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Choose the letter A, B, C or D to answer these following questionsGlass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution...
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Choose the letter A, B, C or D to answer these following questions

Glass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution benefits not only the environment but also the entire ecosystem. Another benefit is the recycling of glass conserves natural resources. Recycling glass saves on the need to obtain more materials to make new glass; therefore, they save existing natural resources.

Question: Why does recycling glass save existing natural resources?

A. Because it saves materials.

B. Because it saves new glass.

C. Because it saves environment.

D. Because it saves recycling glass.

1
25 tháng 10 2019

Chọn đáp án: A

Giải thích:

Dựa vào câu: “Recycling glass saves on the need to obtain more materials to make new glass; therefore, they save existing natural resources.”.

Dịch: Thuỷ tinh tái chế làm giảm nhu cầu lấy thêm nguyên liệu để làm thuỷ tinh mới, nhờ đó bảo vệ được các tài nguyên thiên nhiên.

4 tháng 8 2017

Chọn đáp án: A

Giải thích:

Dựa vào câu: “It can be recycled over and over again.”.

Dịch: Nó có thể được tái chế nhiều lần.

Choose the letter A, B, C or D to answer these following questionsGlass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution...
Đọc tiếp

Choose the letter A, B, C or D to answer these following questions

Glass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution benefits not only the environment but also the entire ecosystem. Another benefit is the recycling of glass conserves natural resources. Recycling glass saves on the need to obtain more materials to make new glass; therefore, they save existing natural resources.

Question:What is the good point of glass recycling?

A. The glass retains its quality

B. The glass breaks

C. The glass disappears

D. The glass reduced its quality

1
10 tháng 3 2019

Chọn đáp án: A

Giải thích:

Dựa vào câu: “The good thing about glass recycling is that the glass retains its quality.”.

Dịch: Điểm cộng của tái chế thuỷ tinh là thuỷ tinh không bị mai một chất lượng.

Choose the letter A, B, C or D to answer these following questionsGlass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution...
Đọc tiếp

Choose the letter A, B, C or D to answer these following questions

Glass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution benefits not only the environment but also the entire ecosystem. Another benefit is the recycling of glass conserves natural resources. Recycling glass saves on the need to obtain more materials to make new glass; therefore, they save existing natural resources.

Question: What are the advantages of glass recycling?

A. It reduces industrial pollution

B. It conserves natural resources

C. It is convenient

D. Both A&B

1
21 tháng 12 2018

Chọn đáp án: D

Giải thích:

Dựa vào câu: “The first thing is that glass recycling reduces industrial pollution… Another benefit is the recycling of glass conserves natural resources.”.

Dịch: Điều đầu tiên là tái chế thuỷ tinh làm giảm ô nhiểm công nghiệp… Một lợi ích nữa là tái chế thuỷ tinh bảo tồn tài nguyên thiên nhiên.

7 tháng 5 2018

Chọn đáp án: D

Giải thích:

Dựa vào câu: “The first thing is that glass recycling reduces industrial pollution… Another benefit is the recycling of glass conserves natural resources.”.

Dịch: Điều đầu tiên là tái chế thuỷ tinh làm giảm ô nhiểm công nghiệp… Một lợi ích nữa là tái chế thuỷ tinh bảo tồn tài nguyên thiên nhiên.

Choose the letter A, B, C or D to answer these following questionsGlass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution...
Đọc tiếp

Choose the letter A, B, C or D to answer these following questions

Glass is a wonderful substance. It can be recycled over and over again. The good thing about glass recycling is that the glass retains its quality. Imagine how many bottles of soda, juice and glass jars are used daily. If we simply throw them away, the environment will suffer greatly. There are many advantages of glass recycling. The first thing is that glass recycling reduces industrial pollution. Reducing industrial pollution benefits not only the environment but also the entire ecosystem. Another benefit is the recycling of glass conserves natural resources. Recycling glass saves on the need to obtain more materials to make new glass; therefore, they save existing natural resources.

Question:What do reducing industrial pollution benefit?

A. both the environment and ecosystem

B. either the environment or ecosystem

C. neither the environment nor ecosystem

D. whether the environment or ecosystem

1
9 tháng 6 2017

Chọn đáp án: A

Giải thích:

Dựa vào câu: “Reducing industrial pollution benefits not only the environment but also the entire ecosystem.”.

Dịch: Giảm ô nhiễm công nghiệp có lợi cho cả môi trường và cả hệ sinh thái.

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.Glass is a remarkable substance made from the simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent, or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful. Glass can be decorated in multiple ways and its optical properties are...
Đọc tiếp

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.

Glass is a remarkable substance made from the simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent, or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful. Glass can be decorated in multiple ways and its optical properties are exceptional. In all its myriad forms - as table ware, containers, in architecture and design - glass represents a major achievement in the history of technological developments.

Since the Bronze Age about 3,000 B.C., glass has been used for making various kinds of objects. It was first made from a mixture of silica, line and an alkali such as soda or potash, and these remained the basic ingredients of glass until the development of lead glass in the seventeenth century. When heated, the mixture becomes soft and malleable and can be formed by various techniques into a vast array of shapes and sizes. The homogeneous mass thus formed by melting then cools to create glass, but in contrast to most materials formed in this way (metals, for instance), glass lacks the crystalline structure normally associated with solids, and instead retains the random molecular structure of a liquid. In effect, as molten glass cools, it progressively stiffens until rigid, but does so without setting up a network of interlocking crystals customarily associated with that process. This is why glass shatters so easily when dealt a blow. Why glass deteriorates over time, especially when exposed to moisture, and why glassware must be slowly reheated and uniformly cooled after manufacture to release internal stresses induced by uneven cooling.

Another unusual feature of glass is the manner in which its viscosity changes as it turns from a cold substance into a hot, ductile liquid. Unlike metals that flow or "freeze" at specific temperatures glass progressively softens as the temperature rises, going through varying stages of malleability until it flows like a thick syrup. Each stage of malleability allows the glass to be manipulated into various forms, by different techniques, and if suddenly cooled the object retains the shape achieved at that point. Glass is thus amenable to a greater number of heat-forming techniques than most other materials.

What does the author imply about the raw materials used to make glass?

A. They were the same for centuries

B. They are liquid.   

C. They are transparent

D. They are very heavy

1
6 tháng 2 2018

Đáp án A.

Key words: raw materials, make glass.

Clue: “It was first made from a mixture of silica, line and an alkali such as soda or potash, and these remained the basic ingredients of glass until the development of lead glass in the seventeenth century.” Thủy tinh được làm từ hỗ hợp silic, thép, chất kiềm ví dụ như Natri cacbonat hoặc Kali cacbonat, và đây vẫn là các nguyên liệu cơ bản của thủy tinh cho đến khi có sự phát triển của thủy tinh chì vào thế kỷ 17.

Phân tích: Đến thế kỷ 17, các nguyên liệu cơ bản để tạo ra thủy tinh vẫn không thay đổi. Do đó, chọn đáp án    A. They were the same for centuries: Các nguyên liệu thô vẫn như vậy trong nhiều thế kỷ.

Các đáp án khác không phù hợp:

B. They are liquid: Các nguyên thô là chất lỏng.

C. They are transparent: Các nguyên liệu thô trong suốt.

D. They are very heavy: Các nguyên thô rất nặng.

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.         Glass is a remarkable substance made from the simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent, or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful. Glass can be decorated in multiple ways and its optical properties are...
Đọc tiếp

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.

        Glass is a remarkable substance made from the simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent, or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful. Glass can be decorated in multiple ways and its optical properties are exceptional. In all its myriad forms - as table ware, containers, in architecture and design - glass represents a major achievement in the history of technological developments.

        Since the Bronze Age about 3, 000 B.C., glass has been used for making various kinds of objects. It was first made from a mixture of silica, line and an alkali such as soda or potash, and these remained the basic ingredients of glass until the development of lead glass in the seventeenth century. When heated, the mixture becomes soft and malleable and can be formed by various techniques into a vast array of shapes and sizes. The homogeneous mass thus formed by melting then cools to create glass, but in contrast to most materials formed in this way (metals, for instance), glass lacks the crystalline structure normally associated with solids, and instead retains the random molecular structure of a liquid. In effect, as molten glass cools, it progressively stiffens until rigid, but does so without setting up a network of interlocking crystals customarilyassociated with that process. This is why glass shatters so easily when dealt a blow. Why glass deteriorates over time, especially when exposed to moisture, and why glassware must be slowly reheated and uniformly cooled after manufacture to release internal stresses induced by uneven cooling.

         Another unusual feature of glass is the manner in which its viscosity changes as it turns from a cold substance into a hot, ductile liquid. Unlike metals that flow or freeze at specific temperatures glass progressively softens as the temperature rises, going through varying stages of malleability until it flows like thick syrup. Each stage of malleability allows the glass to be manipulated into various forms, by different techniques, and if suddenly cooled the object retains the shape achieved at that point. Glass is thus amenable to a greater number of heat-forming techniques than most other materials.

What does the author imply about the raw materials used to make glass?

A. They were the same for centuries

B. They are liquid

C. They are transparent

D. They are very heavy

1
9 tháng 5 2017

Đáp án A.

Keywords: raw materials, make glass.

Clue: “It was first made from a mixture of silica, line and an alkali such as soda or potash, and these remained the basic ingredients of glass until the development of lead glass in the seventeenth century”: Thủy tinh được làm từ hn hp silic, thép, chất kiềm ví dụ như Natri cacbonat hoặc Kali cacbonat, và đây vẫn là các nguyên liệu cơ bản của thủy tinh cho đến khi có sự phát triển ca thủy tinh chì vào thể kỷ 17.

Phân tích: Đến thế kỷ 17, các nguyên liệu cơ bản để tạo ra thủy tinh vẫn không thay đổi. Do đó, chọn đáp án A. They were the same for centuries: Các nguyên liệu thô vẫn như vậy trong nhiều thế k.

Các đáp án khác không phù hp:

B. They are liquid: Các nguyên liệu thô là chất lỏng.

C. They are transparent: Các nguyên liệu thô trong suốt.

D. They are very heavy: Các nguyên liệu thô rất nặng

Read the following passage and then choose the best answer A, B, C or D.          Glass is a remarkable substance made from simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful. Glass can be decorated in multiple ways and its optical properties are exceptional. In all its myriad forms-as table ware, containers, in...
Đọc tiếp

Read the following passage and then choose the best answer A, B, C or D.

          Glass is a remarkable substance made from simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful. Glass can be decorated in multiple ways and its optical properties are exceptional. In all its myriad forms-as table ware, containers, in architecture and design-glass represents a major achievement in the history of technological developments.

          Since the Bronze Age about 3,000 B.C, glass has been used for making various kinds of objects. It was first made from a mixture of silica, line and an alkali such as soda or potash, and these remained the basic ingredients of glass until the development of lead glass in the seventeenth century. When heated, the mixture becomes soft, and malleable and can be formed by various techniques into a vast array of shapes and sizes. The homogeneous mass is thus formed by melting then cooling to create glass, but in contrast to most materials formed in this way (metals, for instance), glass lacks the crystalline structure normally associated with solids, and instead retains the random molecular structure of a liquid. In effect, as molten glass cools, it progressively stiffens until rigid, but does so without setting up a network of interlocking crystals customarily associated with that process. This is why glass shatters so easily when dealt a blow, why glass deteriorates over time, especially when exposed to moisture, and why glassware must be slowly reheated and uniformly cooled after manufacture to release internal stresses induced by uneven cooling.

Another unusual feature of glass is the manner in which its viscosity changes as it turns from a cold substance into a hot, ductile liquid. Unlike metals that flow or “freeze” at specific temperatures, glass progressively softens as the temperature rises, going through varying stages of malleability until it flows like a thick syrup. Each stage of malleability allows the glass to be manipulated into various forms, by different techniques, and if suddenly cooled the object retains the stage achieved at that point. Glass is thus amenable to a greater number of heat-forming techniques than most other materials.

According to the passage, why can glass be more easily shaped into specific forms than can metals?

A. It has better optical properties

B. It retains heat while its viscosity changesv

C. It gradually becomes softer as its temperature rises

D. It resists breaking when heated

1
14 tháng 5 2017

Đáp án C
Nhìn vào dòng số 2 và 3 của đoạn cuối cùng ta có thể thấy rõ được đáp án: “Unlike metals that flow or
“freeze” at specific temperatures, glass progressively softens as the temperature rises (thủy tinh mềm dần khi
nhiệt độ tăng)

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 38 to 42.   Glass is a remarkable substance made from the simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent, or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful Glass can be decorated in multiple ways and its optical...
Đọc tiếp

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 38 to 42.

  Glass is a remarkable substance made from the simplest raw materials. It can be colored or colorless, monochrome or polychrome, transparent, translucent, or opaque. It is lightweight impermeable to liquids, readily cleaned and reused, durable yet fragile, and often very beautiful Glass can be decorated in multiple ways and its optical properties are exceptional. In all its myriad forms - as table ware, containers, in architecture and design – glass represents a major achievement in the history of technological developments.

  Since the Bronze Age about 3,000 B.C., glass has been used for making various kinds of objects. It was first made from a mixture of silica, line and an alkali such as soda or potash, and these remained the basic ingredients of glass until the development of lead glass in the seventeenth century. When heated, the mixture becomes soft and malleable and can be formed by various techniques into a vast array of shapes and sizes. The homogeneous mass thus formed by melting then cools to create glass, but in contrast to most materials formed in this way (metals, for instance), glass lacks the crystalline structure normally associated with solids, and instead retains the random molecular structure of a liquid. In effect, as molten glass cools, it progressively stiffens until rigid, but does so without setting up a network of interlocking crystals customarily associated with that process. This is why glass shatters so easily when dealt a blow. Why glass deteriorates over time, especially when exposed to moisture, and why glassware must be slowly reheated and uniformly cooled after manufacture to release internal stresses induced by uneven cooling.

  Another unusual feature of glass is the manner in which its viscosity changes as it turns from a cold substance into a hot, ductile liquid. Unlike metals that flow or “freeze” at specific temperatures glass progressively softens as the temperature rises, going through varying stages of malleability until it flows like a thick syrup. Each stage of malleability allows the glass to be manipulated into various forms, by different techniques, and if suddenly cooled the object retains the shape achieved at that point. Glass is thus amenable to a greater number of heat-forming techniques than most other materials.

The word “durable” in paragraph 1 is closest in meaning to ______ .

A. lasting

B. delicate

C. heavy

D. plain

1
15 tháng 2 2019

Đáp án A.

Dịch nghĩa: Từ “durable” trong đoạn 1 gần nghĩa nhất với _________.
A. lâu dài
B. mỏng manh
C. nặng
D. nhạt nhẽo

Dịch bài

  Thủy tinh là một chất đáng chú ý được làm từ các nguyên liệu thô đơn giản nhất. Nó có thể có màu hoặc không màu, đơn sắc hoặc đa sắc, trong suốt, trong mờ hoặc mờ đục. Nó nhẹ và không thấm vào chất lỏng, dễ dàng làm sạch và tái sử dụng, bền nhưng dễ vỡ và thường rất đẹp. Kính có thể được trang trí theo nhiều cách và tính chất quang học của nó là đặc biệt. Trong tất cả vô số các dạng của nó - như đồ dùng để bàn, hộp đựng, trong kiến ​​trúc và thiết kế - thủy tinh đại diện cho một thành tựu lớn trong lịch sử phát triển công nghệ.

  Kể từ thời đại đồ đồng khoảng 3.000 trước công nguyên, thủy tinh đã được sử dụng để chế tạo các loại đồ vật khác nhau. Nó lần đầu tiên được làm từ hỗn hợp silica, dòng và chất kiềm như soda hoặc kali, và đây vẫn là những thành phần cơ bản của thủy tinh cho đến khi phát triển thủy tinh chì trong thế kỷ XVII. Khi được đun nóng, hỗn hợp trở nên mềm và dễ uốn và có thể được tạo bằng các kỹ thuật khác nhau thành một loạt các hình dạng và kích cỡ. Do đó, khối đồng nhất được hình thành bằng cách nấu chảy sau đó để nguội để tạo ra thủy tinh, nhưng ngược lại với hầu hết các vật liệu được hình thành theo cách này (ví dụ kim loại), thủy tinh thiếu cấu trúc tinh thể mà thường liên kết với chất rắn, và thay vào đó giữ lại cấu trúc phân tử ngẫu nhiên của chất lỏng. Trong thực tế, khi thủy tinh nóng chảy nguội đi, nó dần dần cứng lại cho đến khi cứng, nhưng làm như vậy mà không thiết lập một mạng lưới các tinh thể lồng vào nhau mà thường được liên kết với quá trình đó. Đây là lý do tại sao kính vỡ dễ dàng khi xử lý một cú đánh. Tại sao thủy tinh xuống cấp theo thời gian, đặc biệt là khi tiếp xúc với độ ẩm và tại sao dụng cụ thủy tinh phải được hâm nóng từ từ và làm nguội đồng đều sau khi sản xuất để giải phóng các ứng suất bên trong do làm mát không đều.

  Một đặc điểm khác thường của thủy tinh là cách thức thay đổi độ nhớt của nó khi nó chuyển từ chất lạnh thành chất lỏng nóng dễ uốn. Không giống như các kim loại chảy hoặc đóng băng ở nhiệt độ cụ thể, thủy tinh sẽ mềm dần khi nhiệt độ tăng, trải qua các giai đoạn khác nhau của tính dễ uốn cho đến khi nó chảy như một xi-rô dày. Mỗi giai đoạn của tính linh hoạt cho phép thuỷ tinh được chế tác thành nhiều dạng khác nhau, bằng các kỹ thuật khác nhau và nếu làm mát đột ngột, vật thể vẫn giữ được hình dạng đạt được tại thời điểm đó. Do đó, thủy tinh có thể tuân theo số lượng kỹ thuật tạo nhiệt lớn hơn hầu hết các vật liệu khác.