America's Brain Drain Crisis Losing the Global EdgeWilliam Kurtz is a self-described compu - 赤豆云问答

第1题

America's Brain Drain Crisis Losing the Global Edge William Kunz is a self-described compu

America's Brain Drain Crisis

Losing the Global Edge

William Kunz is a self-described computer geek. A more apt description might be computer genius. When he was just 11, Kunz started writing software programs, and by 14 he had created his own video game. As a high school sophomore in Houston, Texas, he won first prize in a local science fair for a data encryption (编密码) program he wrote. In his senior year, he took top prize in an international science and engineering fair for designing a program to analyze and sort DNA patterns.

Kunz went on to attend Carnegie Mellon, among the nation's highest-ranked universities in computer science. After college he landed a job with Oracle in Silicon Valley, writing software used by companies around the world.

Kurtz looked set to become a star in his field. Then he gave it all up.

Today, three years later, Kurtz is in his first year at Harvard Business School. He left software engineering partly because his earning potential paled next to friends who were going into law or business. He also worried about job security, especially as more companies move their programming overseas to lower costs. "Every time you're asked to train someone in India, you think, 'Am I training my replacement？'" Ktnz says.

Things are turning out very differently for another standout in engineering, Qing-Shan Jia. A student at Tsinghua University in Beijing, Jia shines even among his gifted cohorts(一群人) at a school sometimes called "the MIT of China". He considered applying to Harvard for his PhD, but decided it wasn't worth it.

His university is investing heavily in cutting-edge research facilities, and attracts an impressive roster of international professors. "I can get a world-class education here and study with world-class scholars," Jia says.

These two snapshots (快照) illustrate part of a deeply disturbing picture. In the disciplines underpinning the high-tech economy-math, science and engineering-America is steadily losing its global edge. The depth and breadth of the problem is clear:

- Several of America's key agencies for scientific research and development will face a retirement crisis within the next ten years.

- Less than 6% of America's high school seniors plan to pursue engineering degrees, down 36% from a decade ago.

- In 2000, 56% of China's undergraduate degrees were in the hard sciences; in the United States, the figure was 17%.

- China will likely produce six times the number of engineers next year than America will graduate, according to Mike Gibbons of the American Society for Engineering Education. Japan, with half America's population, has minted (铸造)twice as many in recent years.

"Most Americans are unaware of how much science does for this country and what we stand to lose if we can't keep up," says Shirley Ann Jackson, president of Rensselaer Polytechnic Institute and chair of the American Association for the Advancement of Science. David Baltimore, president of the California Institute of Technology and a Nobel laureate, puts it bluntly: "We can't hope to keep intact our standard of living, our national security, our way of life, if Americans aren't competitive in science."

The Crisis Americans Created

In January 2001, the Hart-Rudman Commission, tasked with finding solutions to America's major national security threats, concluded that the failures of America's math and science education and America's system of research "pose a greater threat...than any potential conventional war."

The roots of this failure lie in primary and secondary education. The nation that produced most of the great technological advances of the last century now scores poorly in international science testing. A 2003 survey of math and science literacy ranked American 15-year-olds against kids from

A．Y

B．N

C．NG

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第2题

America's Brain Drain CrisisLosing the Global Edge William Kunz is a self-described comput

America's Brain Drain Crisis

Losing the Global Edge

William Kunz is a self-described computer geek. A more apt description might be computer genius. When he was just 11, Kurtz started writing software programs, and by 14 he had created his own video game. As a high school sophomore in Houston, Texas, he won first prize in a local science fair for a data encryption (遍密码) program he wrote. In his senior year, he took top prize in an international science and engineering fair for designing a program to analyze and sort DNA patterns.

Kunz went on to attend Carnegie Mellon, among the nation's highest-ranked universities in computer science. After college he landed a job with Oracle in Silicon Valley, writing software used by companies around the world.

Kunz looked set to become a star in his field. Then he gave it all up.

Today, three years later, Kunz is in his first year at Harvard Business School. He left software engineering partly because his earning potential paled next to friends who were going into law or business. He also worried about job security, especially as more companies move their programming overseas to lower costs. "Every time you're asked to train someone in India, you think, 'Am I training my replacement？'" Kunz says.

Things are turning out very differently for another standout in engineering, Qing-Shan Jia. A student at Tsinghua University in Beijing, Jia shines even among his gifted cohorts (一群人) at a school sometimes called "the MIT of China". He considered applying to Harvard for his PhD, but decided it wasn't worth it.

His university is investing heavily in cutting-edge research facilities, and attracts an impressive roster of international professors. "I can get a world-class education here and study with world-class scholars," Jia says.

These two snapshots (快照) illustrate part of a deeply disturbing picture. In the disciplines underpinning the high-tech economy—math, science and engineering—America is steadily losing its global edge. The depth and breadth of the problem is clear:

-- Several of America's key agencies for scientific research and development will face a retirement crisis within the next ten years.

-- Less than 6% of America's high school seniors plan to pursue engineering degrees, down 36% from a decade ago.

-- In 2000, 56% of China's undergraduate degrees were in the hard sciences; in the United States, the figure was 17%.

-- China will likely produce six times the number of engineers next year than America will graduate, according to Mike

Gibbons of the American Society for Engineering Education. Japan, with half America's population, has minted (铸造) twice as many in recent years.

"Most Americans are unaware of how much science does for this country and what we stand to lose if we can't keep up," says Shirley Ann Jackson, president of Rensselaer polytechnic Institute and chair of the American Association for the Advancement of Science. David Baltimore, president of the California Institute of Technology and a Nobel laureate, puts it bluntly: "We can't hope to keep intact our standard of living, our national security, our way of life, if Americans aren't competitive in science."

The Crisis Americans Created

In January 2001, the Hart-Rudman Commission, tasked with finding solutions to America's major national security threats, concluded that the failures of America's math and science education and America's system of research "pose a greater threat... than any potential conventional war."

The roots of this failure lie in primary and secondary education. The nation that produced most of the great technological advances of the last century now scores poorly in international science testing. A 2003 survey of math and science literacy ranked American 15-year-olds against kids from other industrialized nations. In math, American st

A．Y

B．N

C．NG

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第3题

听力原文：M: The Republican Party in America is opposing stem cell research. I find it hard

to believe that in this day and age,someone would do that.

W: Stem cell research sounds pretty impressive,I'll admit.But just what is it？

M: Well,a stem cell is a special type of cell.It is a general cell that.when it divides.Call become any specific type of cell.

W: You mean,a stem cell can become a heart cell？Or a brain cell or a kidney cell？

M: That's about it.Stem cells are a part of the body's maintenance and repair system.When they divide, they can become any cell type.

W: I guess there would be some tremendous medical advantages in that sort of research.

M: You've said a mouthful.Recently,scientists were able to help a man who lost a jawbone from cancer.They recreated bone material for his jaw from stem cells.What it means is that since the new bone was created out of the person's own cells,there was no problem with rejection because the DNA was the same.

W: I bet the person was delighted.Why would anyone oppose that sort of research？It would seem to have endless potential to benefit the human race.

M: I agree,but there are people who think we should not interfere with nature and mainipulate"what is not natural".

W: It is easier to hold such a narrow view if you're not in a position to need the benefits of the research.If you're missing a jawbone because of cancer,you probably support the research.

What is the man's attitude toward the stem cell research？

A．Supportive.

B．Opposed.

C．Pessimistic.

D．Neutral.

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第4题

Passage Three：Questions 31 to 35 are based on the following passage. It is hardly necessa

ry for me to cite all the evidence of the depressing state of literacy. These figures from the Department of Education are sufficient: 27 million Americans cannot read at all, and a further 35 million read at a level that is less than sufficient to survive in our society.

but my own worry today is less that of the overwhelming problem of elemental literacy than it is of the slightly more luxurious problem of the decline in the skill even of the middle-class reader, of his unwillingness to afford those spaces of silence, those luxuries of domesticity and time and concentration, that surround the image of the classic act of reading. It has been suggested that almost 80 percent of America’s literate, educated teenagers can no longer read without an accompanying noise (music) in the background or a television screen flickering (闪烁) at the corner of their field of perception. We know very little about the brain and how it deals with simultaneous conflicting input, but every common-sense intuition suggests we should be profoundly alarmed. This violation of concentration, silence, solitude (独处的状态) goes to the very heart of our notion of literacy; this new form. of part-reading, of part-perception against background distraction, renders impossible certain essential acts of apprehension and concentration, let alone that most important tribute any human being can pay to a poem or a piece of prose he or she really loves, which is to learn it by heart. Not by brain, by heart; the expression is vital.

Under these circumstances, the question of what future there is for the arts of reading is a real one. Ahead of us lie technical, psychic (心理的), and social transformations probably much more dramatic than those brought about by Gutenberg, the German inventor in printing. The Gutenberg revolution, as we now know it, took a long time; its effects are still being debated. The information revolution will touch every fact of composition, publication, distribution, and reading. No one in the book industry can say with any confidence what will happen to the book as we’ve known it.

第31题：The picture of the reading ability of the American people, drawn by the author, is ________.

A) rather bleak

B) fairly bright

C) very impressive

D) quite encouraging

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第5题

A．It is the revolution of the brain's memory.B．It is the challenge for the brain's cap

A．It is the revolution of the brain's memory.

B．It is the challenge for the brain's capacity.

C．It is the activator of the brain's evolution.

D．It is the revelation of the brain's genius.

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第6题

One' s brain becomes blank when he or she doesn' t have a dream.A．YB．NC．NG

One' s brain becomes blank when he or she doesn' t have a dream.

A．Y

B．N

C．NG

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第7题

The animal has a brain which is nearest ________.A) in man’s sizeB) in size to manC

The animal has a brain which is nearest ________.

A) in man’s size

B) in size to man

C) in size to man’s

D) to the size in man

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第8题

According to Liston, ______ initiate（s) the long-term recall ability of a child.A．early be

According to Liston, ______ initiate(s) the long-term recall ability of a child.

A．early behavioral development

B．the memory-processing regions of the brain

C．the changes in the brain between 9 and 17 months old

D．the changes in the brain between 17 and 24 months old

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第9题

What did Owen's tean find about the woman in the first experiment？ A) Her brain was activ

e. B) She gave creative responses. C) She gave conditioned responses. D) Her brain was damaged.

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第10题

Which of the following is NOT implied in the passage？A．The child's brain is highly selecti

Which of the following is NOT implied in the passage？

A．The child's brain is highly selective.

B．The faculty of speech is inborn in man.

C．Children do not need to be encouraged to speak.

D．Most children learn their language in definite states.

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