John opened the door. There he had never...

When the foreign guest arrived, I found him speaking good Chinese. I       his speech into Chinese the night before.

A. needn't translate

B. didn't need to translate

C. needn't have translated

D. didn't need translatin

South Africa’s Street Store doesn’t just help to clothe the homeless, but also gives them the shopping experience of choosing what they want. With the idea to give the homeless the same dignity as customers who can pay, the Street Store sets up their pop-up cardboard shop in Cape Town, inviting customers in need to browse through the offerings and choose an outfit for themselves from the hundreds of donated items at their will.

The Street Store works closely with local council to get permission to pop-up their sidewalk shops in poor areas around Cape Town. Because of the social conditions in South Africa, over half of the children live in poverty, making the Street Store even more popular.

The Street Store displays a row of cardboard “hangers” (衣架), with boxes neatly arranged below each one. On the hangers hang shirts, T-shirts, trousers and dresses donated by the Cape Town public. In the boxes below, multiple pairs of shoes await a new owner. Street Store volunteers also act as store consultants, offering fashion advice to their customers as they try on chosen donated items.

The Street Store has already reached thousands in the Cape Town area, with over 1,000 satisfied homeless customers visiting on their first day in operation. The program gives the homeless not only a change to pick up some needed clothing, but also restores confidence by giving them a retail experience—even when pocket money doesn’t allow it.

【写作内容】

1. 用约30个单词概述上述信息的主要内容；

2. 结合上述信息，谈谈你对the Street Store的看法；

3. 假设你是the Street Store活动的参与者，你会怎么做？（不少于两点）

【写作要求】

1. 写作过程中不能直接引用原文语句；

2. 作文中不能出现真实姓名和学校名称；

3. 不必写标题。

【评分标准】

内容完整，语言规范，语篇连贯，词数适当。

请认真阅读下列短文, 并根据所读内容在文章后表格中的空格里填入一个最恰当的单词。注意: 每个空格只填1个单词。请将答案写在答题纸上相应题号的横线上。

How Technology Can Help Language Learning

Intelligence, according to Howard Gardner, is of eight types—verbal-linguistic, logical-mathematical, musical-rhythmic, visual-spatial, bodily-kinesthetic, interpersonal, intrapersonal, and naturalistic. This is the first in a series of posts that explore and understand how each of the above forms of intelligence is affected by technology-mediated education.

Verbal-linguistic Intelligence involves sensitivity to spoken and written language, the ability to learn languages, and the capacity to use language to accomplish goals. Such intelligence is developed by three specific activities: reading, writing and interpersonal communication—both written and oral. The traditional tools that have been used to efficiently develop verbal/linguistic intelligence—textbook, pencil, and paper—are giving way to technology in many schools. E-books, Internet lesson plans, online assignments and word processing software, or a subset of the above, are now common in schools. Technology allows addition of multisensory (多种感觉的) elements that provide meaningful contexts to help comprehension, thus expanding the learning ground of language and linguistics.

Research into the effect of technology on the development of the language and literacy skills vis-à-vis reading activities of children has offered evidence for favorable effects of digital-form books. A study shows that digital reading materials have become common in developing countries in early childhood classrooms to support engagement in storybooks while enhancing the emergent literacy (早期读写能力) among children. E-books are also being increasingly used to teach reading among beginners and children with reading difficulties.

Technology can be used to improve reading ability in many ways. It can enhance (加强) and sustain the interest levels for children by allowing immediate feedback on performance and providing added practice when necessary. Recent research shows that students are able to improve their sight word vocabulary, fluency, and comprehension through computer-based reading.

Technology can also help in improvement of writing skills. Word processing software promotes not only composition but also editing and revising in ways that streamline the task of writing. Desktop publishing and web-based publishing allow the work to be taken beyond the classroom into a virtual world that allows more constructive interactions.

Technology enhanced oral communication is indeed useful in that it allows students from remote locations, or from all over the world to communicate orally through video and audio conferencing tools. For example, students of languages in Australian universities overcome the problem of insufficient contact with native language speakers by using online audio and video tools that allow the development of aural, vocal and visual-cognition skills that are important in verbal and linguistic education. Oral group discussions in the form of video conferencing can help non-native speakers of a language with natural language negotiation and cultural intonations in ways that have not been possible due to geographic isolation.

Computer definitely aided language learning and computer mediated communication enhance teaching and learning experiences in the areas of linguistics and language intelligence. Although there have not been comprehensive studies on the use of technologies to aid K-12 English-language learners, there have been many individual computer programs and other technologies that accelerate the acquisition of phonics, vocabulary, fluency, and reading-comprehension skills and other language building blocks.

Title: How Technology Can Help Language Learning

Wisconsin has long been home to incredibly successful research and innovation thanks to our famous academic research institutions and some of the brightest scientific minds. From discovering how Vitamin D can best be absorbed, to unlocking the potential of stem cells, Wisconsin has pioneered remarkable breakthroughs in science that have improved health, saved lives and created jobs. These scientific breakthroughs have not only led to life-saving medical technologies but also have fostered (培育) a strong power in Wisconsin economy.

Across America, groundbreaking research supported by the National Institutes of Health (NIH) alone adds millions of dollars to our economy every year. In fact, NIH funding generated an estimated $58 billion in economic output nationwide in 2014. NIH funding spurs economic growth by supporting jobs in research and by generating biomedical innovations that are turned into new products. NIH-supported innovations also influence improvements in health that can bolster the economy, improve productivity, and reduce illness and disability at home and across the globe. But, budget cuts and inadequate funding for NIH in the past decade have put both medical innovation and our next generation of researchers at risk.

Today, too many of our talented young scientists are deciding to do something else, or are leaving the country to pursue their research. Simply put, scientific and medical innovation depends on our ability to foster, support and invest in these new researchers.

That is why I have worked across party lines with Senator Susan Collins of Maine and introduced the Next Generation (NextGen) Researchers Act. Our act builds opportunities for new researchers, helps address the debt burden that young scientists face today, and invests in the future of research, science, and innovation. This commonsense proposal would create the “Next Generation Researchers Initiative” within the NIH Office of the Director to coordinate (协调) all current and new NIH policies. The legislation (立法) also directs the NIH to consider recommendations from a National Academy of Sciences (NAS) comprehensive study and report on fostering the next generation of researchers.

Finally, we must demonstrate a commitment to our future scientists who, like so many of their peers pursuing other fields, are struggling with crushing student loan debt. Our plan would also increase the amount of loans that can be forgiven through the NIH’s loan repayment programs to better account for the current debt load of new scientists. Higher education should be a path to prosperity, not suffocating debt, and this provision not only helps make higher education more affordable, but can help give new researchers a fair shot at pursuing their dreams.

The Next Gen Researchers Act will help to empower our next generation of researchers from Maine to Wisconsin, and across our country, with the resources they need to continue to lead the world in groundbreaking biomedical research and development. I’m proud to have earned the support of the University of Wisconsin-Madison, the Medical College of Wisconsin, and many others, for my bipartisan work supporting Wisconsin’s leadership in science, research and innovation.

At a time when America’s young researchers are facing the worst funding in decades, our best and brightest minds deserve to know that our country stands with them and is committed to building a stronger future.

1.Why does the author talk about Wisconsin in the first paragraph?

A. To explain why some brightest scientific minds are rewarded for making contributions.

B. To indicate Wisconsin has made great breakthroughs without the support of NIH.

C. To illustrate that Wisconsin takes a lead in scientific breakthroughs and deserves his support.

D. To distinguish Wisconsin’s achievements in science and innovation from the other states’.

2.The following are all the ways of NIH promoting America’s economic growth EXCEPT ________.

A. supporting research jobs

B. encouraging medical innovations

C. improving health and productivity

D. handling budget cuts

3.According to the passage, the introduction of the Next Gen Researchers Act is intended to ________.

A. sing high praise for the work coordinating all current and new NIH policies

B. support and invest in young researchers involved in medical innovation

C. forgive NIH’s current loan debt to make higher education more affordable

D. consider suggestions from NAS’ comprehensive study and report

4.What could be the best title of the passage?

A. It’s Time to Strengthen Our Commitment to the Next Generation of Researchers

B. It’s Time to Strengthen Our Biomedical Research and Development

C. It’s Time to Strengthen Our Next Generation Researchers Act of NIH Office

D. It’s Time to Strengthen Our Loan Repayment Programs of NIH

Scientists have exactly discovered the set of brain cells involved in making risky decisions, and have been able to control them in rats using targeted light. By changing the activity of the cells they were able to change the behaviour of risk-taking rats to avoid risk, hinting the approach could in future be used to treat people with impulse (冲动) control problems.

Risk-taking is a key part of survival, knowing when to take a chance could pay off—such as moving to a new area to look for food when pickings are slim.

While all animals need an element of risk, the preference towards it varies between individuals. Researchers found this variation, which determines how risk-averse an individual is, is regulated by brain cells in a region of the brain called the nucleus accumbens. This cluster of neurons releases the neurotransmitter dopamine, which regulates the brain’s reward and pleasure centres.

Previous studies have shown that in patients with Parkinson’s disease, taking medication which blocks specific dopamine receptors (DR2) (受体) leads to increased gambling (赌博) behaviour and risk taking behaviour. In studies with rats, researchers were able to use a technique called optogenetics (光遗传学)—which uses light sensitive proteins to change the activity of cells—to modify cells with DR2 in the nucleus accumbens.

Rats were trained to choose one of two levers, offering them a choice between a “safe” or “risky” choice. The safe option resulted in a small, but consistent amount of a sugar water treat. But the risky choice consistently delivered smaller amounts of sugar water, with the occasional large pay off—essentially encouraging the animals to gamble for a bigger prize. Around two-thirds of the animals weren’t keen on risk, opting for the safe option, but the remaining third were risk-seekers. Brain scans of the animals showed that those with low levels of DR2 consistently went for the gamble.

But using pulses of light to stimulate (刺激) the DR2 cells and improve their activity could cause the risk-takers to play it safe and opt for the guaranteed but less rewarding option. Once the light-pulses stopped, the risk-takers returned to their gambling strategy.

In the risk-averse animals, stimulating the same cells had little to no effect.

Professor Karl Deisseroth, of Stanford University in California, said: “Humans and rats have similar brain structures involved.”And we found a drug known to increase risk preference in people had the same effect on the rats. So every indication is that these findings are relevant to humans. “Risky behavior has its moments where it’ s valuable. As a species, we wouldn’t have come as far as we have without it.”

1.The variation in people’s preference towards risks is directly regulated by ________.

A. nucleus accumbens     B. light sensitive proteins

C. neurons               D. dopamine

2.From the experiment with rats, we can conclude that ________.

A. the lack of DR2 cells results in a safe option

B. the levels of DR2 have little to do with their choices

C. the high levels of DR2 can make animals avoid risks

D. the risky choice is a less rewarding option

3.The underlined words in Paragraph 7 most likely mean the animals that are ________.

A. willing to take big risks

B. reluctant to take risks

C. fond of gambling strategy

D. afraid of receiving stimulation

4.What can be inferred from what Professor Karl Deisseroth said?

A. Humans and rats differ in their preference for risk-taking.

B. Too much risk-taking can do more harm than good.

C. Risk-taking can be used to treat people with impulse control problems.

D. Risk-taking is a means of survival and brings higher returns to humans.