

Alvanon collected this highly relevant data from the world's fastest growing retail market utilizing safe millimeter wave scanners that accurately measure fully-clothed participating shoppers in seconds. This new study adds to Alvanon's database of body measurements, which now exceeds 250,000 men, women and children of various age groups from over 14 countries in Europe, Asia and North America.

Research Highlights

Even where the average height in China is similar to the Western body stature, the core body shape in China is significantly smaller and more homogenous than in the markets of the U.S. and Europe. As an example, there is a difference in stature in both genders between Chinese of northern origin and southern origin. Men have similar average heights in China and the U.S. but have dramatically different average chest and waist measurements, as well as differences in average weight and body mass. Women in China have much narrower variances in bust, waist and hip measurements than those in the U.S. As a result, the U.S. market requires more than double the number of clothes sizes to reach the same percentage of the population as compared to China. One trend consistent with other Western countries is that the younger generation in eastern China is growing taller and heavier.

Through evaluation of its own data and other size studies, Alvanon has also tracked stature changes from generation to generation and important information on the difference of body shape and size throughout the world. One of the most dramatic statistics from China shows that over the span of a decade (1992-2002) the average height of children (2-18 years old) increased by almost 1.5", nearly twice as high as the increase among U.S. children. While adults in China, at any given height, look quite different from adults in the West, children's body shapes and sizes are converging at a very rapid rate.

Despite having a relatively small average stature when compared to Westerners, over 30 percent of urban Chinese are considered overweight. Age and gender analysis shows the highest increase in body mass index has occurred in Chinese women aged 35-45.

Below are some interesting facts uncovered by the Alvanon study.

Fast Facts

* Average Chinese Female Height 5'4"; Weight 125 Pounds; Chest 31"; Waist 28"; Low Hip 35"

* Average U.S. Female Height 5'4"; Weight 155 Pounds; Chest 37"; Waist 34"; Low Hip 42"

* Average Chinese Male Height 5'8"; Weight 145 Pounds; Chest 35"; Waist 31"; Low Hip 36"

* Average U.S. Male Height 5'9"; Weight 191 Pounds; Chest 41; Waist 37; Low Hip 41"

About Alvanon

Alvanon is the global size and fit expert, providing full-service, integrated fit solutions for the apparel industry. With the largest database of body scan research in the world, Alvanon combines real-world industry expertise and innovative technology to offer a holistic approach to fit and sizing, encompassing both strategic insight as well as practical product development tools.

Dr. Kenneth Wang founded Alvanon in 2001 to address the industry's prevalent size and fit misconceptions and to develop solutions that would revolutionize the way the industry understood and leveraged the concept of fit. Since that time, Alvanon has grown to become the global leader in providing custom fit mannequins and solutions to the world's leading brands. Alvanon's suite of products and services integrate seamlessly with every stage of the product development and production process, helping to increase internal and external process efficiency and decrease overall time to market."
 
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Why this alien from Mars is working overtime to copy paste so many articles? The opening article says India is 20 years behind China and not ahead of it. What has offended him so much? :undecided:
 
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Why this alien from Mars is working overtime to copy paste so many articles? The opening article says India is 20 years behind China and not ahead of it. What has offended him so much? :undecided:

Some pathetic low lives have gotten so much ahead of themselves at the first sight of two decent meals on the table.

And a tea and a biscuit to assemble the IPad in the middle of the night. ;)
 
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Some pathetic low lives have gotten so much ahead of themselves at the first sight of two decent meals on the table.

And a tea and a biscuit to assemble the IPad in the middle of the night. ;)

LOL.. come on now.. he can manage a couple of meals a day. albeit with plastic rice, chemical eggs and cardboard chicken. ;)
 
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India is probably 25 to 30 years behind China in military tech and infrastructure . But that does not mean they can just take AP(south tibet).
 
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