Tổng hợp đề thi thử tiếng anh thpt quốc gia
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Tổng hợp đề thi thử tiếng anh thpt quốc gia (Đề số 29)
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9093 lượt thi
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50 câu hỏi
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50 phút
Danh sách câu hỏi
Câu 1:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word whose underlined part differs from the other three in pronunciation in each of the following questions.
Chọn A
Câu 2:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word whose underlined part differs from the other three in pronunciation in each of the following questions.
Chọn C
Câu 3:
23/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word that differs from the other three in the position of primary stress in each of the following questions
Chọn C
Câu 4:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word that differs from the other three in the position of primary stress in each of the following questions
Chọn B
Câu 5:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word(s) OPPOSITE in meaning to the underlined word(s) in each of the following questions.
Polluted water and increased water temperatures have driven many species to the verge of extinction.
Chọn D
Câu 6:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word(s) OPPOSITE in meaning to the underlined word(s) in each of the following questions.
English is a compulsory subject in most of the schools in our country.
Chọn C
Câu 7:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word(s) CLOSEST in meaning to the underlined word(s) in each of the following questions.
I was completely mesmerized by Cristiano Ronaldo’s performance. He is really one of the greatest footballers of all time.
Chọn A
Câu 8:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the word(s) CLOSEST in meaning to the underlined word(s) in each of the following questions.
When Kelly invited us to dinner, she really showed off her culinary talents. She prepared a feast - a huge selection of dishes that were simply mouth-watering.
Chọn D
Câu 9:
22/07/2024Mark the letter A, Bf C, or D on your answer sheet to indicate the sentence that best completes each of the following exchanges.
Sally and Susan are talking about the dancing show they have just watched.
- Sally: “What a fantastic performance! Thank you for inviting me to the musical.”
- Susan: “_____________ I’m happy you enjoyed the show.”
Chọn A
Câu 10:
22/07/2024Mark the letter A, Bf C, or D on your answer sheet to indicate the sentence that best completes each of the following exchanges.
Peter is telling Alex about his father’s health condition.
Peter: “My father’s much better now.” - Alex: “_____________”
Chọn A
Câu 11:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
Da Vinci’s Mona Lisa is _____________; if it was destroyed no amount of money could ever replace it.
Chọn C
Câu 12:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
He is exhausted. He _____________ around the whole afternoon trying to clean the house before the guests arrive.
Chọn A
Câu 13:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
He has received numerous honours and prizes in _____________ of his remarkable achievements.
Chọn D
Câu 14:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
If you knew he was ill, why _____________ you _____________ to see him?
Chọn B
Câu 15:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
You need to make _____________ about what course you should take at university.
Chọn A
Câu 16:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
Tim is nearsighted. He _____________ glasses ever since he was nine years old.
Chọn D
Câu 17:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
As a student, you envied your friends who were working and earning their own money, _____________?
Chọn B
Câu 18:
22/07/2024
Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
Neither Mary nor her sister _____________ to attend the concert.
Chọn D
Câu 19:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
On Sundays, many people take their cars to service stations ____________.
Chọn A
Câu 20:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
_____________ advised on what and how to prepare for the interview, he might have got the job.
Chọn A
Câu 21:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
My brother was worried about being interviewed on television, but he _____________ to the occasion wonderfully.
Chọn B
Câu 22:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the correct answer to each of the following questions.
The more difficult the job is, _____________.
Chọn D
Câu 23:
22/07/2024Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct word or phrase that best fits each of the numbered blanks from 23 to 27. Fill in the appropriate word in question 23
We are all too well aware that the extinction of animal and plant species is one of the biggest and most horrifying threats (23) _____________ our planet these days. Having said that, there has recently
been some good news out of Russia regarding something called regeneration - a(n) (24) _____________ solution to this ever-growing problem.
Regeneration involves (25) _____________ tissue from a plant or animal that has become extinct and ‘bringing it back to life’. In recent Russian experiments, scientists took fruit and seeds from the underground burrow of a long-dead Siberian squirrel and process to regenerate a beautiful flower called the Silene stenophylla. To date, it is the oldest plant to be produced from the innovative regeneration (26)____________
Understandably, experts are over the moon about their success as it shows once and for all that tissue can survive ice conservation for thousands of years. Those who participated in the regeneration of the flower are pleased and are now hoping to find prehistoric squirrel tissue or perhaps even (27) _____________ tissue from the great woolly mammoth, which could lead to the resurrection of those two species.
[From: STARLIGHT 8, Workbook, Express Publishing. 2010]
Chọn B
Câu 24:
22/07/2024Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct word or phrase that best fits each of the numbered blanks from 23 to 27. Fill in the appropriate word in question 23
We are all too well aware that the extinction of animal and plant species is one of the biggest and most horrifying threats (23) _____________ our planet these days. Having said that, there has recently
been some good news out of Russia regarding something called regeneration - a(n) (24) _____________ solution to this ever-growing problem.
Regeneration involves (25) _____________ tissue from a plant or animal that has become extinct and ‘bringing it back to life’. In recent Russian experiments, scientists took fruit and seeds from the underground burrow of a long-dead Siberian squirrel and process to regenerate a beautiful flower called the Silene stenophylla. To date, it is the oldest plant to be produced from the innovative regeneration (26)____________
Understandably, experts are over the moon about their success as it shows once and for all that tissue can survive ice conservation for thousands of years. Those who participated in the regeneration of the flower are pleased and are now hoping to find prehistoric squirrel tissue or perhaps even (27) _____________ tissue from the great woolly mammoth, which could lead to the resurrection of those two species.
[From: STARLIGHT 8, Workbook, Express Publishing. 2010]
Chọn B
Câu 25:
22/07/2024Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct word or phrase that best fits each of the numbered blanks from 23 to 27. Fill in the appropriate word in question 25
We are all too well aware that the extinction of animal and plant species is one of the biggest and most horrifying threats (23) _____________ our planet these days. Having said that, there has recently
been some good news out of Russia regarding something called regeneration - a(n) (24) _____________ solution to this ever-growing problem.
Regeneration involves (25) _____________ tissue from a plant or animal that has become extinct and ‘bringing it back to life’. In recent Russian experiments, scientists took fruit and seeds from the underground burrow of a long-dead Siberian squirrel and process to regenerate a beautiful flower called the Silene stenophylla. To date, it is the oldest plant to be produced from the innovative regeneration (26)____________
Understandably, experts are over the moon about their success as it shows once and for all that tissue can survive ice conservation for thousands of years. Those who participated in the regeneration of the flower are pleased and are now hoping to find prehistoric squirrel tissue or perhaps even (27) _____________ tissue from the great woolly mammoth, which could lead to the resurrection of those two species.
[From: STARLIGHT 8, Workbook, Express Publishing. 2010]
Chọn C
Câu 26:
22/07/2024Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct word or phrase that best fits each of the numbered blanks from 23 to 27. Fill in the appropriate word in question 23
We are all too well aware that the extinction of animal and plant species is one of the biggest and most horrifying threats (23) _____________ our planet these days. Having said that, there has recently
been some good news out of Russia regarding something called regeneration - a(n) (24) _____________ solution to this ever-growing problem.
Regeneration involves (25) _____________ tissue from a plant or animal that has become extinct and ‘bringing it back to life’. In recent Russian experiments, scientists took fruit and seeds from the underground burrow of a long-dead Siberian squirrel and process to regenerate a beautiful flower called the Silene stenophylla. To date, it is the oldest plant to be produced from the innovative regeneration (26)____________
Understandably, experts are over the moon about their success as it shows once and for all that tissue can survive ice conservation for thousands of years. Those who participated in the regeneration of the flower are pleased and are now hoping to find prehistoric squirrel tissue or perhaps even (27) _____________ tissue from the great woolly mammoth, which could lead to the resurrection of those two species.
[From: STARLIGHT 8, Workbook, Express Publishing. 2010]
Chọn B
Câu 27:
22/07/2024Read the following passage and mark the letter A, B, C, or D on your answer sheet to indicate the correct word or phrase that best fits each of the numbered blanks from 23 to 27. Fill in the appropriate word in question 27
We are all too well aware that the extinction of animal and plant species is one of the biggest and most horrifying threats (23) _____________ our planet these days. Having said that, there has recently
been some good news out of Russia regarding something called regeneration - a(n) (24) _____________ solution to this ever-growing problem.
Regeneration involves (25) _____________ tissue from a plant or animal that has become extinct and ‘bringing it back to life’. In recent Russian experiments, scientists took fruit and seeds from the underground burrow of a long-dead Siberian squirrel and process to regenerate a beautiful flower called the Silene stenophylla. To date, it is the oldest plant to be produced from the innovative regeneration (26)____________
Understandably, experts are over the moon about their success as it shows once and for all that tissue can survive ice conservation for thousands of years. Those who participated in the regeneration of the flower are pleased and are now hoping to find prehistoric squirrel tissue or perhaps even (27) _____________ tissue from the great woolly mammoth, which could lead to the resurrection of those two species.
[From: STARLIGHT 8, Workbook, Express Publishing. 2010]
Chọn D
Câu 28:
22/07/2024Read 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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
Where did Honda go when he left his village?
Chọn A
Câu 29:
22/07/2024Read 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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
Honda was very successful because he _____________
Chọn D
Câu 30:
22/07/2024
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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
Soichiro Honda _____________.
Chọn B
Câu 31:
22/07/2024Read 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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
What was different about the new motorcycle that Honda designed?
Chọn C
Câu 32:
22/07/2024Read 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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
Honda start the Honda Motor Company in _____________.
Chọn C
Câu 33:
22/07/2024Read 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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
What happened to Honda’s race car in 1936?
Chọn A
Câu 34:
22/07/2024Read 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 28 to 34.
Soichiro Honda was bom in 1906 in a small village in Japan. It was so small that it didn’t even have electricity. His family was poor. Soichiro had eight brothers and sisters. Sadly, five of them died when they were young because they did not have good medical care. When Soichiro was eight years old, he saw his first automobile. He was amazed by it. For the next 50 years, he loved machines on wheels. When he was 15 years old, Soichiro left his village to work at an auto repair shop in Tokyo. It was then that Honda discovered motorcycles. He spent all of his free time fixing and riding motorcycles. He returned to his village six years later to open his own garage. Soon he owned several shops and had over 50 employees.
At the same time, he began to build and race motorcycles and cars. Honda loved to race, and he became one of Japan’s most competitive drivers. In 1936, his race car crashed while he was driving 100 miles per hour. Half of Honda’s face was crushed, and he had other serious injuries. It took him a year and a half to recover. After this, his family begged him to give up racing. He looked for a less dangerous job and finally decided to become a manufacturer.
At first, he manufactured engine parts. The Japanese navy used a lot of his engine parts in World War II. In 1948, after the war, he started the Honda Motor Company. He started the company with only $3,300. He made his first machines from engine parts that the military did not need after the war. These machines were not real motorcycles; they were bicycles with motors. People bought them because they needed a reliable form of transportation. As Honda’s business grew, he began to make different types of motorcycles. By 1950, his motorcycles were selling all over Japan. But there were 50 other motorcycle makers in Japan at the time. In 1958, Honda designed a lightweight motorcycle called the Super Cub. It was a huge success and Honda made a lot of money. Two years later, Honda built the world’s biggest motorcycle factory in Japan.
By the 1960s, the Super Cub was popular all over Asia. But Honda wanted the motorcycle to be popular all over the world. In Europe, he put his motorcycles in difficult races to show how good they were. In the United States, he tried a different method. He used a magazine ad with the words “You Meet the Nicest People on a Honda." It showed ordinary Americans such as students, businessmen, and older people all riding happily on the Honda Super Cub. The ad appeared in many popular magazines.
Readers who had never ridden a motorcycle saw the ad. The ad showed that motorcycles were not just for crazy young people who wore black leather jackets. They were good for other people too. The company sold thousands of motorcycles to new riders. Honda then started to put the ads on television. This was also very successful. For example, he put an ad for his motorcycle on during the Academy Awards program. Millions of people watched that program, and on the next day, sales of the motorcycle went up tremendously. By 1968, Honda had sold 1 million motorcycles in the United States.
In 1963, his company started to make cars. In 1972, it produced the Civic-, the next year, the Accord; and then in 1978, the Prelude. Soon, the company was one of the world’s biggest automobile makers. Honda was also famous for his business style. He believed that workers and bosses should have a close relationship. He also thought it was important to encourage workers to do their best.
In 1973, Soichiro Honda retired as president of his company. He died in 1991. Honda was very important to Japan’s recent history. He and many other business leaders helped make Japan into a leading industrial nation.
Honda’s business was _____________.
Chọn A
Câu 35:
22/07/2024Read 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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Dr Solow believes that _____________.
Chọn D
Câu 36:
22/07/2024Read 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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Dr Solow’s work depended on _____________.
Chọn B
Câu 37:
22/07/2024Read 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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Three of the six species of endangered cranes _____________
Chọn A
Câu 38:
22/07/2024
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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Dr Weitzman believes that if two species are equally important genetically we should protect _____________.
Chọn C
Câu 39:
22/07/2024Read 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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Endangered species of cranes can be saved by _____________
Chọn D
Câu 40:
22/07/2024Read 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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Most species are endangered because _____________.
Chọn D
Câu 41:
22/07/2024
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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
Dr Weitzman’s ideas _____________.
Chọn D
Câu 42:
22/07/2024Read 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 35 to 42.
The idea of preserving biological diversity gives most people a warm feeling inside. But what, exactly, is diversity? And which kind is most worth preserving? It may be anathema to save-the-lot environmentalists who hate setting such priorities, but academics are starting to cook up answers.
Andrew Solow, a mathematician at the Woods Hole Oceanographic Institution, and his colleagues argue that in the eyes of conservation, all species should not be equal. Even more controversially, they suggest that preserving the rarest is not always the best approach. Their measure of diversity is the amount of evolutionary distance between species. They reckon that if choices must be made, then the number of times that cousins are removed from one another should be one of the criteria.
This makes sense from both a practical and an aesthetic point of view. Close relatives have many genes in common. If those genes might be medically or agriculturally valuable, saving one is nearly as good as saving both. And different forms are more interesting to admire and study than lots of things that look the same. Dr Solow’s group illustrates its thesis with an example. Six species of crane are at some risk of extinction. Breeding in captivity might save them. But suppose there were only enough money to protect three. Which ones should be picked?
The genetic distances between 14 species of cranes, including the six at risk, have already been established using a technique known as DNA hybridisation. The group estimated how likely it was that each of these 14 species would become extinct in the next 50 years. Unendangered species were assigned a 10% chance of meeting the Darwinian reaper-man; the most vulnerable, a 90% chance. Captive breeding was assumed to reduce an otherwise endangered species’ risk to the 10% level of the safest. Dr Solow’s computer permed all possible combinations of three from six and came to the conclusion that protecting the Siberian, white-naped and black-necked cranes gave the smallest likely loss of biological diversity over the next five decades. The other three had close relatives in little need of protection. Even if they became extinct, most of their genes would be saved.
Building on the work of this group, Martin Weitzman, of Harvard University, argues that conservation policy needs to take account not only of some firm measure of the genetic relationships of species to each other and their likelihood of survival, but also the costs of preserving them. Where species are equally important in genetic terms, and - an important and improbable precondition - where the protection of one species can be assured at the expense of another, he argues for making safe species safer, rather than endangered species less endangered.
In practice, it is difficult to choose between species. Most of those at risk - especially plants, the group most likely to yield useful medicines - are under threat because their habitats are in trouble, not because they are being shot, or plucked, to extinction. Nor can conservationists choose among the millions of species that theory predicts must exist, but that have not yet been classified by the biologists assigned to that tedious task.
This is not necessarily cause for despair. At the moment, the usual way to save the genes in these creatures is to find the bits of the world with the largest number of species and try to protect them from the bulldozers. What economists require from biologists are more sophisticated ways to estimate the diversity of groups of organisms that happen to live together, as well as those which are related to each other. With clearer goals established, economic theory can then tell environmentalists where to go.
[from The Economist]
According to the writer what has to be done first is for _____________.
Chọn A
Câu 43:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the sentence that is closest in meaning to each of the following questions.
You are in this mess right now because you didn’t listen to me in the first place.
Chọn C
Câu 44:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the sentence that is closest in meaning to each of the following questions.
It was only when I left home that I realized how much my family meant to me.
Chọn C
Câu 45:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the sentence that is closest in meaning to each of the following questions.
Mike put a fence so that people didn’t walk on his garden.
Chọn B
Câu 46:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the underlined part that needs correction in each of the following questions.
(A) The assumption (B) that smoking has bad (C) effects on our health (D) have been proved.
Chọn D
Câu 48:
22/07/2024Mark the letter A, B, C, or D on your answer sheet to indicate the underlined part that needs correction in each of the following questions.
(A) Not until ten years (B) ago (C) was there much need for personal (D) computer.
Chọn D
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