大学入学共通テスト(英語) 過去問
令和6年度(2024年度)追・再試験
問44 (<旧課程>英語リーディング(第6問) 問6)
問題文
次の英文や図表を読み、最も適当な選択肢を選びなさい。
You are preparing for a science fair presentation on a scientific discovery, using the following magazine article.
”Smart” Fabrics
Through the years, the fabrics we use have evolved to suit our changing lifestyles and needs. Linen, made from the fibers of a plant called flax, is one of the oldest textiles in the world. It naturally reflects away the sun and its intense heat, and allows better airflow than other types of fabric. Light and airy, linen has long been the ideal fabric for warm climates. With industrialization and population growth, however, cotton became more commonly used since it was suitable for mass production. Cloth made from cotton can be heavy and can trap body heat though, which may make people feel uncomfortable in very hot and humid weather.
Newer materials are always being developed as technology progresses, and ”smart” fabrics are a recent scientific breakthrough in the textile industry. Weaving flexible synthetic fibers into cloth can provide additional functions for the fabric. For example, scientists at the Huazhong University of Science and Technology made a new fabric called ”metafabric” that deflects heat to keep people cooler. Such fabric can be used to create clothes that ease the discomfort people suffer when the temperature rises. In their experiment, a participant wore a vest consisting of two halves―one half cotton and the other half metafabric―and was exposed to direct sunlight for an hour. Underneath the cotton, the skin temperature soared to 37℃. In contrast, underneath the metafabric, the temperature rose by just one degree, from 31℃ to 32℃.
Another interesting example is a fabric that can detect sounds. The human ear picks up sound pressures, and the inner organs convert sound waves into mechanical vibrations and then into electrical signals. Similarly, ”piezoelectric materials,” which are typically used for microphones or speakers,produce an electrical signal when mechanically bent.
Using this knowledge, a team of researchers at the Massachusetts Institute of Technology and the Rhode Island School of Design came up with a so−called ”acoustic fabric.” The researchers wove a piezoelectric fiber into fabric and conducted a series of experiments. One experiment examined the fabric’s sensitivity to sound directions. They sewed two pieces of acoustic fabric onto the back of a shirt. Then, they clapped their hands at various angles away from the shirt. The fiber converted the sound first into mechanical vibrations, then into electrical signals that were stored on a device. The fabric was successfully able to pinpoint the angle of the sounds. This could lead to a useful application for individuals with hearing aids to identify the direction of a specific sound even in noisy surroundings.
In addition to functioning as wearable hearing aids, acoustic fabric can be used for other purposes such as tracking respiratory(lung), pulse, and cardiac(heart)conditions. Another experiment tested whether clothes with acoustic fibers could act as fabric stethoscopes to monitor a person’s subtle cardiac features. The research group attached a single fiber over the chest region on a shirt and found it accurately detected the wearer’s heart signals. Furthermore, this result indicated the possibility of utilizing the fabric in maternity clothes to check an unborn baby’s heartbeat.
Researchers see applications of smart fabrics beyond clothing. A smart fabric with cooling performance can be applied to various products for different purposes, such as tents, car covers, curtains, and sunshade products. Acoustic fabrics can be integrated with spacecraft coatings to monitor cosmic debris, or be used to help detect cracks or strains in buildings. They can even be woven into a net to check on fish in the sea.
As these examples of textile innovation suggest, new fabrics can enhance our lives in many ways. You may not believe this, but the coolest things about these fabrics are that you can get ”smart” while wearing them and some of them are machine−washable!
Which is the best title for the presentation on Slide 1?( 44 )
Your slides:
You are preparing for a science fair presentation on a scientific discovery, using the following magazine article.
”Smart” Fabrics
Through the years, the fabrics we use have evolved to suit our changing lifestyles and needs. Linen, made from the fibers of a plant called flax, is one of the oldest textiles in the world. It naturally reflects away the sun and its intense heat, and allows better airflow than other types of fabric. Light and airy, linen has long been the ideal fabric for warm climates. With industrialization and population growth, however, cotton became more commonly used since it was suitable for mass production. Cloth made from cotton can be heavy and can trap body heat though, which may make people feel uncomfortable in very hot and humid weather.
Newer materials are always being developed as technology progresses, and ”smart” fabrics are a recent scientific breakthrough in the textile industry. Weaving flexible synthetic fibers into cloth can provide additional functions for the fabric. For example, scientists at the Huazhong University of Science and Technology made a new fabric called ”metafabric” that deflects heat to keep people cooler. Such fabric can be used to create clothes that ease the discomfort people suffer when the temperature rises. In their experiment, a participant wore a vest consisting of two halves―one half cotton and the other half metafabric―and was exposed to direct sunlight for an hour. Underneath the cotton, the skin temperature soared to 37℃. In contrast, underneath the metafabric, the temperature rose by just one degree, from 31℃ to 32℃.
Another interesting example is a fabric that can detect sounds. The human ear picks up sound pressures, and the inner organs convert sound waves into mechanical vibrations and then into electrical signals. Similarly, ”piezoelectric materials,” which are typically used for microphones or speakers,produce an electrical signal when mechanically bent.
Using this knowledge, a team of researchers at the Massachusetts Institute of Technology and the Rhode Island School of Design came up with a so−called ”acoustic fabric.” The researchers wove a piezoelectric fiber into fabric and conducted a series of experiments. One experiment examined the fabric’s sensitivity to sound directions. They sewed two pieces of acoustic fabric onto the back of a shirt. Then, they clapped their hands at various angles away from the shirt. The fiber converted the sound first into mechanical vibrations, then into electrical signals that were stored on a device. The fabric was successfully able to pinpoint the angle of the sounds. This could lead to a useful application for individuals with hearing aids to identify the direction of a specific sound even in noisy surroundings.
In addition to functioning as wearable hearing aids, acoustic fabric can be used for other purposes such as tracking respiratory(lung), pulse, and cardiac(heart)conditions. Another experiment tested whether clothes with acoustic fibers could act as fabric stethoscopes to monitor a person’s subtle cardiac features. The research group attached a single fiber over the chest region on a shirt and found it accurately detected the wearer’s heart signals. Furthermore, this result indicated the possibility of utilizing the fabric in maternity clothes to check an unborn baby’s heartbeat.
Researchers see applications of smart fabrics beyond clothing. A smart fabric with cooling performance can be applied to various products for different purposes, such as tents, car covers, curtains, and sunshade products. Acoustic fabrics can be integrated with spacecraft coatings to monitor cosmic debris, or be used to help detect cracks or strains in buildings. They can even be woven into a net to check on fish in the sea.
As these examples of textile innovation suggest, new fabrics can enhance our lives in many ways. You may not believe this, but the coolest things about these fabrics are that you can get ”smart” while wearing them and some of them are machine−washable!
Which is the best title for the presentation on Slide 1?( 44 )
Your slides:
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問題
大学入学共通テスト(英語)試験 令和6年度(2024年度)追・再試験 問44(<旧課程>英語リーディング(第6問) 問6) (訂正依頼・報告はこちら)
次の英文や図表を読み、最も適当な選択肢を選びなさい。
You are preparing for a science fair presentation on a scientific discovery, using the following magazine article.
”Smart” Fabrics
Through the years, the fabrics we use have evolved to suit our changing lifestyles and needs. Linen, made from the fibers of a plant called flax, is one of the oldest textiles in the world. It naturally reflects away the sun and its intense heat, and allows better airflow than other types of fabric. Light and airy, linen has long been the ideal fabric for warm climates. With industrialization and population growth, however, cotton became more commonly used since it was suitable for mass production. Cloth made from cotton can be heavy and can trap body heat though, which may make people feel uncomfortable in very hot and humid weather.
Newer materials are always being developed as technology progresses, and ”smart” fabrics are a recent scientific breakthrough in the textile industry. Weaving flexible synthetic fibers into cloth can provide additional functions for the fabric. For example, scientists at the Huazhong University of Science and Technology made a new fabric called ”metafabric” that deflects heat to keep people cooler. Such fabric can be used to create clothes that ease the discomfort people suffer when the temperature rises. In their experiment, a participant wore a vest consisting of two halves―one half cotton and the other half metafabric―and was exposed to direct sunlight for an hour. Underneath the cotton, the skin temperature soared to 37℃. In contrast, underneath the metafabric, the temperature rose by just one degree, from 31℃ to 32℃.
Another interesting example is a fabric that can detect sounds. The human ear picks up sound pressures, and the inner organs convert sound waves into mechanical vibrations and then into electrical signals. Similarly, ”piezoelectric materials,” which are typically used for microphones or speakers,produce an electrical signal when mechanically bent.
Using this knowledge, a team of researchers at the Massachusetts Institute of Technology and the Rhode Island School of Design came up with a so−called ”acoustic fabric.” The researchers wove a piezoelectric fiber into fabric and conducted a series of experiments. One experiment examined the fabric’s sensitivity to sound directions. They sewed two pieces of acoustic fabric onto the back of a shirt. Then, they clapped their hands at various angles away from the shirt. The fiber converted the sound first into mechanical vibrations, then into electrical signals that were stored on a device. The fabric was successfully able to pinpoint the angle of the sounds. This could lead to a useful application for individuals with hearing aids to identify the direction of a specific sound even in noisy surroundings.
In addition to functioning as wearable hearing aids, acoustic fabric can be used for other purposes such as tracking respiratory(lung), pulse, and cardiac(heart)conditions. Another experiment tested whether clothes with acoustic fibers could act as fabric stethoscopes to monitor a person’s subtle cardiac features. The research group attached a single fiber over the chest region on a shirt and found it accurately detected the wearer’s heart signals. Furthermore, this result indicated the possibility of utilizing the fabric in maternity clothes to check an unborn baby’s heartbeat.
Researchers see applications of smart fabrics beyond clothing. A smart fabric with cooling performance can be applied to various products for different purposes, such as tents, car covers, curtains, and sunshade products. Acoustic fabrics can be integrated with spacecraft coatings to monitor cosmic debris, or be used to help detect cracks or strains in buildings. They can even be woven into a net to check on fish in the sea.
As these examples of textile innovation suggest, new fabrics can enhance our lives in many ways. You may not believe this, but the coolest things about these fabrics are that you can get ”smart” while wearing them and some of them are machine−washable!
Which is the best title for the presentation on Slide 1?( 44 )
Your slides:
You are preparing for a science fair presentation on a scientific discovery, using the following magazine article.
”Smart” Fabrics
Through the years, the fabrics we use have evolved to suit our changing lifestyles and needs. Linen, made from the fibers of a plant called flax, is one of the oldest textiles in the world. It naturally reflects away the sun and its intense heat, and allows better airflow than other types of fabric. Light and airy, linen has long been the ideal fabric for warm climates. With industrialization and population growth, however, cotton became more commonly used since it was suitable for mass production. Cloth made from cotton can be heavy and can trap body heat though, which may make people feel uncomfortable in very hot and humid weather.
Newer materials are always being developed as technology progresses, and ”smart” fabrics are a recent scientific breakthrough in the textile industry. Weaving flexible synthetic fibers into cloth can provide additional functions for the fabric. For example, scientists at the Huazhong University of Science and Technology made a new fabric called ”metafabric” that deflects heat to keep people cooler. Such fabric can be used to create clothes that ease the discomfort people suffer when the temperature rises. In their experiment, a participant wore a vest consisting of two halves―one half cotton and the other half metafabric―and was exposed to direct sunlight for an hour. Underneath the cotton, the skin temperature soared to 37℃. In contrast, underneath the metafabric, the temperature rose by just one degree, from 31℃ to 32℃.
Another interesting example is a fabric that can detect sounds. The human ear picks up sound pressures, and the inner organs convert sound waves into mechanical vibrations and then into electrical signals. Similarly, ”piezoelectric materials,” which are typically used for microphones or speakers,produce an electrical signal when mechanically bent.
Using this knowledge, a team of researchers at the Massachusetts Institute of Technology and the Rhode Island School of Design came up with a so−called ”acoustic fabric.” The researchers wove a piezoelectric fiber into fabric and conducted a series of experiments. One experiment examined the fabric’s sensitivity to sound directions. They sewed two pieces of acoustic fabric onto the back of a shirt. Then, they clapped their hands at various angles away from the shirt. The fiber converted the sound first into mechanical vibrations, then into electrical signals that were stored on a device. The fabric was successfully able to pinpoint the angle of the sounds. This could lead to a useful application for individuals with hearing aids to identify the direction of a specific sound even in noisy surroundings.
In addition to functioning as wearable hearing aids, acoustic fabric can be used for other purposes such as tracking respiratory(lung), pulse, and cardiac(heart)conditions. Another experiment tested whether clothes with acoustic fibers could act as fabric stethoscopes to monitor a person’s subtle cardiac features. The research group attached a single fiber over the chest region on a shirt and found it accurately detected the wearer’s heart signals. Furthermore, this result indicated the possibility of utilizing the fabric in maternity clothes to check an unborn baby’s heartbeat.
Researchers see applications of smart fabrics beyond clothing. A smart fabric with cooling performance can be applied to various products for different purposes, such as tents, car covers, curtains, and sunshade products. Acoustic fabrics can be integrated with spacecraft coatings to monitor cosmic debris, or be used to help detect cracks or strains in buildings. They can even be woven into a net to check on fish in the sea.
As these examples of textile innovation suggest, new fabrics can enhance our lives in many ways. You may not believe this, but the coolest things about these fabrics are that you can get ”smart” while wearing them and some of them are machine−washable!
Which is the best title for the presentation on Slide 1?( 44 )
Your slides:
- Bio−Based Textile Innovation
- First Fabric That Addresses New Challenges
- Great Advantages of Clever Textiles
- The History of Fiber Design
正解!素晴らしいです
残念...
この過去問の解説 (3件)
01
プレゼンテーションのタイトルとして正しいものを選びます。
生物由来繊維の革命
不正解です。
後のスライドのタイトルから、Acoustic Fabricに関する説明であると推測し、2枚目のスライドで生物由来繊維であるリネンやコットンといったtraditional Fabricと対になっているため、選択肢から除外されます。
また、本文の2段落めの”smart” fabrics are a recent scientific breakthrough in the textile industry. Weaving flexible synthetic fibers into cloth can provide additional functions for the fabric.
の部分から、生物由来ではなく、合成繊維であることがわかります。
新しい挑戦に取り組む初の繊維
不正解です。
First fabricが何を指すかが明確ではないため、除外されます。
独創的な繊維製品の素晴らしい利点
正解です。
スライドにbenefit,Applications などの単語がある事から、本選択肢を選びます。
ファイバーデザインの歴史
不正解です。
後のスライドのタイトルに注目すると、歴史に関する記述がないため、除外されます。
課題文をすべて読み通す前に、スライドを見て内容を推測してから課題文を読むと理解しやすく、時間の節約になります。
試験中はほかの問題を解いてから本問題を解くとわかりやすいです。
参考になった数0
この解説の修正を提案する
02
問の訳は以下の通りです。
スライド1のプレゼンテーションに最適なタイトルはどれですか?(44)
本文の内容を確認しましょう。
あなたは、以下の雑誌記事を用いて、科学フェアで科学的発見に関するプレゼンテーションの準備をしています。
「スマート」ファブリック
長年にわたり、私たちが使用するファブリックは、変化するライフスタイルやニーズに合わせて進化してきました。亜麻と呼ばれる植物の繊維から作られるリネンは、世界最古の織物の一つです。リネンは太陽光とその強烈な熱を自然に反射し、他の種類のファブリックよりも通気性に優れています。軽くて風通しの良いリネンは、古くから温暖な気候に最適なファブリックでした。しかし、工業化と人口増加に伴い、大量生産に適した綿が一般的に使用されるようになりました。しかし、綿で作られた布は重く、体温を閉じ込めてしまうため、非常に暑く湿度の高い天候では不快感を感じることがあります。
技術の進歩に伴い、常に新しい素材が開発されており、「スマート」ファブリックは繊維業界における最近の科学的ブレークスルーとして注目されています。柔軟な合成繊維を布に織り込むことで、布地に追加の機能を持たせることができます。例えば、華中科技大学の科学者たちは、熱を反射して人々を涼しく保つ「メタファブリック」と呼ばれる新しい布地を開発しました。このような布地は、気温が上昇したときに人々が感じる不快感を和らげる衣服を作るために使用できます。実験では、参加者は半分が綿でもう半分がメタファブリックであるベストを着用し、1時間直射日光にさらされました。綿の下では、皮膚温度が37℃まで上昇しました。対照的に、メタファブリックの下では、温度はわずか1℃上昇し、31℃から32℃になりました。
これを踏まえて、各選択肢を確認しましょう。
訳:生物由来の繊維の革新
スマートファブリックでは合成繊維(Weaving flexible synthetic fibers)メタファブリックでは綿とメタファブリックでできた素材を使用しているため、この選択肢は不正解です。
訳:新たな課題に取り組む初の生地
Light and airy, linen has long been the ideal fabric for warm climates.(軽くて風通しの良いリネンは、古くから温暖な気候に最適なファブリックでした。)とあり、初の取り組みではないことがわかります。よって不正解です。
訳:賢い繊維の大きな利点
Newer materials are always being developed as technology progresses, and ”smart” fabrics are a recent scientific breakthrough in the textile industry.技術の進歩に伴い、常に新しい素材が開発されており、「スマート」ファブリックは繊維業界における最近の科学的ブレークスルーとして注目されています。
とあり、選択肢の意に則します。よって、この選択肢が正解です。
訳:繊維デザインの歴史
以降の本文を確認すると、このプレゼンは繊維の歴史についてではないことがわかります。
よって、不正解です。
参考になった数0
この解説の修正を提案する
03
本文の日本語訳
「スマート・ファブリック(高機能布地)
長年にわたり、私たちが使用する布地は、変化するライフスタイルやニーズに合わせて進化してきました。亜麻(フラックス)という植物の繊維から作られるリネンは、世界で最も古い繊維の一つです。リネンは自然に太陽光とその強烈な熱を反射し、他の種類の布地よりも通気性に優れています。軽くて風通しの良いリネンは、長い間、温暖な気候に理想的な布地でした。しかし、工業化と人口増加に伴い、大量生産に適した綿(コットン)がより一般的に使われるようになりました。とはいえ、綿で作られた布は重くなることがあり、体温を閉じ込めてしまうため、非常に高温多湿な天候では不快に感じることがあります。
技術の進歩に伴い、常に新しい素材が開発されていますが、「スマート・ファブリック」は繊維業界における最近の科学的画期的な成果です。柔軟な合成繊維を布に織り込むことで、布地に付加的な機能を持たせることができます。例えば、華中科技大学の研究者たちは、熱をそらして人をより涼しく保つ「メタファブリック」と呼ばれる新しい布地を作りました。このような布地は、気温が上昇したときに人々が経験する不快感を和らげる衣服を作るのに役立ちます。彼らの実験では、参加者が半分は綿、もう半分はメタファブリックでできたベストを着用し、直射日光に1時間さらされました。綿の下の皮膚温度は37℃まで上昇しました。対照的に、メタファブリックの下では、温度は31℃から32℃へと、わずか1度上昇しただけでした。
もう一つの興味深い例は、音を検知できる布地です。人間の耳は音圧を拾い、内部器官が音波を機械的な振動に変換し、さらに電気信号へと変換します。同様に、通常マイクロホンやスピーカーに使用される「圧電材料(ピエゾ材料)」は、機械的に曲げられると電気信号を発生させます。
この知識を利用して、マサチューセッツ工科大学とロードアイランド・スクール・オブ・デザインの研究チームは、いわゆる「アコースティック・ファブリック(音響布)」を考案しました。研究者たちは圧電繊維を布に織り込み、一連の実験を行いました。ある実験では、音の方向に対する布の感度を調査しました。彼らはシャツの背中部分に2枚のアコースティック・ファブリックを縫い付けました。そして、シャツから離れた様々な角度で手を叩きました。繊維は音をまず機械的振動に変換し、次にデバイスに保存される電気信号へと変換しました。その結果、布地は音の角度を正確に特定することに成功しました。これは、補聴器を使用している人が、騒がしい環境でも特定の音の方向を識別するための有用な応用につながる可能性があります。
アコースティック・ファブリックは、ウェアラブル補聴器として機能するだけでなく、呼吸器(肺)、脈拍、心臓の状態を追跡するなどの他の目的にも使用できます。別の実験では、音響繊維を用いた衣服が、人のわずかな心臓の特徴を監視する「布製聴診器」として機能するかどうかがテストされました。研究グループは、シャツの胸部領域に一本の繊維を取り付け、着用者の心臓信号を正確に検知することを発見しました。さらに、この結果は、お腹の中の赤ちゃんの心拍を確認するためのマタニティウェアにこの布地を利用できる可能性も示しました。
研究者たちは、スマート・ファブリックの用途が衣類にとどまらないと考えています。冷却性能を持つスマート・ファブリックは、テント、カーカバー、カーテン、日よけ製品など、さまざまな目的の製品に応用できます。アコースティック・ファブリックは、宇宙ゴミ(コスミック・デブリ)を監視するために宇宙船のコーティングと統合したり、建物のひび割れや歪みの検知に役立てたりすることもできます。さらに、網に織り込んで海中の魚の状態をチェックすることさえ可能なのです。
これらの繊維革新の例が示唆するように、新しい布地は私たちの生活を多くの面で向上させてくれます。信じられないかもしれませんが、これらの布地の最も素晴らしい点は、それらを身に着けている間に「スマート(賢く/洗練された状態)」になれること、そしてその一部は洗濯機で洗えることなのです!
この設問では、
スライド1のタイトル(44)に合う選択肢を選びましょう。
訳)生物由来の繊維革新
→間違い
冒頭でリネン(植物由来)に触れていますが、記事のメインであるメタファブリックは
「合成繊維(synthetic fibers)」を用いたテクノロジーに関するものです。
訳)新しい課題に取り組む最初の布地
→間違い
リネンが温暖な気候における理想的な布地であったと述べられていることから、スマートファブリックが「最初」であるとは言えません。
訳)賢い繊維の素晴らしい利点
→正しい
記事のタイトルは「Smart Fabrics(高機能布地)」であり、
本文中では「スマート・ファブリック」が繊維業界における画期的な成果として紹介されています。
Smart の類義語として選択肢の Clever が使われており、内容も単なる歴史ではなく、熱を遮断したり音を検知したりする
「利点(Advantages)」とその実験結果に焦点を当てています。
訳)繊維デザインの歴史
→間違い
第1段落でリネンや綿の歴史に触れていますが、スライド3〜6の構成を見ると、そのほとんどが最新の「スマート・ファブリック」の実験と応用に関する内容です。
参考になった数0
この解説の修正を提案する
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