Harbin is the capital of Heilongjiang province. Harbin is now a large and open city,
Harbin
The most popular place is the Harbin Ice and Snow World,
There are also ice and snow sculptures exhibitions on Sun Island and an ice lantern show in Zhaolin Park.
Harbin has long been a popular winter destination for snow tourism and skiing experiences. If you are skiing lovers, Yabuli Ski Resort and Jihua Ski Resort
2 . Plastic is everywhere, from the Arctic ice to vital organs in the human body. In fact, previous estimates suggest that the average person swallows a credit card-worth of microscopic plastic particles(颗粒) every week. But new research shows that this could actually be an understatement.
Microplastics are plastics smaller than 5 millimeters, found in industrial waste, beauty products, and formed during the degradation of larger plastic pieces. Over time, they break down into even smaller nanoplastics. These tiny particles can pass through our intestines and lungs into our bloodstreams, reaching vital organs like the heart and brain.
While the idea of eating plastic is unsettling in itself, the major concern here is that these plastic particles contain chemicals that can interrupt our body’s natural release of hormones, potentially increasing our risk of reproductive disorders and certain cancers. They can also carry toxins(毒素) on their surface like heavy metals.
In the past, researchers have shown bottled water can contain tens of thousands of identifiable plastic fragments in a single container. However, until recently, only the larger microplastics were detectable with available measuring tools, leaving the area of nanoplastics largely a mystery.
Using Raman microscopy (显微镜学), capable of detecting particles down to the size of a flu virus, the team measured an average of 240, 000 particles of plastic per liter of bottled water, 90 percent of which were nanoplastics, a revelation 10 to 100 times larger than previous estimates.
These plastics likely originate from the bottle material, filters used to “purify” the water, and the source water itself. “It is not totally unexpected to find so much of this stuff, ” the study’s lead author, Columbia graduate student Naixin Qian, said in a statement. His team hopes to expand their research into tap water and other water sources to better inform our exposure to these potentially dangerous particles. “The idea is that the smaller things get, the more of them I reveal, ” he added.
1. What is the primary focus of the new research?A.The presence of plastic particles. | B.The use of plastic in everyday products. |
C.The detection methods for microplastics. | D.The potential risks of nanoplastics to human. |
A.Finding the source of plastic particles. | B.Helping to cure the deadly flu virus. |
C.Detecting the smaller plastic particles. | D.Improving the quality of bottled water. |
A.To focus on areas with higher plastic pollution. |
B.To be aware of the dangerous particles in daily life. |
C.To further measure the types of particles in tap water. |
D.To detect the smaller plastic particles in industrial areas. |
A.Skeptical. | B.Objective. | C.Conservative. | D.Positive. |
3 . As an immigrant from China, my mother loves Chinese culture deeply. She
Why is American Chinese food not
My mother has a deep feeling for authentic Chinese food and restaurants, so I decide to open a restaurant where she and other immigrants can feel the
A.orders | B.cooks | C.donates | D.receives |
A.However | B.Therefore | C.Besides | D.Otherwise |
A.alternatives | B.restrictions | C.meals | D.comments |
A.unwilling | B.illegal | C.ambitious | D.quick |
A.agreeable | B.contemporary | C.massive | D.complicated |
A.complex | B.actual | C.expensive | D.previous |
A.believe | B.find | C.deny | D.conclude |
A.deserves | B.helps | C.hates | D.refuses |
A.make | B.prepare | C.defend | D.distinguish |
A.process | B.cuisine | C.mood | D.discount |
A.differently | B.generously | C.abnormally | D.vividly |
A.build | B.equip | C.accept | D.monitor |
A.careers | B.platforms | C.ranks | D.tastes |
A.decrease | B.atmosphere | C.reflection | D.duty |
A.spied on | B.called on | C.handed down | D.broken down |
4 . Pat Patterson, a pilot for 25 years, had never met anyone like the handsome young man in the wheelchair who faced him at the Medford, Oregon, airport on July 28, 1976. Mike Henderson, a quadriplegic (四肢瘫痪者), wanted flying lessons.
As a 22-year-old Coast Guardsman eight years before, Henderson had fallen off a dock and landed on a floating log, breaking two of his bones. Doctors said that he would probably never walk again, let alone fly. “Here was this doctor telling me how it was going to be,” he says, “but no one was going to limit my freedom to try.”
Henderson parked his wheelchair next to the airplane and began to climb up onto the wing. He injured his elbow on the way, and after a great struggle, finally managed to pull himself into the airplane’s pilot’s seat. In the flight office, Pat Patterson watched in disbelief. “He crawled his way up that wing!” he says. “It took him 45 minutes. When I went out, he was sitting in the pilot’s seat, bleeding from his injured elbow all over the place. When I saw him go through that much pain, I knew nothing could stop him.”
Now everything was up to the instructor and the student, and together they set about solving each problem as it arose. A small piece of carpet gave Henderson traction (摩擦力) to climb the slippery wing. A headset freed his hands from the radio microphone, and the two men developed a moving bar that enabled Henderson to operate the airplane more easily.
Three weeks and eight flying hours after the first lesson, Henderson and Patterson happily phoned Dr. Stoddard — Henderson’s physician. At the airport, as the physician looked on, Henderson quickly wheeled himself around the airplane, doing a thorough, professional ground check. With Patterson and Dr. Stoddard on board, he went through his preflight instrument check. Minutes later, engine starting, the plane rolled down the runway and took off into the gray sky.
1. When did Mike Henderson become disabled?A.At the age of 25. | B.In 1968. |
C.At the age of 30. | D.In 1976. |
A.Depressed. | B.Experienced. |
C.Determined. | D.Delighted. |
A.How Patterson and Henderson overcame the difficulties together. |
B.How Patterson helped Henderson overcome the difficulties. |
C.How Patterson taught Henderson to fly with difficulty. |
D.The difficulties Henderson faced before flying. |
A.Patterson didn’t want to teach Henderson at first. |
B.Henderson finally succeeded in flying alone. |
C.Patterson was very strict with Henderson. |
D.Henderson went through a lot of difficulties. |
Zu Ti of the Jin Dynasty was a man who had with great ambition. When he was young, he had a good friend
One day, when they were sleeping. Zu Ti heard the rooster crowing (鸡鸣) . He woke up Liu Kun and said, “How about
The idiom “to rise with the rooster” teaches us that with ambition and hard work,
要求:
1、词数80左右;
2、可适当增加细节,以使行文连贯。
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Wearing a traditional Chinese qipao, conductor Nucrbana Yiming’s
In 2004, she
Before her graduation in 2009, she received an offer from the Xinjiang Art Theater. Bana has a deep understanding of her role in the theater: she considers herself as a bridge
Living in the shadow of my two elder sisters at college who already had their lives planned out since they were little, I was always undecided about everything. As a teenager, I was fickle (反复无常的). I would like one thing for a week and then hate it the next. But I was constantly searching for the beginning of the rainbow. Changing my dream from a vet to an astronaut, I thought there were various options available to me. However, my parents would shake their heads and repeatedly asked me such questions as, “Why can’t you be more like your sisters? What are you going to do with your life? Aren’t you interested in anything at all?” After a couple of shrugs (耸肩), my parents usually stopped talking. I was not sure if they gave up or anticipated my dull reactions. I often responded, “I couldn’t answer all of your questions now.”
Actually, my parents just had high expectations that never seemed to be fulfilled. Plus, like other parents, they just wanted to give the best to me and expected me to achieve success. The arguments with my parents seemed childish. One day, my mother made her thoughts clear, “Your grades aren’t high enough. No schools are going to want you, dear. We didn’t pay so much money for nothing.” Hesitating for a while, I said, “No matter what you say, I believe I will enter a good college.” Still, I let my emotions control myself.
Certainly, I had never planned not to go to college. After another debate with my mom, I decided to make a change. No longer would I sit back and let my parents mistake me for a bad boy. It was time to take action.
I knew it was a crucial year at high school. Releasing my feelings, I began to collect all the knowledge I had learned and review it with all my heart. I didn’t argue with my parents any more, but instead turned to my sisters for help and tried my best to study. Finally, I took the national college entrance examination with ease and confidence.
注意:
1. 续写词数应为150左右;
2. 请按如下格式在答题卡的相应位置作答。
A few days later, I received a call from my school, saying my college acceptance letter had arrived.
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My parents excitedly said behind me, “Well, open the envelop!”
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9 . Joseph Salmon, 17, was practising ice fishing with his mom on a lake in Iowa. Suddenly, Salmon saw a jeep, driven by an old man, Thomas Lee,
Then another young man waved at Lee and tried to
Things looked extremely
Finally, the rescue workers arrived. Lee was transported to a nearby hospital. Neither he nor his dog was injured while Salmon was only treated for a minor
A.fall | B.shake | C.show | D.push |
A.reason | B.strike | C.instant | D.error |
A.border | B.blackboard | C.street | D.shoreline |
A.drive | B.signal | C.return | D.explain |
A.at a loss | B.at no cost | C.in shame | D.in relief |
A.Therefore | B.Instead | C.Somehow | D.Otherwise |
A.reliable | B.promising | C.vague | D.urgent |
A.aggressive | B.anxious | C.patient | D.peaceful |
A.ship | B.pool | C.river | D.water |
A.handle | B.drag | C.break | D.purchase |
A.hesitated | B.sought | C.declined | D.regretted |
A.motionless | B.artificial | C.flexible | D.obvious |
A.held | B.took | C.washed | D.rushed |
A.mistake | B.scratch | C.procedure | D.resource |
A.fortunate | B.elegant | C.ridiculous | D.sensitive |
10 . Reshaping the world for a fossil fuel-free future means working quickly. Climate scientists say carbon emissions must stop by 2025 to minimize environmental damage. And by designing computational materials together with makers who can build and test them quickly, scientists can rapidly develop technologies like more powerful solar cells and car batteries.
Michael is the name of a supercomputer devoted to just one task―discovering the ultimate battery system. Researchers at University College London will use Michael to digitally build and test prototypes (原型) in every new material and type of cell possible to improve battery life, performance and price.
Finding a resilient (弹性的) design for solid-state batteries would be a huge breakthrough for electric vehicles and energy storage. Lighter, longer-lasting and cheaper solid-state technology could vastly improve vehicle range and charging time. And the energy from solar and wind power could be more efficiently stored until ready for use.
Scientists working in the US and the UK led the way in the 1970s in developing the lithium-ion (锂离子) battery used in today’s electric cars, laptops and cameras, But commercial units were only developed once the Japanese electronics giant pushed the technology forward for mass production. Partnerships between companies and universities could ultimately crack solid-state battery design. Oxford University and some companies are looking to win the international race to create a durable product. But they are only one among many.
Replacing liquid used in lithium-ion batteries with a solid conductor may take large digital processing. Electric vehicle makers are working with a computer giant to find successful designs that may include cheap and plentiful materials found in seawater. An electric vehicle maker is partnering with NASA to open a solid-state battery plant that uses no rare or expensive metals. The plan is to create a large database of materials that can be mixed and matched for the best combinations.
But computational materials may be needed in virtually every industry. And by rapidly classifying millions of substances on their ability to conduct electricity, their toughness, or the way they reflect light, AI and supercomputers can speed up the process of creating materials for just about anything.
1. What message does paragraph 1 convey?A.It’s too fast to design computational materials. |
B.It’s too late to reshape the fossil fuel-free world. |
C.Developing green energy can reduce carbon emissions. |
D.Developing technology can speed up carbon emissions. |
A.Heavy and solid. | B.Light but breakable. |
C.Less-costly and workable. | D.Expensive but efficient. |
A.To show the weakness of mass production. |
B.To show the good trend of the cooperation. |
C.To show the difficulty of the battery design. |
D.To show the development of British technology. |
A.Michael Is Devoted to Storing Solar Energy |
B.Companies and NASA Will Push Technology Forward |
C.Electric Vehicle Makers Are Struggling to Solve Air Pollution |
D.Supercomputers and AI Can Create Future Low-carbon Industries |