A team of engineers1.(create)a super-thin material that could help keep buildings cool.The team developed the revolutionary new material,2.is very thin and can cool objects even under direct sunlight.The material does not need energy to work3.does it need water to help keep things cool.The engineers say4.new material could provide an answer to air conditioners,which are expensive5.(run).The material is unlike anything6.(find) in nature.It is just 50 micrometers thick.That's slightly7.(thick) than the aluminum foil(锡箔纸)we use for cooking.
The engineers explained how their new material works.They said when it is put on top of something,two things happen.It cools the object underneath by8.(reflect) the sun's rays back into space.At the same time,the material removes the object's own heat and sends that into the air.An engineer said:"We're excited about the opportunity to explore potential uses in different scientific9.(field)."Another researcher said:"Just 10 to 20 square meters of this material on the rooftop could10.(nice) cool down a house in summer."
高三英语短文填空中等难度题
A team of engineers1.(create)a super-thin material that could help keep buildings cool.The team developed the revolutionary new material,2.is very thin and can cool objects even under direct sunlight.The material does not need energy to work3.does it need water to help keep things cool.The engineers say4.new material could provide an answer to air conditioners,which are expensive5.(run).The material is unlike anything6.(find) in nature.It is just 50 micrometers thick.That's slightly7.(thick) than the aluminum foil(锡箔纸)we use for cooking.
The engineers explained how their new material works.They said when it is put on top of something,two things happen.It cools the object underneath by8.(reflect) the sun's rays back into space.At the same time,the material removes the object's own heat and sends that into the air.An engineer said:"We're excited about the opportunity to explore potential uses in different scientific9.(field)."Another researcher said:"Just 10 to 20 square meters of this material on the rooftop could10.(nice) cool down a house in summer."
高三英语短文填空中等难度题查看答案及解析
A team of engineers 1.(create)a super-thin material that could help keep buildings cool. The team developed the revolutionary new material, 2.is very thin and can cool objects even under direct sunlight. The material does not need energy to work3.does it need water to help keep things cool. The engineers say4.new material could provide an answer to air conditioners, which are expensive 5.(run). The material is unlike anything 6.(find) in nature. It is just 50 micrometers thick. That's slightly 7.(thick) than the aluminum foil(锡箔纸) we use for cooking.
The engineers explained how their new material works. They said when it is put on top of something, two things happen. It cools the object underneath by 8.(reflect) the sun's rays back into space. At the same time, the material removes the object's own heat and sends that into the air. An engineer said: "We're excited about the opportunity to explore potential uses in different scientific 9.(field)." Another researcher said: "Just 10 to 20 square meters of this material on the rooftop could 10.(nice) cool down a house in summer."
高三英语短文填空中等难度题查看答案及解析
Team Building
Almost no one can get away from “teams” that are supposed to be able to create something that is greater than the sum of its parts. There are five measures that need to be taken before you can get the most out of a team:
1.
There must be a clear reason for the team to exist. And all the members should realize the value and significance of their functions. What they are hoping to achieve should be something achievable but at the same time tough and inspiring enough to attract the members and keep their motivation alive.
Open Communication
2. For example, they may discuss a sensitive topic. Should they keep their conclusion within the team or share it with other employees? In the case, any individual voice is by no means a sure thing. So an honest discussion is expected to make sure all the members agree on.
Respect to All Team Members
It is easy to think that a junior team member may have less to contribute than more experienced ones. 3. People that have nothing to contribute should not have been selected for the team in the first place. Since they have become members of your team, you need to make sure that each of them has an opportunity to add his or her thoughts to discussions.
Conflict Solving
Disagreements are natural and, in fact, heated debate should be encouraged. 4. Consequently, there should be rules on how lengthy disagreements should be handled. For example, team meetings may not be the most appropriate place for a dispute that involves only two people, so “under-the-table” method may be effective.
Leadership
5. A good organizer should be able to play to individuals’ strengths and help them overcome their weaknesses. He must be skilled in motivating people, sharing responsibility and providing constructive feedback on how the tasks went. Successful team working is marked by how confidently each of its members completes his or her assigned tasks with a sense of achievement and pride.
A.Measuring Progress against Goals.
B.Common Goals with Challenging Target.
C.Most high-performing teams are well organized.
D.This is not only discouraging, it also makes no sense.
E.A team made up only of “yes men” can make disastrous decisions.
F.Choose a role on the team that is best suited to your particular strengths.
G.Team members must be able to express their opinions freely without fear of being criticized.
高三英语七选五中等难度题查看答案及解析
Traditionally, robots have been hard, made of metal and other rigid material. But a team of scientists at Harvard University in the US has managed to build an entirely soft robot-one that draws inspiration from an octopus (章鱼).
Described in science journal Nature, the “Octobot” could pave the way for more effective autonomous robots that could be used in search,rescue and exploration. “The Octobot is minimal system which may serve as a foundation for a new generation of completely soft, autonomous robots” the study’s authors wrote.
Robots built for precise, repetitive movements in a controlled environment don’t do so well on rough terrains (地形) or in unpredictable conditions. And they aren’t especially safe around humans, because they’re made out of hard and heavy parts that could be potentially dangerous to their users.
So researchers have been working on building soft robots for decades. They’re taken inspiration from nature, looking to animals from jellyfish to cockroaches, which are often made up of more flexible matter.
But creating a completely soft robot remains a challenge. Even if engineers build a silicone (硅酮) body, it’s still a grand challenge to construct flexible versions of essential parts, such as a source of power.
“Although soft robotics is still in its early stage, it holds great promise for several applications, such as search-rescue operations and exploration,” Barbara Mazzolai and Virgilio Mattoli of the Italian Institute of Technology’ Center for Micro-BioRobotics, wrote in a comment. “Soft robots might also open up new approaches to improving wellness and quality of life.”
1.What’s the special feature of “Octobot”?
A.It’s soft. B.It’s made of metal.
C.It’s very small. D.It looks like an octopus.
2.What’s the disadvantage of traditional robots?
A.They’re hard to control. B.They’re too heavy to move.
C.They can’t predict conditions. D.They can’t behave well all the time.
3.One of the biggest challenges is to build Octobot’s ________.
A.silicone body B.complex components
C.precise movements D.flexible power source
4.What’s the possible application of “Octobot”?
A.Medical research. B.Life rescue.
C.Machine operation. D.House cleaning.
高三英语阅读理解中等难度题查看答案及解析
Traditionally, robots have been hard, made of metal and other rigid material: But a team of scientists at Harvard University in the US has managed to build an entirely soft robot-one that draws inspiration from an octopus (章鱼).
Described in science journal Nature, the “Octobot” could pave the way for more effective autonomous robots that could be used in search,rescue and exploration. “The Octobot is minimal system which may serve as a foundation for a new generation of completely soft, autonomous robots” the study’s authors wrote.
Robots built for precise, repetitive movements in a controlled environment don’t do so well on rough terrains (地形) or in unpredictable conditions. And they aren’t especially safe around humans, because they’re made out of hard and heavy parts that could be potentially dangerous to their users.
So researchers have been working on building soft robots for decades. They’re taken inspiration from nature, looking to animals from jellyfish to cockroaches, which are often made up of more flexible matter.
But creating a completely soft robot remains a challenge. Even if engineers build a silicone (硅酮) body, it’s still a grand challenge to construct flexible versions of essential parts, such as a source of power.
“Although soft robotics is still in its early stage, it holds great promise for several applications, such as search-rescue operations and exploration,” Barbara Mazzolai and Virgilio Mattoli of the Italian Institute of Technology’ Center for Micro-BioRobotics, wrote in a comment. “Soft robots might also open up new approaches to improving wellness and quality of life.”
1.What’s the special feature of “Octobot”?
A. It’s soft. B. It’s made of metal.
C. It’s very small. D. It looks like an octopus.
2.What’s the disadvantage of traditional robots?
A. They’re hard to control. B. They’re too heavy to move.
C. They can’t predict conditions. D. They can’t behave well all the time.
3.One of the biggest challenges is to build Octobot’s ________.
A. silicone body B. complex components
C. precise movements D. flexible power source
4.What can we infer about the application of “Octobot”?
A. It has been used in various fields
B. It has not been put into use on a large scale.
C. It has been used in the field of rescue
D. It has not been improved yet .
高三英语阅读理解中等难度题查看答案及解析
Ever wondered whether punishment actually makes people cooperate (合作)? A team of scientists created an experiment to figure it out and the results were pretty unexpected.
To understand what they found, you have to know why these scientists were studying punishment. They were trying to figure out why people cooperate when it’s often so easy to profit at others expense. Why don’t friends steal from each other? Why do parents bother to feed their children? If the answer to these questions is obvious to you, congratulations, you are ahead of scientists. They’re still trying to figure it out.
In this experiment, researchers had 225 Chinese students play a game, where if the students cooperated, they’d all get a number of points. But if one defected (变节) and everyone else cooperated, the defector would get a lot of points, and the cooperators would lose out. This game represents a lot of real life situations where you struggle with a decision: work together and do OK, or run off with the rewards, ruining everybody else’s day.
This is actually a pretty ordinary economic experiment. But the researchers added two changes to see if they could mimic(糢拟〉the real world better. Change one: some students played many rounds together, so they’d learn who they could trust. Change two: people could punish each other, sacrificing a point or two to destroy another player’s score.
In the end, the researchers found that playing multiple rounds made people cooperate more, which definitely mimics human society. But the whole punishment thing led to a surprise: punishing didn’t actually make people cooperate more. In fact, it made them cooperate less.
So the scientists still don’t know why people cooperate, though it looks like it has more to do with groups sticking together than it does with punishment.
1.What does the underlined word “it” in Paragraph 2 refer to?
A. Why friends don’t steal from each other.
B. Why researchers are studying punishment.
C. Why people always profit at others’ expense.
D. Why people cooperate rather than take advantage of others.
2.What happened to a defector in the experiment?
A. He lost out. B. He benefited more.
C. He got punished. D. He became the leader.
3.What conclusion is drawn from the experiment?
A. Punishing helps people realize their mistakes.
B. Cooperating is a win-win policy to all.
C. Punishment won’t work as expected.
D. People who choose to cooperate are selfless.
4.What might be the best title for the text?
A. Does punishing people actually work?
B. Why is punishment applied to cooperation?
C. How can punishment contribute to cooperation?
D. What is the best way to make punishment effective?
高三英语阅读理解中等难度题查看答案及解析
A team of engineers at Harvard University has been inspired by Nature to create the first robotic fly. The mechanical fly has become a platform for a series of new high-tech integrated systems. Designed to do what a fly does naturally, the tiny machine is the size of a fat housefly. Its mini wings allow it to stay in the air and perform controlled flight tasks.
“It’s extremely important for us to think about this as a whole system and not just the sum of a bunch of individual components (元件),” said Robert Wood, the Harvard engineering professor who has been working on the robotic fly project for over a decade. A few years ago, his team got the go-ahead to start piecing together the components. “The added difficulty with a project like this is that actually none of those components are off the shelf and so we have to develop them all on our own,” he said.
They engineered a series of systems to start and drive the robotic fly. “The seemingly simple system which just moves the wings has a number of interdependencies on the individual components, each of which individually has to perform well, but then has to be matched well to everything it’s connected to,” said Wood. The flight device was built into a set of power, computation, sensing and control systems. Wood says the success of the project proves that the flying robot with these tiny components can be built and manufactured.
While this first robotic flyer is linked to a small, off-board power source, the goal is eventually to equip it with a built-in power source, so that it might someday perform data-gathering work at rescue sites, in farmers’ fields or on the battlefield. “Basically it should be able to take off, land and fly around,” he said.
Wood says the design offers a new way to study flight mechanics and control at insect-scale. Yet, the power, sensing and computation technologies on board could have much broader applications. “You can start thinking about using them to answer open scientific questions, you know, to study biology in ways that would be difficult with the animals, but using these robots instead,” he said. “So there are a lot of technologies and open interesting scientific questions that are really what drives us on a day to day basis.”
1.The robotic fly project has been conducted __________.
A. just by accident
B. within a decade
C. just by a professor
D. for more than ten years
2.The difficulty the team of engineers met with while making the robotic fly was that __________.
A. they had no model in their mind
B. they did not have sufficient time
C. they had no ready-made components
D. they could not assemble the components
3.Which of the following can be learned from the passage?
A. The robotic flyer is designed to learn about insects.
B. Animals are not allowed in biological experiments.
C. There used to be few ways to study how insects fly.
D. Wood’s design can replace animals in some experiments.
4.Which of the following might be the best title of the passage?
A. Father of Robotic Fly
B. Inspiration from Engineering Science
C. Robotic Fly Imitates Real Life Insect
D. Harvard Breaks Through in Insect Study
高三英语阅读理解中等难度题查看答案及解析
A team of engineers at Harvard University has been inspired by Nature to create the first robotic fly. The mechanical fly has become a platform for a series of new high-tech integrated systems. Designed to do what a fly does naturally, the tiny machine is the size of a fat housefly. Its mini wings allow it to stay in the air and perform controlled flight tasks.
“It’s extremely important for us to think about this as a whole system and not just the sum of a bunch of individual components (元件),” said Robert Wood, the Harvard engineering professor who has been working on the robotic fly project for over a decade. A few years ago, his team got the go-ahead to start piecing together the components. “The added difficulty with a project like this is that actually none of those components are off the shelf and so we have to develop them all on our own,” he said.
They engineered a series of systems to start and drive the robotic fly. “The seemingly simple system which just moves the wings has a number of interdependencies on the individual components, each of which individually has to perform well, but then has to be matched well to everything it’s connected to,” said Wood. The flight device was built into a set of power, computation, sensing and control systems. Wood says the success of the project proves that the flying robot with these tiny components can be built and manufactured.
While this first robotic flyer is linked to a small, off-board power source, the goal is eventually to equip it with a built-in power source, so that it might someday perform data-gathering work at rescue sites, in farmers’ fields or on the battlefield. “Basically it should be able to take off, land and fly around,” he said.
Wood says the design offers a new way to study flight mechanics and control at insect-scale. Yet, the power, sensing and computation technologies on board could have much broader applications. “You can start thinking about using them to answer open scientific questions, you know, to study biology in ways that would be difficult with the animals, but using these robots instead,” he said. “So there are a lot of technologies and open interesting scientific questions that are really what drives us on a day to day basis.”
1.The difficulty the team of engineers met with while making the robotic fly was that ________.
A. they had no model in their mind
B. they did not have sufficient time
C. they had no ready-made components
D. they could not assemble the components
2.It can be inferred from paragraphs 3 and 4 that the robotic fly ________.
A. consists of a flight device and a control system
B. can just fly in limited areas at the present time
C. can collect information from many sources
D. has been put into wide application
3.Which of the following can be learned from the passage?
A. The robotic flyer is designed to learn about insects.
B. Animals are not allowed in biological experiments.
C. There used to be few ways to study how insects fly.
D. Wood’s design can replace animals in some experiments.
4.Which of the following might be the best title of the passage?
A. Father of Robotic Fly
B. Inspiration from Engineering Science
C. Robotic Fly Imitates Real Life Insect
D. Harvard Breaks Through in Insect Study
高三英语阅读理解中等难度题查看答案及解析
A team of engineers at Harvard University has been inspired by Nature to create the first robotic fly. The mechanical fly has become a platform for a series of new high-tech integrated systems. Designed to do what a fly does naturally, the tiny machine is the size of a fat housefly. Its mini wings allow it to stay in the air and perform controlled flight tasks.
“It’s extremely important for us to think about this as a whole system and not just the sum of a bunch of individual components,” said Robert Wood, the Harvard engineering professor who has been working on the robotic fly project for over a decade. A few years ago, his team got the go-ahead to start piecing together the components. “The added difficulty with a project like this is that actually none of those components are off the shelf and so we have to develop them all on our own,” he said.
They engineered a series of systems to start and drive the robotic fly. “The seemingly simple system which just moves the wings has a number of interdependencies on the individual components, each of which individually has to perform well, but then has to be matched well to everything it’s connected to,” said Wood. The flight device was built into a set of power, computation, sensing and control systems. Wood says the success of the project proves that the flying robot with these tiny components can be built and manufactured.
While this first robotic flyer is linked to a small, off-board power source, the goal is eventually to equip it with a built-in power source, so that it might someday perform data-gathering work at rescue sites, in farmers’ fields or on the battlefield. “Basically, it should be able to take off, land and fly around,” he said.
Wood says the design offers a new way to study flight mechanics and control at insect-scale. Yet, the power, sensing and computation technologies on board could have much broader applications. “You can start thinking about using them to answer open scientific questions, you know, to study biology in ways that would be difficult with the animals, but using these robots instead,” he said. “So there are a lot of technologies and open interesting scientific questions that are really what drives us on a day to day basis.”
1.Which of the following statements was the difficulty engineers met while making the robotic fly?
A.They did not have sufficient fund.
B.No ready-made components were available.
C.There was no model in their mind.
D.It was hard for them to assemble the components.
2.What can be inferred from paragraphs 3 and 4?
A.The robotic fly has been put into wide application.
B.The robotic fly consists of a flight device and a control system.
C.Information from many sources can be collected by the robotic fly.
D.The robotic fly can just fly in limited areas at present.
3.Which of the following can be learned from the passage?
A.Wood’s design can replace animals in some experiments.
B.Animals are not allowed in biological experiments.
C.The robotic flyer is designed to learn about insects.
D.There used to be few ways to study how insects fly.
4.Which of the following might be the best title of the passage?
A.The Development of Robotic Fly
B.Robotic Fly Promotes Engineering Science
C.Harvard’s Efforts in Making Robotic Fly
D.Robotic Fly Imitates Real Life Insect
高三英语阅读理解中等难度题查看答案及解析
A team of engineers at Harvard University has been inspired by Nature to create the first robotic fly. The mechanical fly has become a platform for a series of new high-tech integrated systems. Designed to do what a fly does naturally, the tiny machine is the size of a fat housefly. Its mini wings allow it to stay in the air and perform controlled flight tasks.
“It’s extremely important for us to think about this as a whole system and not just the sum of a bunch of individual components (元件),” said Robert Wood, the Harvard engineering professor who has been working on the robotic fly project for over a decade. A few years ago, his team got the go-ahead to start piecing together the components. “The added difficulty with a project like this is that actually none of those components are off the shelf and so we have to develop them all on our own,” he said.
They engineered a series of systems to start and drive the robotic fly. “The seemingly simple system which just moves the wings has a number of interdependencies on the individual components, each of which individually has to perform well, but then has to be matched well to everything it’s connected to,” said Wood. The flight device was built into a set of power, computation, sensing and control systems. Wood says the success of the project proves that the flying robot with these tiny components can be built and manufactured.
While this first robotic flyer is linked to a small, off-board power source, the goal is eventually to equip it with a built-in power source, so that it might someday perform data-gathering work at rescue sites, in farmers’ fields or on the battlefield. “Basically it should be able to take off, land and fly around,” he said.
Wood says the design offers a new way to study flight mechanics and control at insect-scale. Yet, the power, sensing and computation technologies on board could have much broader applications. “You can start thinking about using them to answer open scientific questions, you know, to study biology in ways that would be difficult with the animals, but using these robots instead,” he said. “So there are a lot of technologies and open interesting scientific questions that are really what drives us on a day to day basis.”
1.The difficulty the team of engineers met with while making the robotic fly was that __________.
A.they had no model in their mind
B.they did not have sufficient time
C.they had no ready-made components
D.they could not assemble the components
2.It can be inferred from paragraphs 3 and 4 that the robotic fly __________.
A.consists of a flight device and a control system
B.can just fly in limited areas at the present time
C.can collect information from many sources
D.has been put into wide application
3.Which of the following can be learned from the passage?
A.The robotic flyer is designed to learn about insects.
B.Animals are not allowed in biological experiments.
C.There used to be few ways to study how insects fly.
D.Wood’s design can replace animals in some experiments.
4.Which of the following might be the best title of the passage?
A.Father of Robotic Fly
B.Inspiration from Engineering Science
C.Robotic Fly Imitates Real Life Insect
D.Harvard Breaks Through in Insect Study
高三英语阅读理解中等难度题查看答案及解析