1 . Coca-Cola is to test a paper bottle as part of a longer-term goal to get rid of plastic from its packaging entirely. The prototype (样本) is made by a Danish company from an extra-strong paper shell that still contains a thin plastic liner (衬垫). But the goal is to create a 100% recyclable, plastic free botte capable of preventing gas escaping from carbonated (碳酸) drinks. The barrier must also ensure no fibers get into the liquid.

That may have a risk of changing the taste of the drink — or potentially can't meet the requirements of health and safety checks. But industry giants (巨头) are backing the plan. Coca-Cola, for example, has set a goal of producing zero waste by 2030. Coca-Cola was ranked the world's number one plastic polluter by charity group Break Free From Plastic last year, closely followed by other drink-producers Pepsi and Nestle.

The Paper Bottle Company, or Paboco, is the Danish firm behind the development of the paper-based container. Part of the challenge has been to create a structure capable of standing the forces exerted by carbonated drinks — such as cola and beer — which are bottled under pressure. On top of that, the paper needs to be mouldable to create distinct bottle shapes and sizes for different brands and take ink for printing their labels.

After more than seven years of lab work, the firm is now ready to host a trial in Hungary this summer of Coca-Cola's fruit drink Adez. Initially, this will involve 2,000 bottles distributed via a local retail chain.

But it is also working with others. Absolut, the vodka maker, is due to test 2,000 paper bottles of its own in the UK and Sweden of its pre-mixed, carbonated raspberry drink. And beer company Carlsberg is also building prototypes of a paper beer bottle.

Michael Michelsen, the firm's commercial manager, says the bottles are formed out of a single piece of paper-fiber-based material to give them strength.

1. What is the longer-term goal of Coca-Cola company?

A．To stop using plastic in its packaging.

B．To produce drinks of alternative tastes.

C．To expand business in European countries.

D．To use paper bottles with a thin plastic liner.

2. What can be inferred from the text?

A．Coca-Cola has very strong competitors.

B．Some industry giants are in favor of plastic free packaging.

C．Carbonated drinks are facing stricter health and safety checks.

D．The paper bottle company is under pressure from environmentalists.

3. What does the underlined word “mouldable” in Paragraph 3 mean?

A．Being hard to be printed on.

B．Being able to be strengthened.

C．Being able to be made into different shapes.

D．Being able to be mixed with other materials.

4. What is the best title for the text?

A．Coca-Cola Takes the Lead to Go Green

B．Paper Bottles Are in Place for the Market

C．Drink Industry Is Turning to Paper Bottles

D．Paper Bottle Companies Spring up Worldwide

2 . Every day, it seems that some new algorithm (算法) enables computers to diagnose a disease with unprecedented accuracy, renewing predictions that computer's will soon replace doctors. What if computers could replace patients as well? If virtual humans could have replaced real people in some stages of a coronavirus vaccine trial, it could have sped development of a preventive tool and slowed down the pandemic. Similarly, potential vaccines that weren't likely to work could have been identified early, reducing trial costs and avoiding testing poor vaccine candidates on living volunteers. These are some of the benefits of “in silico medicine”, or the testing of drugs and treatments on virtual organs or body systems to predict how a real person will respond to the therapies.

The modeling begins by feeding anatomical data drawn from noninvasive (非侵入式) high- resolution imaging of an individual's actual organ into a complex mathematical model of the mechanisms that govern that organ's function. Algorithms running on powerful computers resolve the resulting equations and unknowns, generating a virtual organ that looks and behaves like the real thing.

In silico clinical trials are already underway to an extent. Heart Flow Analysis, for instance, enables clinicians to identify CAD (冠心病) based on CT images of a patient's heart. The Heart Flow system uses these images to construct a fluid dynamic model of the blood running through the coronary blood vessels, thereby identifying abnormal conditions and their severity. Without this technology, doctors would need to perform an invasive operation to decide whether and how to intervene. Experimenting on digital models of individual patients can also help personalize therapy for any number of conditions and is already used in diabetes care.

The philosophy behind in silico medicine is not new. The ability to create and simulate the performance of an object under hundreds of operating conditions has been a cornerstone of engineering for decades, such as for designing electronic circuits, airplanes and buildings. Various obstacles remain to its widespread implementation in medical research and development.

The predictive power and reliability of this technology must be confirmed, and that will require several advances. Those include the generation of high quality medical databases from a large, ethnically diverse patient base that has both women and men; improvement of mathematical models to account for the many interacting processes in the body; and further modification of Al methods that were developed mainly for computer-based speech and image recognition and need to be extended to provide biological insights.

In recent years American and European regulators have approved some commercial uses of computer-based diagnostics, but meeting regulatory demands requires considerable time and money. Creating demand for these computer-based diagnostic tools is challenging as well. In silico medicine must be able to deliver cost-effective value for patients, clinicians and health care organizations to accelerate their adoption of the technology.

1. According to the text, “in silico medicine” might help ________.

A．discover the cause of an illness

B．quicken the creation of new medicine

C．recognize the symptoms of a disease earlier

D．avoid including unhealthy volunteers in trials

2. We can learn from the text that Heart Flow Analysis ________.

A．works effectively in CAD treatment

B．offers personalized therapies to patients

C．reduces the chances of invasive operations

D．builds models after identifying abnormal conditions

3. According to the author, further application of “in silico medicine” requires ________.

A．money and time from the regulators

B．replacement of old mathematical models

C．more proof of its effectiveness and dependability

D．progress in speech and image recognition technology

4. Which of the following is the best title for the text?

A．Looking to Al to End Experimental Study

B．In Silico Medicine Saved Millions of Lives

C．Exploring the Future of Algorithm in Medicine

D．Virtual Patients Could Revolutionize Medicine

3 . While it's not impossible for birds to fly in the rain, they usually choose not to. You may see birds fly for a few seconds in poor weather, but most of them prefer to stay put on rainy days.

Why does rain make it harder for birds to fly? You might imagine that moving through the air while being pelted by raindrops would be pretty unpleasant. However, it's not the rain itself that makes flying difficult. Instead, birds are influenced by the drop in the air pressure that comes with most rainstorms. When pressure drops, the air is less thick, which makes it harder for birds to fly. Moving through the sky in areas of low air pressure takes a lot of energy.

Most birds need to eat several times a day—rain or no rain. Luckily, most birds' feathers（羽毛）are highly waterproof（防水的）, protecting the skin beneath. Many birds can also make oil that they can spread over their feathers to further protect themselves from the rain. Most birds don't like rain. In fact, in a 2010 study, a team of researchers studied birds living in a Costa Rican rainforest. They found that the birds had higher levels of stress hormone（应激激素）on rainy days. That may not surprise you. After all, many animals feel stressed out during storms. Pet owners often find that rain and thunder make their animals nervous. Some animals are so strongly influenced by nature that they almost seem to forecast the future.

No one really knows how many birds die during a storm or series of storms. But the number is certainly higher than usual. They fly into trees or windows; they get lost over the ocean or a large lake; their food sources are made more difficult to get but, at the same time, they need more food to get warm. However, if rain continues for some time, birds will have to challenge the storm.

1. What makes it harder for birds to fly in the rain?

A．The wet air.	B．Food shortage.
C．Raindrops.	D．The low air pressure.

2. What does the underlined word "pelted" in paragraph 2 mean?

A．Cleaned.	B．Hit.
C．Frightened.	D．Protected.

3. What is the main idea of the third paragraph?

A．Why birds can fly in the rain

B．How birds are influenced by rain.

C．How birds survive long rainy days.

D．Why birds' feathers are waterproof.

4. What can we infer from the last paragraph?

A．Birds will develop the ability to fly in the rain

B．Birds fly only when necessary on rainy days.

C．Birds have nowhere to hide in rainstorms.

D．Birds need less food on rainy days.