Scientists are attempting to extract (提取) cells from a 40,000-year-old horse in hope of using the sample to clone the extinct (灭绝的) species back into existence. The male baby horse was discovered in 2018 in permafrost (永冻土) in northeastern Siberia of Russia.
A team of scientists from South Korea and Russia believes the young horse, called the Lenskaya or Lena horse, was about 20 days old when it died. The species of horse, now extinct, is between 30,000 and 40,000 years old. Thanks to the terrible coldness, the animal’s tissue was preserved enough for the scientists to obtain samples.
Semyon Grigoriev, head of the lab at the Mammoth (猛犸象) Museum of the North-Eastern Federal University in Yakutsk, said the horse was “well - preserved” and a “great find”. There is no damage to the horse’s body and even its hair is undamaged. The unfortunate animal, according to Gngo-riev, “could have drowned after falling into some kind of a natural trap.”
Hwang Woo-suk, a researcher from South Korea working on the project, said, “If researchers find a cell, they will do their best to clone the animal. If we get live cells from this ancient baby horse, it would be wonderful in terms of cloning.”
After that, they will make a cloned embryo (胚胎) and a female horse carry it as its mother. Hwang said modern-day horses are “very similar to the ancient one,” so there would be no problem getting help from a modern-day female horse.
The scientists are hoping the experiment on the baby horse will give them experience in progressing toward their ambitious goal-bringing back the extinct woolly mammoth.
“If we manage to clone the horse-it will be the first step to cloning the mammoth.” Hwang said.
1.Why was the Lenskaya horse kept in good condition?
A.The temperatures were extremely low. B.It was buried under the ground.
C.Alocal museum had preserved it. D.It died quite young.
2.What do we know about the baby horse?
A.It was a female horse. B.It might have died by accident.
C.Its hair was partly destroyed. D.Its tissue can hardly be found.
3.What must the researchers do before cloning the extinct horse?
A.Know more about extinct ancient horses. B.Make an embryo i a female horse.
C.Find an ideal modern - day female horse. D.Get live cells from the baby horse.
4.What can be the best title for the text?
A.A new horse species found in Siberia B.How to preserve ancient animals’ tissues
C.Scientists attempt to clone extinct horse D.How to extract cells from extinct species
高二英语阅读理解中等难度题
Scientists are attempting to extract (提取) cells from a 40,000-year-old horse in hope of using the sample to clone the extinct (灭绝的) species back into existence. The male baby horse was discovered in 2018 in permafrost (永冻土) in northeastern Siberia of Russia.
A team of scientists from South Korea and Russia believes the young horse, called the Lenskaya or Lena horse, was about 20 days old when it died. The species of horse, now extinct, is between 30,000 and 40,000 years old. Thanks to the terrible coldness, the animal’s tissue was preserved enough for the scientists to obtain samples.
Semyon Grigoriev, head of the lab at the Mammoth (猛犸象) Museum of the North-Eastern Federal University in Yakutsk, said the horse was “well - preserved” and a “great find”. There is no damage to the horse’s body and even its hair is undamaged. The unfortunate animal, according to Gngo-riev, “could have drowned after falling into some kind of a natural trap.”
Hwang Woo-suk, a researcher from South Korea working on the project, said, “If researchers find a cell, they will do their best to clone the animal. If we get live cells from this ancient baby horse, it would be wonderful in terms of cloning.”
After that, they will make a cloned embryo (胚胎) and a female horse carry it as its mother. Hwang said modern-day horses are “very similar to the ancient one,” so there would be no problem getting help from a modern-day female horse.
The scientists are hoping the experiment on the baby horse will give them experience in progressing toward their ambitious goal-bringing back the extinct woolly mammoth.
“If we manage to clone the horse-it will be the first step to cloning the mammoth.” Hwang said.
1.Why was the Lenskaya horse kept in good condition?
A.The temperatures were extremely low. B.It was buried under the ground.
C.Alocal museum had preserved it. D.It died quite young.
2.What do we know about the baby horse?
A.It was a female horse. B.It might have died by accident.
C.Its hair was partly destroyed. D.Its tissue can hardly be found.
3.What must the researchers do before cloning the extinct horse?
A.Know more about extinct ancient horses. B.Make an embryo i a female horse.
C.Find an ideal modern - day female horse. D.Get live cells from the baby horse.
4.What can be the best title for the text?
A.A new horse species found in Siberia B.How to preserve ancient animals’ tissues
C.Scientists attempt to clone extinct horse D.How to extract cells from extinct species
高二英语阅读理解中等难度题查看答案及解析
The young lady,________seveal attempts to fix her cell phone,decided to have another try.
A.making B.having made C.to make D.to have made
高二英语单项填空简单题查看答案及解析
Many scientists are now exploring the idea of going to live on Mars. Some other scientists from the MASA AMES Center(美国宇航局) have already started the creation of a “Mars town” and many others are in fact already experimenting with it. Of course, these experiments are done on Earth itself but this “Mars town” has an environment practically like that of Mars.
The astronauts working in these towns wear their space suit and also do everything they would really have to carry out if they ever go to Mars in the future.
But Mars would be like Earth, a temporary(临时的) place for humans. When the Sun starts swallowing up(吞掉) the planets, Mars will disappear only hours after Earth. So Mars only seems to be the ideal place to spread the human beings. It is also a good location to send humans if ever there is a disaster on Earth. By saying disaster, I mean asteroids(小行星) hitting and things like that.
If we humans do not want to disappear when Earth or Mars gets swallowed up, we will have to go and live beyond the solar system. But are there any planets outside our solar system prepared to support life? Astronomers’ answer is:
“If Earth can support life, why can’t other planets do the same too? Astronomers have already discovered a Jupiter(木星)- like planet orbiting a Sun-like star, so why not an Earth-like planet orbiting a Sun-like star?
To achieve this goal though, many other problems have to be taken into consideration. How do we transform(改造) a dusty planet like Mars into one more or less like our Earth? How should we go on? There is still a long way to go.
1. The “Mars town” mentioned in the passage is ___________
A.a research base on Mars. |
B.an experimental lab built on Earth. |
C.a strange place on Mars . |
D.a town existing in scientists’ imagination |
2. We can know from the passage that astronomers probably think ____________
A.it is impossible to transport humans to other planets. |
B.there may be an Earth-like planet outside the solar system |
C.humans will move to the new-found Jupiter-like planet |
D.there’s no need for humans to move beyond the solar system. |
3.Why would Mars only be a temporary(临时) place for humans?
A.The conditions there would be too hard for the human beings |
B.There would be more disasters like asteroids hitting. |
C.It would disappear when Earth disappeared. |
D.It would be too hot to live on. |
4.The underlined word “orbiting” in the fifth paragraph is closest in meaning to “________”
A.moving around | B.getting close to |
C.passing by quickly | D.going through |
5.Which of the following would be the best title for this passage?
A.Mars Town | B.Living on Mars |
C.The Future of Earth | D.Where to live in the Future |
高二英语阅读理解中等难度题查看答案及解析
Batteries can power anything from small sensors to large systems. While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves. University of Missouri(MU) researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
“To provide enough power, we need certain methods with high energy density (密度)”,said Jae Kwon, assistant professor of electrical and computer engineering at MU. “The radioisotope (放射性同位素) battery can provide power density that is much higher than chemical batteries.”
Kwon and his research team have been working on building a small nuclear battery, presently the size and thickness of a penny, intended to power various micro/nanoelectromechanical systems (MNEMS). Although nuclear batteries can cause concerns, Kwon said they are safe.
“People hear the word ‘nuclear’ and think of something very dangerous,” he said, “However, nuclear power sources have already been safely powering a variety of devices, such as pace-makers, space satellites and underwater systems.”
His new idea is not only in the battery’s size, but also in its semiconductor(半导体). Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.
“The key part of using a radioactive battery is that when you harvest the energy, part of the radiation energy can damage the lattice structure(晶体结构) of the solid semiconductor,” Kwon said, “By using a liquid semiconductor, we believe we can minimize that problem.”
Together with J. David Robertson, chemistry professor and associate director of the MU Research Reactor, Kwon is working to build and test the battery, In the future, they hope to increase the battery’s power, shrink its size and try with various other materials. Kwon said that battery could be thinner than the thickness of human hair.
1.Which of the following is TRUE of Jae Kwon?
A. He developed a chemical battery.
B. He teaches chemistry at MU.
C. He made a breakthrough in computer engineering.
D. He is working on a nuclear energy source.
2.Liquid semiconductor is used to ________.
A. reduce the damage to lattice structure
B. test the power of nuclear batteries
C. decrease the size of nuclear batteries
D. get rid of the radioactive waste
3.According to Jae Kwon, his nuclear battery ________.
A. uses a solid semiconductor
B. will soon replace the present ones
C. could be extremely thin
D. has passed the final test
4.The text is most probably a ________.
A. book review
B. science news report
C. newspaper ad
D. science fiction story
高二英语阅读理解困难题查看答案及解析
Batteries can power anything from small sensors to large systems. While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves. University of Missouri(MU) researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
“To provide enough power, we need certain methods with high energy density(密度)”, said Jae Kwon, assistant professor of electrical and computer engineering at MU. “The radioisotope(放射性同位素) battery can provide power density that is much higher than chemical batteries.”
Kwon and his research team have been working on building a small nuclear battery, presently the size and thickness of a penny, intended to power various micro / nanoelectromechanical systems (M/NEMS). Although nuclear batteries can cause concerns, Kwon said they are safe.
“People hear the word ‘nuclear’ and think of something very dangerous,” he said, “However, nuclear power sources have already been safely powering a variety of devices, such as pace-makers, space satellites and underwater systems.”
His new idea is not only in the battery’s size, but also in its semiconductor(半导体). Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.
“The key part of using a radioactive battery is that when you harvest the energy, part of the radiation energy can damage the lattice structure of the solid semiconductor,” Kwon said, “By using a liquid semiconductor, we believe we can minimize that problem.”
Together with J. David Robertson, chemistry professor and associate director of the MU Research Reactor, Kwon is working to build and test the battery. In the future, they hope to increase the battery’s power, shrink its size and try with various other materials. Kwon said that battery could be thinner than the thickness of human hair.
1.Which of the following is true of Jae Kwon?
A. He teaches chemistry at MU.
B. He is working on a nuclear energy source.
C. He developed a chemical battery.
D. He made a breakthrough in computer engineering.
2.Jae Kwon gave examples in Paragraph 4_________.
A. to introduce nuclear batteries can be safely used
B. to show chemical batteries are widely applied
C. to introduce various energy sources
D. to describe a nuclear-powered system
3.Liquid semiconductor is used to _________.
A. get rid of the radioactive waste
B. test the power of nuclear batteries.
C. reduce the damage to lattice structure.
D. decrease the size of nuclear batteries
高二英语阅读理解中等难度题查看答案及解析
Batteries can power anything from small sensors to large systems. While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves. University of Missouri(MU) researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
“To provide enough power, we need certain methods with high energy density(密度)”,said Jae Kwon, assistant professor of electrical and computer engineering at MU. “The radioisotope(放射性同位素) battery can provide power density that is much higher than chemical batteries.”
Kwon and his research team have been working on building a small nuclear battery, presently the size and thickness of a penny, intended to power various micro/nanoelectromechanreal systems (M/NEMS). Although nuclear batteries can cause concerns, Kwon said they are safe.
“People hear the word ‘nuclear’ and think of something very dangerous,” he said, “However, nuclear power sources have already been safely powering a variety of devices, such as pace-makers, space satellites and underwater systems.”
His new idea is not only in the battery’s size, but also in its semiconductor(半导体). Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.
“The key part of using a radioactive battery is that when you harvest the energy, part of the radiation energy can damage the lattice structure(晶体结构) of the solid semiconductor,” Kwon said, “By using a liquid semiconductor, we believe we can minimize that problem.”
Together with J. David Robertson, chemistry professor and associate director of the MU Research Reactor, Kwon is working to build and test the battery. In the future, they hope to increase the battery’s power, shrink its size and try with various other materials. Kwon said that battery could be thinner than the thickness of human hair.
1.Which of the following is true of Jae Kwon?
A.He teaches chemistry at MU. |
B.He developed a chemical battery. |
C.He is working on a nuclear energy source. |
D.He made a breakthrough in computer engineering. |
2. Jae Kwon gave examples in Paragraph 4_________.
A.to show chemical batteries are widely applied. |
B.to introduce nuclear batteries can be safely used. |
C.to describe a nuclear-powered system. |
D.to introduce various energy sources. |
3.Liquid semiconductor is used to _________.
A.get rid of the radioactive waste | B.test the power of nuclear batteries. |
C.decrease the size of nuclear batteries | D.reduce the damage to lattice structure. |
4.According to Jae Kwon, his nuclear battery _______.
A.uses a solid semiconductor | B.will soon replace the present ones. |
C.could be extremely thin | D.has passed the final test. |
5.The text is most probably a ________.
A.science news report | B.book review |
C.newspaper ad | D.science fiction story |
高二英语阅读理解简单题查看答案及解析
Batteries can power anything from small sensors to large systems. While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves. University of Missouri(MU) researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
“To provide enough power, we need certain methods with high energy density(密度)”,said Jae Kwon, assistant professor of electrical and computer engineering at MU. “The radioisotope(放射性同位素) battery can provide power density that is much higher than chemical batteries.”
Kwon and his research team have been working on building a small nuclear battery, presently the size and thickness of a penny, intended to power various micro/nanoelectromechanreal systems (M/NEMS). Although nuclear batteries can cause concerns, Kwon said they are safe.
“People hear the word ‘nuclear’ and think of something very dangerous,” he said, “However, nuclear power sources have already been safely powering a variety of devices, such as pace-makers, space satellites and underwater systems.”
His new idea is not only in the battery’s size, but also in its semiconductor(半导体). Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.
“The key part of using a radioactive battery is that when you harvest the energy, part of the radiation energy can damage the lattice structure(晶体结构) of the solid semiconductor,” Kwon said, “By using a liquid semiconductor, we believe we can minimize that problem.”
Together with J. David Robertson, chemistry professor and associate director of the MU Research Reactor, Kwon is working to build and test the battery. In the future, they hope to increase the battery’s power, shrink its size and try with various other materials. Kwon said that battery could be thinner than the thickness of human hair.
1. Which of the following is true of Jae Kwon?
A. He teaches chemistry at MU.
B. He developed a chemical battery.
C. He is working on a nuclear energy source.
D. He made a breakthrough in computer engineering.
2.Jae Kwon gave examples in Paragraph 4_________.
A. to show chemical batteries are widely applied.
B. to introduce nuclear batteries can be safely used.
C. to describe a nuclear-powered system.
D. to introduce various energy sources.
3. Liquid semiconductor is used to _________.
A. get rid of the radioactive waste
B. test the power of nuclear batteries.
C. decrease the size of nuclear batteries
D. reduce the damage to lattice structure.
4. According to Jae Kwon, his nuclear battery _______.
A. uses a solid semiconductor B. will soon replace the present ones.
C. could be extremely thin D. has passed the final test.
5. The text is most probably a ________.
A. science news report B. book review
C. newspaper ad D. science fiction story
高二英语阅读理解中等难度题查看答案及解析
Batteries can power anything from small sensors to large systems.While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves.University of Missouri(MU) researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
“To provide enough power, we need certain methods with high energy density(密度)”,said Jae Kwon, assistant professor of electrical and computer engineering at MU.“The radioisotope(放射性同位素) battery can provide power density that is much higher than chemical batteries.”
Kwon and his research team have been working on building a small nuclear battery, presently the size and thickness of a penny, intended to power various micro / nanoelectromechanical systems (M/NEMS).Although nuclear batteries can cause concerns, Kwon said they are safe.
“People hear the word ‘nuclear’ and think of something very dangerous,” he said, “However, nuclear power sources have already been safely powering a variety of devices, such as pace-makers, space satellites and underwater systems.”
His new idea is not only in the battery’s size, but also in its semiconductor(半导体).Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.
“The key part of using a radioactive battery is that when you harvest the energy, part of the radiation energy can damage the lattice structure(晶体结构) of the solid semiconductor,” Kwon said, “By using a liquid semiconductor, we believe we can minimize that problem.”
Together with J.David Robertson, chemistry professor and associate director of the MU Research Reactor, Kwon is working to build and test the battery.In the future, they hope to increase the battery’s power, shrink its size and try with various other materials.Kwon said that battery could be thinner than the thickness of human hair.
1.Jae Kwon gave examples in Paragraph 4_________.
A.to show chemical batteries are widely applied.
B.to introduce nuclear batteries can be safely used.
C.to describe a nuclear-powered system.
D.to introduce various energy sources.
2.According to Jae Kwon, his nuclear battery _______.
A.uses a solid semiconductor
B.will soon replace the present ones.
C.could be extremely thin
D.has passed the final test.
3.The text is most probably a ________.
A.science news report B.book review
C.newspaper ad D.science fiction
高二英语阅读理解中等难度题查看答案及解析
Batteries can power anything from small sensors to large systems.While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves.University of Missouri(MU) researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
“To provide enough power, we need certain methods with high energy density(密度)”,said Jae Kwon, assistant professor of electrical and computer engineering at MU.“The radioisotope(放射性同位素) battery can provide power density that is much higher than chemical batteries.”
Kwon and his research team have been working on building a small nuclear battery, presently the size and thickness of a penny, intended to power various micro / nanoelectromechanical systems (M/NEMS).Although nuclear batteries can cause concerns, Kwon said they are safe.
“People hear the word ‘nuclear’ and think of something very dangerous,” he said, “However, nuclear power sources have already been safely powering a variety of devices, such as pace-makers, space satellites and underwater systems.”
His new idea is not only in the battery’s size, but also in its semiconductor(半导体).Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.
“The key part of using a radioactive battery is that when you harvest the energy, part of the radiation energy can damage the lattice structure(晶体结构) of the solid semiconductor,” Kwon said, “By using a liquid semiconductor, we believe we can minimize that problem.”
Together with J.David Robertson, chemistry professor and associate director of the MU Research Reactor, Kwon is working to build and test the battery.In the future, they hope to increase the battery’s power, shrink its size and try with various other materials.Kwon said that battery could be thinner than the thickness of human hair.
1.Jae Kwon gave examples in Paragraph 4_________.
A.to show chemical batteries are widely applied.
B.to introduce nuclear batteries can be safely used.
C.to describe a nuclear-powered system.
D.to introduce various energy sources.
2.According to Jae Kwon, his nuclear battery _______.
A.uses a solid semiconductor B.will soon replace the present ones.
C.could be extremely thin D.has passed the final test.
3.The text is most probably a ________.
A.science news report B.book review
C.newspaper ad D.science fiction
高二英语阅读理解中等难度题查看答案及解析
All their attempts to rescue the child from the burning building were _____.
He died soon afterwards.
A. in place B. in return C. in vain D. in order
高二英语单项填空简单题查看答案及解析