____ a kind of everlasting energy, solar energy may be the solution to our crisis.
A. Because B. Since C. As D. With
1) Vietnam's population ....80 million in 2004.
A. reduced B. increased C. reached D. rose
2) The air .....the earth is becoming thinner.
A. surrounding B. rounding C. involving D. floating
3) Mercury is the smallest among the planets .....the sun .
A.of B. for C. with D. on
4) ......a kind of everlasting energy,solar energy may be the sollution to our crisis.
A. because B. since C. as D. with
5) students ..... universities may have many difficulties in finding good study method.
A. enter B. entering C. that enter D. who enter
6) Your house has ..... nice furnitủe.
A. such B. such a C. so D. towards
7) He was ....he could not wake up.
A. very tired that B. such tired that C. too tired that D. so tired that
8) I.....my house ........That is why there is all this mess.
A.had - paint B. have - paint C. am having - painted D.had had - paint
1) Vietnam's population ....80 million in 2004.
A. reduced B. increased C. reached D. rose
2) The air .....the earth is becoming thinner.
A. surrounding B. rounding C. involving D. floating
3) Mercury is the smallest among the planets .....the sun .
A.of B. for C. with D. on
4) ......a kind of everlasting energy,solar energy may be the sollution to our crisis.
A. because B. since C. as D. with
5) students ..... universities may have many difficulties in finding good study method.
A. enter B. entering C. that enter D. who enter
6) Your house has ..... nice furnitủe.
A. such B. such a C. so D. towards
7) He was ....he could not wake up.
A. very tired that B. such tired that C. too tired that D. so tired that
8) I.....my house ........That is why there is all this mess.
A.had - paint B. have - paint C. am having - painted D.had had - paint
Read the following passage and mark the letter A, B, C or D on your answer sheet to indicate the correct answer to each of the following questions.
PHOTOSYNTHESIS
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
Advances in Photosynthesis and Respiration, Hardback.1990.
It can be inferred from the passage that the author considers solar energy to be ______.
A. a perfect solution to the energy problem
B. a permanent and everlasting source of energy
C. useless to most bacteria and algae
D. essential for every organism on earth
Kiến thức: Đọc hiểu
Giải thích:
Có thể suy ra từ đoạn văn tác giả coi năng lượng mặt trời là ______.
A. một giải pháp hoàn hảo cho vấn đề năng lượng
B. một nguồn năng lượng vĩnh viễn và vĩnh cửu
C. vô dụng với hầu hết các vi khuẩn và tảo
D. cần thiết cho mọi sinh vật trên trái đất
Thông tin: Almost all living things ultimately get their energy from the sun.
Tạm dịch: Hầu như tất cả các sinh vật sống về cơ bản nhận năng lượng từ mặt trời.
Chọn D
* Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 24 to 30.
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
(Hooked on TOEFL Reading - LinguaForum
It can be inferred from the passage that the author considers solar energy to be_________.
A. useless to most bacteria and algae
B. a permanent and everlasting source of energy
C. a perfect solution to the energy problem
D. essential for every organism on earth
Câu đề bài: Ta có thể suy ra từ đoạn văn rằng tác giả coi năng lượng mặt trời là _________ .
Đáp án D: cần thiết cho mọi sinh vật trên trái đất Các đáp án còn lại:
A. Vô dụng với hầu hết vi khuẩn và tảo
B. Nguồn năng lượng lâu dài và vĩnh cửu
C. Một giải pháp hoàn hảo cho vấn đề năng lượng
Thông tin trong bài:
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply. - Quá trình quang hợp bắt đầu khi năng lượng mặt trời được hấp thụ bởi các hóa chất gọi là sắc tố quang hợp được chứa trong một sinh vật. Ngoài ra, quang hợp tạo ra khí oxy. Tất cả khí oxy trên trái đất, cả trong khí quyển chúng ta hít thở và trong đại dương, được sinh ra bởi các sinh vật quang hợp. Quang hợp liên tục bổ sung nguồn cung cấp oxy của trái đất
* Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 24 to 30.
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
(Hooked on TOEFL Reading - LinguaForum)
It can be inferred from the passage that the author considers solar energy to be_________.
A. useless to most bacteria and algae
B. a permanent and everlasting source of energy
C. a perfect solution to the energy problem
D. essential for every organism on earth
ĐÁP ÁN D
Câu đề bài: Ta có thể suy ra từ đoạn văn rằng tác giả coi năng lượng mặt trời là _________ .
Đáp án D: cần thiết cho mọi sinh vật trên trái đất Các đáp án còn lại:
A. Vô dụng với hầu hết vi khuẩn và tảo
B. Nguồn năng lượng lâu dài và vĩnh cửu
C. Một giải pháp hoàn hảo cho vấn đề năng lượng
Thông tin trong bài:
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply. - Quá trình quang hợp bắt đầu khi năng lượng mặt trời được hấp thụ bởi các hóa chất gọi là sắc tố quang hợp được chứa trong một sinh vật. Ngoài ra, quang hợp tạo ra khí oxy. Tất cả khí oxy trên trái đất, cả trong khí quyển chúng ta hít thở và trong đại dương, được sinh ra bởi các sinh vật quang hợp. Quang hợp liên tục bổ sung nguồn cung cấp oxy của trái đất
Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 24 to 30.
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
It can be inferred from the passage that the author considers solar energy to be_________.
A. useless to most bacteria and algae
B. a permanent and everlasting source of energy
C. a perfect solution to the energy problem
D. essential for every organism on earth
Chọn D
Câu đề bài: Ta có thể suy ra từ đoạn văn rằng tác giả coi năng lượng mặt trời là _________ .
Đáp án D: cần thiết cho mọi sinh vật trên trái đất Các đáp án còn lại:
A. Vô dụng với hầu hết vi khuẩn và tảo
B. Nguồn năng lượng lâu dài và vĩnh cửu
C. Một giải pháp hoàn hảo cho vấn đề năng lượng
Thông tin trong bài:
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply. - Quá trình quang hợp bắt đầu khi năng lượng mặt trời được hấp thụ bởi các hóa chất gọi là sắc tố quang hợp được chứa trong một sinh vật. Ngoài ra, quang hợp tạo ra khí oxy. Tất cả khí oxy trên trái đất, cả trong khí quyển chúng ta hít thở và trong đại dương, được sinh ra bởi các sinh vật quang hợp. Quang hợp liên tục bổ sung nguồn cung cấp oxy của trái đất
SOLAR ENERGY
Sunlight carries huge amounts of energy. You can feel the Sun’s energy when sunlight warms your skin on a summer day. To capture the Sun’s energy, scientists have developed solar cells, called photovoltaic cells. These cells convert sunlight into electricity. When sunlight hits a solar cell, some of the light energy is absorbed. This light energy causes the particles in the solar cell to move faster, and the movement of these particles creates electricity.
In some places, large panels of solar cells harvest sunshine to make electricity for homes and businesses. Solar cells have been placed on cars and appliances, too. Since the Sun sends abundant free energy streaming toward Earth 24 hours a day, people in many parts of the world, not just the sunniest places, have fixed solar cells and solar panels on the roofs of their houses or businesses to lower their energy costs. Experts say that the huge installation of solar panels in sunny regions could generate enough electricity to supply an entire country. Capturing this energy can help overcome our diminishing energy supply. New ways to capture this energy are being developed an the time to maximize efficiency.
1. What is the source of solar energy?
a. sunlight b. photovoltaic cells c. solar panels d. electricity
2. Solar cells are used __________
a. to collect energy from the sun b. to provide sunlight to houses
c. to convert sunlight into electricity d. both a and c are correct
3. Which of the following statements is true?
a. Solar cells absorb all of the light energy from the sun.
b. The light energy causes the particles to move faster to make electricity.
c. Solar energy can be used to power homes and businesses only.
d. Large solar panels have been placed on cars and appliances.
4. As used in line 9, ‘abundant’ most nearly means .
a. Unlimited b. dangerous c. plentiful d. clean
5. Where have people fixed solar panels?
a. In the sunniest places b. Anywhere outside their houses
c. Inside their houses d. On the roofs of their houses
6. As used in line 14, ‘diminishing’ most nearly means .
a. Decreasing b. increasing c. unending d. restoring
7. According to the passage, all of the following statements are true EXCEPT
a. the Sun produces a large amount of energy.
b. solar energy could provide enough electricity for the whole world
c. scientists are constantly developing new ways to capture the Sun’s energy
d. people use solar energy to reduce their energy costs.
Read the following passage and mark the letter A, B, C or D on your answer sheet to indicate the correct answer to each of the questions
In the twentieth - century, people depend on unlimited energy to power their everyday lives. A wide range of energy-run devices and modern conveniences are taken for granted, and although it may seem that we will never be in danger of living without those conveniences, the fact is that many supplies of energy are dwindling rapidly. Scientists are constantly searching for new sources of power to keep modern society running. Whether future populations will continue to enjoy the benefits of abundant energy will depend on the success of this search.
Coal, oil, and natural gas supply modern civilization with most of its power. However, not only are supplies of these fuels limited, but they are a major source of pollution. If the energy demands of the future are to be met without seriously harming the environment, existing alternative energy sources must be improved or further explored and developed. These include nuclear, water, solar, wind, and geothermal power, as well as energy from new, nonpolluting types of fuels. Each of these alternatives, however, has advantages and disadvantages.
Nuclear power plants efficiently produce large amounts of electricity without polluting the atmosphere; however, they are costly to build and maintain, and they pose the daunting problem of what to do with nuclear waste. Hydroelectric power is inexpensive and environmentally safe, but impractical for communities located far from moving water. Harnessing energy from tides and waves has similar drawbacks. Solar power holds great promise for the future but methods of collecting and concentrating sunlight are as yet inefficient, as are methods of harnessing wind power.
Every source of energy has its disadvantages. One way to minimize them is to use less energy. Conservation efforts coupled with renewable energy resources, such as a combination of solar, water, wind, and geothermal energy and alternative fuels, such as alcohol and hydrogen, will ensure supplies of clean, affordable energy for humanity's future.
From the passage, it can be inferred that to solve our energy problems ________ .
A. a combination of conservation and invention will be needed
B. we will have to stop using many of our modern conveniences
C. scientists will have to find ways to increase our supplies of coal, oil, and gas
D. scientists will have to find one major source of nonpolluting energy
Kiến thức: Đọc hiểu
Giải thích:
Từ đoạn văn, có thể suy ra rằng để giải quyết các vấn đề năng lượng của chúng ta ____.
A. sự kết hợp của bảo tồn và phát minh sẽ là cần thiết
B. chúng tôi sẽ phải ngừng sử dụng nhiều tiện ích hiện đại của chúng tôi
C. các nhà khoa học sẽ phải tìm cách tăng nguồn cung than, dầu và khí đốt của chúng ta
D. các nhà khoa học sẽ phải tìm một nguồn năng lượng không gây ô nhiễm chính
Thông tin: Conservation efforts coupled with renewable energy resources, such as a combination of solar, water, wind, and geothermal energy and alternative fuels, such as alcohol and hydrogen, will ensure supplies of clean, affordable energy for humanity's future.
Tạm dịch: Những nỗ lực bảo tồn cùng với các nguồn năng lượng tái tạo, như sự kết hợp của năng lượng mặt trời, nước, gió và địa nhiệt và nhiên liệu thay thế, như rượu và hydro, sẽ đảm bảo cung cấp năng lượng sạch, giá cả phải chăng cho tương lai của nhân loại.
Chọn A
Dịch bài đọc:
Trong thế kỷ XX, con người phụ thuộc vào năng lượng vô hạn để cung cấp năng lượng cho cuộc sống hàng ngày của họ. Một loạt các thiết bị chạy năng lượng và tiện nghi hiện đại được coi là điều hiển nhiên, và mặc dù có vẻ như chúng ta sẽ không bao giờ gặp nguy hiểm khi sống nếu không có những tiện ích đó, thực tế là nhiều nguồn cung cấp năng lượng đang cạn kiệt nhanh chóng. Các nhà khoa học không ngừng tìm kiếm các nguồn năng lượng mới để duy trì xã hội hiện đại. Việc dân số trong tương lai có tiếp tục được hưởng những lợi ích của năng lượng dồi dào hay không sẽ phụ thuộc vào sự thành công của tìm kiếm này.
Than, dầu, và khí đốt tự nhiên cung cấp hầu hết năng lượng của nó cho nền văn minh hiện đại. Tuy nhiên, không chỉ nguồn cung cấp các loại nhiên liệu này bị hạn chế mà chúng còn là nguồn gây ô nhiễm chính. Nếu nhu cầu năng lượng trong tương lai được đáp ứng mà không gây hại nghiêm trọng đến môi trường, các nguồn năng lượng thay thế hiện tại phải được cải thiện hoặc tiếp tục khám phá và phát triển. Chúng bao gồm hạt nhân, nước, năng lượng mặt trời, gió và năng lượng địa nhiệt, cũng như năng lượng từ các loại nhiên liệu mới, không gây ô nhiễm. Tuy nhiên, mỗi phương án đều có ưu điểm và nhược điểm.
Các nhà máy điện hạt nhân sản xuất một cách hiệu quả lượng điện lớn mà không gây ô nhiễm bầu khí quyển; tuy nhiên, chúng rất tốn kém để xây dựng và bảo trì, và chúng đặt ra vấn đề nan giải là phải làm gì với chất thải hạt nhân. Thủy điện là không tốn kém và an toàn với môi trường, nhưng không thực tế đối với các cộng đồng ở xa nước di chuyển. Khai thác năng lượng từ thủy triều và sóng có nhược điểm tương tự. Năng lượng mặt trời hứa hẹn rất lớn cho tương lai nhưng các phương pháp thu thập và tập trung ánh sáng mặt trời vẫn chưa hiệu quả, cũng như các phương pháp khai thác năng lượng gió.
Mỗi nguồn năng lượng đều có nhược điểm của nó. Một cách để giảm thiểu chúng là sử dụng ít năng lượng hơn. Những nỗ lực bảo tồn cùng với các nguồn năng lượng tái tạo, như sự kết hợp của năng lượng mặt trời, nước, gió và địa nhiệt và nhiên liệu thay thế, như rượu và hydro, sẽ đảm bảo cung cấp năng lượng sạch, giá cả phải chăng cho tương lai của nhân loại.
Read the following passage and mark the letter A, B, C or D on your answer sheet to indicate the correct answer to each of the following questions.
PHOTOSYNTHESIS
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
Advances in Photosynthesis and Respiration, Hardback.1990.
What can be inferred about algae?
A. Green algae are less common than other colors of algae.
B. Algae are photosynthetic organisms.
C. They are chemically different from other plants.
D. They are ineffective producers of sugars.
Kiến thức: Đọc hiểu
Giải thích:
Những gì có thể được suy luận về tảo?
A. Tảo xanh ít phổ biến hơn các màu khác của tảo.
B. Tảo là sinh vật quang hợp.
C. Chúng khác nhau về mặt hóa học so với các cây khác.
D. Chúng là những nhà sản xuất đường không hiệu quả.
Thông tin: In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose.
Tạm dịch: Trong một quá trình gọi là quang hợp, thực vật, tảo và một số sinh vật khác thu năng lượng của mặt trời và sử dụng nó để tạo ra các loại đường đơn giản như glucose.
Chọn B
* Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 24 to 30.
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
(Hooked on TOEFL Reading - LinguaForum
The phrase “this process” in the third paragraph refers to the process of__________.
A. storing chemical energy
B. photosynthesis
C. absorbing solar energy
D. carbon fixation
D Câu đề bài: Cụm từ “quá trình này” trong đoạn ba đề cập đến quá trình của _________.
Đáp án D: sự cố định carbon
Các đáp án còn lại:
A. Lưu trữ năng lượng hóa học
B. Sự quang hợp
C. Hấp thụ năng lượng mặt trời
Thông tin trong bài:
This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose.
Đây được gọi là cố định carbon. Trong quá trình này, năng lượng mặt trời được hấp thụ bởi chất diệp lục được lưu trữ dưới dạng năng lượng hóa học dưới dạng các loại đường đơn giản như glucose.
Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the questions from 24 to 30.
Almost all living things ultimately get their energy from the sun. In a process called photosynthesis, plants, algae, and some other organisms capture the sun's energy and use it to make simple sugars such as glucose. Most other organisms use these organic molecules as a source of energy. Organic materials contain a tremendous amount of energy. As food, they fuel our bodies and those of most other creatures. In such forms as oil, gas, and coal, they heat our homes, run our factories and power our cars.
Photosynthesis begins when solar energy is absorbed by chemicals called photosynthetic pigments that are contained within an organism. The most common photosynthetic pigment is chlorophyll. The bright green color characteristic of plants is caused by it. Most algae have additional pigments that may mask the green chlorophyll. Because of these pigments, algae may be not only green but brown, red, blue or even black.
In a series of enzyme-controlled reactions, the solar energy captured by chlorophyll and other pigments is used to make simple sugars, with carbon dioxide and water as the raw materials. Carbon dioxide is one of very few carbon- containing molecules not considered to be organic compounds. Photosynthesis then converts carbon from an inorganic to an organic form. This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose. The glucose is then used to make other organic compounds. In addition, photosynthesis produces oxygen gas. All the oxygen gas on earth, both in the atmosphere we breathe and in the ocean, was produced by photosynthetic organisms. Photosynthesis constantly replenishes the earth's oxygen supply.
Organisms that are capable of photosynthesis can obtain all the energy they need from sunlight and do not need to eat. They are called autotrophs. Plants are the most familiar autotrophs on land. In the ocean, algae and bacteria are the most important autotrophs. Many organisms cannot produce their own food and must obtain energy by eating organic matter. These are called heterotrophs.
The phrase “this process” in the third paragraph refers to the process of__________.
A. storing chemical energy
B. photosynthesis
C. absorbing solar energy
D. carbon fixation
Chọn D
Câu đề bài: Cụm từ “quá trình này” trong đoạn ba đề cập đến quá trình của _________.
Đáp án D: sự cố định carbon
Các đáp án còn lại:
A. Lưu trữ năng lượng hóa học
B. Sự quang hợp
C. Hấp thụ năng lượng mặt trời
Thông tin trong bài:
This is called carbon fixation. In this process, the solar energy that was absorbed by chlorophyll is stored as chemical energy in the form of simple sugars like glucose.
Đây được gọi là cố định carbon. Trong quá trình này, năng lượng mặt trời được hấp thụ bởi chất diệp lục được lưu trữ dưới dạng năng lượng hóa học dưới dạng các loại đường đơn giản như glucose.