1 . Atomic shapes are so simple that they can’t be broken down any further. Mathematicians are trying to turn to artificial intelligence (AI) for help to build a periodic table of these shapes, hoping it will assist in finding yet-unknown atomic shapes.
Tom Coates at Imperial College London and his colleagues are working to classify atomic shapes known as Fano varieties, which are so simple that they can’t be broken down into smaller components. Just as chemists arranged element s in the periodic table by their atomic weight and group to reveal new insights, the researchers hope that organizing these atomic shapes by their various properties will help in understanding them.
The team has given each atomic shape a sequence of numbers based on its features such as the number of holes it has or the extent to which it bends around itself. This acts as a bar code (条形码) to identify it. Coates and his colleagues have now created an AI that can predict certain properties of these shapes from their bar code numbers alone, with an accuracy of 98 percent.
The team member Alexander Kasprzyk at the University of Nottingham, UK, says that the AI has let the team organize atomic shapes in a way that begins to follow the periodic table, so that when you read from left to right, or up and down, there seem to be general patterns in the geometry (几何) of the shapes.
Graham Nib lo at the University of Southampton, UK, stresses that humans will still need to understand the results provided by AI and create proofs of these ideas. “AI has definitely got unbelievable abilities. But in the same way that telescopes (望远镜) don’t put astronomers out of work, AI doesn’t put mathematicians out of work,” he says. “It just gives us new backing that allows us to explore parts of the mathematical landscape that are out of reach.”
The team hopes to improve the model to the point where missing spaces in its periodic table could point to the existence of unknown shapes.
1. What is the purpose of building a periodic table of shapes?A.To gain deeper insights into the atomic shapes. |
B.To create an AI to predict the unknown shapes. |
C.To break down atomic shapes into smaller parts. |
D.To arrange chemical elements in the periodic table. |
A.Its holes. | B.Its bends. |
C.Its atomic weight. | D.Its properties. |
A.Design. | B.Help. | C.Duty. | D.Threat. |
A.Thanks to AI, new atomic shapes have been discovered. |
B.Mathematicians turn to AI to create more atomic shapes. |
C.AI helps build a relationship between chemistry and maths. |
D.A periodic table of shapes can be built with the help of AI. |
2 . Fresh fish should have a mild smell. Strong fishy smells are the first signs to go bad. How do the fishy smells come from?
It can be several days from when the fish are caught to when they reach the supermarket. In that time, bacteria that grow naturally in fish start to consume a substance called trimethylamine N-oxide(TMAO)in fish. These bacteria change TMAO into trimethylamine (TMA), the substance responsible for the fishy smells. Bacteria in fish can also change lysine(赖氨酸)into cadaverine(尸胺), a substance that’s associated with breaking down the fish once they are caught and giving off fishy smell.
Chemical reactions can also lead to fishy smells. This happens through the oxidation(氧化)of fat. Fish are an important source of omega-3 fatty acids. When these fats are exposed to oxygen, they oxidize and break down into the substance that you can smell.
To slow down the fishy smell, what is beyond question is that the less time between when the fish are caught and when they reach the kitchen, the better. But today, fish are often flown across the globe. To keep smell-producing bacteria at bay, the fish must be frozen or kept at the low temperature possible as soon as they are caught and cleaned.
Controlling fat oxidation can function as well, especially for fattier fish species. While freezing slows bacterial growth, it does not stop fat oxidation. This reaction will occur as long as oxygen is present. Fatty fish are usually not frozen because, despite the cold temperature, they’re going to oxidize pretty fast unless they are stored in a low oxygen container. That’s why those species are often canned.
It’s also important to remember that smell is not always an indicator of safety, especially in processed fish products. “What you might consider the fishy smell may be a delicacy in another culture,” said Carl A. Batt, a professor of food science at Cornell University.
1. Which of the following has the fishy smell?A.Fish fat. | B.TMAO. | C.Cadaverine. | D.Lysine. |
A.Drying them in the air. | B.Storing them in closed containers. |
C.Carefully cleaning them. | D.Exposing them to rich oxygen. |
A.Objective. |
B.Negative. |
C.Acceptable. |
D.Unclear. |
A.Topic—Example—Conclusion. | B.Topic—Comparison—Opinion. |
C.Question——Cause——Solution. | D.Question—Effect—Opinion. |
3 . Fortunately, the days of being spread on thick baby oil and lying in the sun to get you skin yellowish-brown—or more likely burnt—are long over. Many sunscreens work by filtering (过滤) the sun’s ultraviolet (UV) rays to keep them from reaching skin cells and causing the DNA damage that can lead to wrinkles and skin cancer. But in recent years, the safety of some of those filtering chemical ingredients, particularly oxybenzone (氧苯铜), has been in question.
A 2019 study published in JAMA found evidence that oxybenzone is absorbed into the bloodstream, leading to concerns about whether it might affect functions of our body. Oxybenzone has also been detected in breast milk for newborn babies. Because of concerns about higher intake in children, doctors from the American Academy of Pediatrics advise against sunscreen with oxybenzone for kids.
The Environmental Working Group, an activist organization that monitors chemical safety, has called for a ban, but the U.S. Food and Drug Administration considers sunscreens with oxybenzone safe. “It’s uncertain,” says Deborah S. Sarnoff, president of the U.S. Skin Cancer Foundation. “Just because you’re absorbing the chemical doesn’t mean it’s dangerous.” Further study is required.
But oxybenzone is a risk to coral reefs. Hawaii and the U.S. Virgin Islands have banned the sale of sunscreens with oxybenzone. In a 2022 study published in Science, researchers found that some certain sea plants, when exposed to sunlight, turn oxybenzone into energy or something needed in a way that damages and kills corals.
Some companies have been trying to stop using oxybenzone gradually in stages, and many big brands offer oxybenzone-free options. For anyone who is pregnant or breastfeeding, or simply looking to avoid these chemical filters, Dr. Sarnoff recommends mineral sunscreens, which contain mainly physical barriers.
1. What is the advantage of sunscreen?A.It gets your skin yellowish-brown. | B.It stops wrinkles and skin cancer. |
C.It keeps UV rays from harming you. | D.It prevents skin cells from DNA damage. |
A.They don’t want children to absorb more oxybenzone. |
B.They don’t want oxybenzone to hurt babies’ functions. |
C.They know oxybenzone can affect children’s bloodstream. |
D.They know oxybenzone has been found in newborn babies. |
A.Coral reefs in Hawaii were damaged or killed by sunscreens. |
B.More research is needed to prove the danger of oxybenzone. |
C.Some organizations have already banned the use of sunscreens. |
D.Mineral sunscreens are much safer than those with oxybenzone. |
A.The findings about sunscreens with oxybenzone. |
B.Questions on safe use of oxybenzone raised by doctors. |
C.Discussion on safety of oxybenzone between organizations. |
D.Effects of sunscreens on humans and plants in recent studies. |
4 . In our information-driven society, shaping our worldview through the media is similar to forming an opinion about someone solely based on a picture of their foot. While the media might not deliberately deceive us, it often fails to provide a comprehensive view of reality.
Consequently, the question arises: Where, then, shall we get our information from if not from the media? Who can we trust? How about experts- people who devote their working lives to understanding their chosen slice of the world? However, even experts can fall prey to the allure of oversimplification, leading to the “single perspective instinct” that hampers (阻碍) our ability to grasp the intricacies (错综复杂) of the world.
Simple ideas can be appealing because they offer a sense of understanding and certainty. And it is easy to take off down a slippery slope, from one attention-grabbing simple idea to a feeling that this idea beautifully explains, or is the beautiful solution for, lots of other things. The world becomes simple that way.
Yet, when we embrace a singular cause or solution for all problems, we risk oversimplifying complex issues. For instance, championing the concept of equality may lead us to view all problems through the lens of inequality and see resource distribution as the sole panacea. However, such rigidity prevents us from seeing the multidimensional nature of challenges and hinders true comprehension of reality. This “single perspective instinct” ultimately clouds our judgment and restricts our capacity to tackle complex issues effectively. Being always in favor of or always against any particular idea makes you blind to information that doesn’t fit your perspective. This is usually a bad approach if you would like to understand reality.
Instead, constantly test your favorite ideas for weaknesses. Be humble about the extent of your expertise. Be curious about new information that doesn’t fit, and information from other fields. And rather than talking only to people who agree with you, or collecting examples that fit your ideas, consult people who contradict you, disagree with you, and put forward different ideas as a great resource for understanding the world. If this means you don’t have time to form so may opinions, so what?
Wouldn’t you rather have few opinions that are right than many that are wrong?
1. What does the underlined word “allure” in Para.2 probably mean?A.Temptation. | B.Tradition. | C.Convenience. | D.Consequence. |
A.They meet people’s demand for high efficiency. |
B.They generate a sense of complete understanding. |
C.They are raised and supported by multiple experts. |
D.They reflect the opinions of like-minded individuals. |
A.Simplifying matters releases energy for human brains. |
B.Constant tests on our ideas help make up for our weakness. |
C.A well-founded opinion counts more than many shallow ones. |
D.People who disagree with us often have comprehensive views. |
A.Embracing Disagreement: Refusing Overcomplexity |
B.Simplifying Information: Enhancing Comprehension |
C.Understanding Differences: Establishing Relationships |
D.Navigating Complexity: Challenging Oversimplification |
5 . Scientists have discovered more than 5,000 new species living on the seabed in an untouched area of the Pacific Ocean that has been identified as a future hotspot for deep-sea mining, according to a review of the environmental surveys carried out in the area.
It is the first time the previously unknown biodiversity of the Clarion-Clipperton Zone (CCZ), a mineral-rich area of the ocean floor that spans 1.7m sq miles between Hawaii and Mexico in the Pacific, has been comprehensively documented. The research will be critical to assessing the risk of extinction of the species, given contracts for deep-sea mining in the near-pristine area appear imminent.
Most of the animals identified by researchers exploring the zone are new to science, and almost all are unique to the region: only six, including a carnivorous sponge and a sea cucumber, have been seen elsewhere.
Contracts for mining exploration in the CCZ have been granted to 17 deep-sea mining contractors in an area covering 745,000 sq miles. The companies, which are backed by countries including Britain, the US and China, want to dig for minerals including cobalt manganese and nickel in part to sell to the alternative energy sector.
To better understand the impact of mining this fragile ecosystem and its newly discovered inhabitants, an international team of scientists has built the first “CCZ checklist” by compiling all the records from expeditions to the region. Published in the journal Current Biology, it includes 5,578 different species, of which an estimated 88% to 92% had never before been seen.
To study and collect specimens (样品) from the ocean floor, biologists have joined research cruises in the Pacific that send remote-controlled vehicles to traverse (穿越) the seabed 4,000 to 6,000 meters below. Adrian Glover, a deep-sea biologist at the NHM and senior author of the study described it as an “incredible privilege”. The expedition, funded through the Natural Environment Research Council and others, is backed by UK Seabed Resources (UKSR), a deep-sea mining company that operates the UK’s exploration area. The scientists watch operations by video link direct from the boat as new species are gathered by remote control vehicles in the darkness below.
The seabed, Glover said, is an “amazing place” where, despite the extreme cold and dark, life thrives. “One of the characteristics of the abyssal plain is the lack of food, but life has a way of persisting down there,” he said, “It’s a mystery.” One of the deep-sea animals discovered was nicknamed the “gummy squirrel”, because of its huge tail and jelly-like appearance, he said. There are also glass sponges, some of which look like vases.
With approval for deep-sea mining looming, Glover said he believed it was “imperative that we work with the companies looking to mine these resources to ensure any such activity is done in a way that limits its impact upon the natural world”.
1. What’s the meaning of the underlined word “imminent”?A.Easy to carry out. | B.Ready to take place. |
C.Hard to cope with. | D.Important to look over. |
A.Identifying new species living on the seabed. | B.Assessing the risk of extinction of species. |
C.Documenting the biodiversity of the area. | D.Exploring the potential for deep-sea mining. |
A.Abundance of food. | B.Extreme lifeless environment. |
C.Presence of glass sponges. | D.Prosperous life despite challenging conditions. |
A.A magic zone:available to mining companies |
B.A mineral-rich area: Clarion-Clipperton Zone |
C.An “amazing place”: new species booming |
D.Deep-sea wonders: the new species found in a Pacific mining hotspot |
6 . If at first you don’t succeed, as the old saying goes, try, try again. Good advice, up to a point. But let me offer a
Consider the advice for job interviews in Talent, a new book by economist Tyler Cowen and venture capitalist Daniel Gross. They suggest asking a(n)
Indeed, one way to describe this tactic is that the interviewer is asking for answers in
While that approach is
A striking example of parallel design is the creation of the Windows 95 startup sound. Microsoft was looking for an opportunity to
Eno recalls receiving a brief, asking for music that was “inspirational, sexy, driving, provocative, nostalgic... there were about 150
Eno describes himself as being “completely bereft of ideas” at the time. He found the brief both hilarious and inspiring. In the end he
Bill Burnett and Dave Evans, in their delightful book Designing Your Life, suggest an exercise in which you sketch out a vision for the next five years of your life. What will you be doing? Where will you live and with whom? Are you hoping to run a marathon? Start a business? Write a novel?
This is often a straightforward act of
I’ve tried this myself and seen others try it. People squirm. They protest. Sometimes they cry. And then, sooner or later, the ideas start pouring out.
We all contain
A.suggestion | B.promotion | C.recommendation | D.modification |
A.routine | B.academic | C.personal | D.controversial |
A.presented | B.exhausted | C.challenged | D.accepted |
A.style | B.parallel | C.detail | D.privacy |
A.fundamental | B.flexible | C.unconventional | D.practical |
A.distinct | B.determined | C.deliberate | D.vain |
A.dismiss | B.restrict | C.explore | D.overlook |
A.inevitably | B.accidentally | C.theoretically | D.eventually |
A.scale up | B.figure out | C.experiment on | D.show off |
A.adjectives | B.statements | C.variables | D.copyrights |
A.purchased | B.composed | C.performed | D.appreciated |
A.exhibited | B.created | C.broke | D.underestimated |
A.aggressiveness | B.imagination | C.wisdom | D.will |
A.dart | B.score | C.drawing | D.notice |
A.emotions | B.ambitions | C.desires | D.multitudes |
7 . During the initial stages of instructed L2 (the second language) acquisition students learn a couple thousand, mainly high frequency words. Functional language proficiency, however,
Acquisition of new words from authentic L2 reading texts by means of strategies such as contextual deduction (演绎) is also not a
Any suggestions on how to use this in educational contexts should be based on a systematic
A.inquires | B.requires | C.receives | D.inspires |
A.difficult | B.easy | C.possible | D.necessary |
A.copy | B.focus | C.find | D.clean |
A.however | B.moreover | C.because | D.nevertheless |
A.disturb | B.seem | C.occur | D.disappear |
A.solution | B.approach | C.problem | D.wonder |
A.official | B.annual | C.objective | D.alternative |
A.predicted | B.presented | C.postponed | D.preferred |
A.available | B.outstanding | C.attractive | D.evident |
A.by means of | B.moreover | C.in spite of | D.however |
A.focus | B.analysis | C.object | D.target |
A.describe | B.grasp | C.link | D.force |
A.conclusions | B.appointments | C.aspects | D.contents |
A.react | B.establish | C.memorize | D.leave |
A.enhanced | B.invented | C.contrasted | D.behaved |
8 . “Two centuries ago, Lewis and Clark left St. Louis to explore the new lands acquired in the Louisiana Purchase,” George W. Bush said, announcing his desire for a program to send men and women to Mars. They made that journey in the spirit of discovery. America has ventured forth into space for the same reasons.
Yet there are vital differences between Lewis and Clark’s expedition and a Mars mission. First, they were headed to a place where hundreds of thousands of people were already living. Second, they were certain to discover places and things of immediate value to the new nation. Third, their venture cost next to nothing by today’s standards. A Mars mission may be the single most expensive non-wartime undertaking in U.S. history.
Appealing as the thought of travel to Mars is, it does not mean the journey makes sense, even considering the human calling to explore. And Mars as a destination for people makes absolutely no sense with current technology.
Present systems for getting from Earth’s surface to low-Earth orbit are so fantastically expensive that merely launching the 1,000 tons or so of spacecraft and equipment a Mars mission would require could be accomplished only by cutting health-care benefits, education spending, or other important programs—or by raising taxes. Absent (缺乏)some remarkable discovery, astronauts, geologists, and biologists once on Mars could do little more than analyze rocks and feel awestruck (敬畏的) staring into the sky of another world. Yet rocks can be analyzed by automated probes without risk to human life, and at a tiny portion of the cost of sending people.
It is interesting to note that when President Bush unveiled (公开) his proposal, he listed these recent major achievements of space exploration: pictures of evidence of water on Mars, discovery of more than 100 planets outside our solar system, and study of the soil of Mars. All these accomplishments came from automated probes or automated space telescopes. Bush’s proposal, which calls for reprogramming some of NASA’s present budget into the Mars effort, might actually lead to a reduction in such unmanned science—the one aspect of space exploration that’s working really well.
Rather than spend hundreds of billions of dollars to hurl (投) tons toward Mars using current technology, why not take a decade or two or however much time is required researching new launch systems and advanced propulsion (推进力)? If new launch systems could put weight into orbit affordably, and advanced propulsion could speed up that long, slow transit (运输) to Mars, the dream of stepping onto the red planet might become reality. Mars will still be there when the technology is ready.
1. What do Lewis and Clark’s expedition and a Mars mission have in common?A.Instant value. | B.Human inhabitance. |
C.Venture cost. | D.Exploring spirit. |
A.great achievements have already been made in Mars exploration in America. |
B.American people’s well-being will suffer a lot if it is carried out. |
C.its expense is too huge for the government to afford. |
D.unmanned Mars exploration sounds more practical and economical for the moment. |
A.Going to Mars using current technology is quite sensible. |
B.A Mars mission will in turn promote the development of unmanned program. |
C.Bush’s proposal is based on three recent great achievements of space exploration. |
D.The achievements in space exploration show how well manned science has developed. |
A.Risky as it is, a Mars mission helps maintain America’s position as a technological leader. |
B.A Mars mission is so costly that it may lead to an economic disaster in America. |
C.Someday people may go to Mars but not until it makes technological sense. |
D.A Mars mission is unnecessary since the scientists once there won’t make great discoveries. |
What may well be the oldest metal coins in the world have been identified at an ancient abandoned city known as Guanzhuang in China. Like many Bronze Age (青铜时代) coins from the region, they were cast in the shape of spades with finely carved handles. These ancient coins existed during an in-between period between barter (以物易物) and money, when coins were a novel concept, but everybody knew that agricultural tools were valuable.
Reading about this incredible discovery, I kept thinking about the way modern people represent computer networks by describing machines as having “addresses”, like a house. We also talk about one computer using a “port” to send information to another computer, as if the data were a floating boat with destination. It’s as if we are in the Bronze Age of information technology, grasping desperately for real-world reference to transform our civilization.
Now consider what happened to spade coins. Over centuries, metalworkers made these coins into more abstract shapes. Some became almost human figures. Others’ handles were reduced to small half-circles. As spade coins grew more abstract, people carved them with number values and the locations where they were made. They became more like modern coins, flat and covered in writing. Looking at one of these later pieces, you would have no idea that they were once intended to look like a spade.
This makes me wonder if we will develop an entirely new set of symbols that allow us to interact with our digital information more smoothly.
Taking spade coins as our guide, we can guess that far-future computer networks will no longer contain any recognizable references to houses. But they still might bring some of the ideas we associate with home to our mind. In fact, computer networks — if they still exist at all — are likely to be almost the indispensable part of our houses and cities, their sensors inset with walls and roads. Our network addresses might actually be the same as our street addresses. If climate change leads to floods, our mobile devices might look more like boats than phones, assisting us to land.
My point is that the metaphors of the information age aren’t random. Mobile devices do offer us comfort after a long day at work. In some sense, our desire to settle on the shores of data lakes could change the way we understand home, as well as how we build computers. So as we cast our minds forward, we have to think about what new abstractions will go along with our information technology. Perhaps the one thing we count on is that humans will still appreciate the comforts of home.
1. Many Bronze Age coins were made into the shape of a spade because ___________.A.a lot of emphasis was put on agriculture |
B.this stylish design made the coins valuable |
C.these coins also served as agricultural tools |
D.the handles made the coins easily exchanged |
A.To show they both used to be new concepts when first invented. |
B.To explain abstract digital worlds are different from concrete coins. |
C.To suggest computers will experience dramatic changes as coins did. |
D.To highlight their same importance in our civilizational transformation. |
A.Flexible. | B.Essential. | C.Wasteful. | D.Alternative. |
A.What Coins and Computers Bring Us |
B.How Agriculture Loses to Digital Industry |
C.How Bronze Age Develops to Information Age |
D.What Ancient Money Tells Us About the Future |
10 . If you’ re reaching for the last piece of pizza at a party, and meanwhile see another hand going for it, your next move probably depends on how you feel and whom the hand belongs to. Your little sister — you might just grab the pizza. Your boss — you probably will give up. But if you’re hungry and feeling particularly confident, you might go for it.
Now researchers have made progress in understanding how mammals’ brain encodes social rank and uses this information to shape behaviours — such as whether to fight for that last pizza slice. They discovered that an area of the brain called the medial prefrontal cortex (mPFC) was responsible for representing social rank in mammals; changes to a mouse’s mPFC affect its dominance (支配) behaviour. But it was unknown how the mPFC represented this information and which neurons (神经元) were involved in changing dominance behaviour.
In the new study, Professor Kay Tye let groups of four mice share a cage, allowing a social hierarchy (等级) to naturally develop — some mice became more dominant and others more subordinate. As soon as the mice were paired up, he discovered, the activity of their mPFC neurons could predict — with 90 percent certainty — the rank of their opponent.
“We expected animals might only signal rank when they are in a competition,” says co-researcher Nancy. “But it turns out animals walk around with this representation of social rank all the time.”
When the researchers next asked whether the activity of the mPFC neurons was associated with behaviour, they found something surprising. The brain activity patterns were linked with slight changes in behaviour, such as how fast a mouse moved, and they also could predict — a full 30 seconds before the competition started — which mouse would win the food reward.
The winner was not always the more dominant, but the one engaged in a “winning mindset”. Just as you might sometimes be in a more competitive mood and be more likely to snatch that pizza slice before your boss, a subordinate mouse might be in a more “winning mindset” than a more dominant mouse and end up winning.
The areas of the mPFC associated with social rank and “winning mindset” are next to one another and highly connected. Signals on social rank impact the state of the brain involved in “winning mindset”. In other words, a subordinate mouse’s confidence and “winning mindset” may partially decrease when faced with a dominant one.
“This is further evidence to suggest that we are in different brain states when we are with others compared to when we’re alone,” says Tye. “Regardless of who you’re with, if you’re aware of other people around you, your brain is using different neurons.”
1. The author writes Paragraph 1 in order to ________.A.tell an interesting story | B.present a typical example |
C.introduce a major topic | D.provide a convincing proof |
A.The mPFC neurons. | B.The researchers. |
C.The brain activity patterns. | D.The changes in behaviour. |
A.mPFC neurons change dominance behaviour. |
B.Brain activities can influence social hierarchy. |
C.Dominant opponents boost “winning mindset”. |
D.Social rank and “winning mindset” affect behaviour. |
A.Those eager to win may succeed. | B.When alone, we are more confident. |
C.Social rank guides competitive behaviour. | D.“Winning mindset” establishes dominance. |