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English Junior High

これを読んで問題を解いてください。よろしくお願いします

「クリック コンテンツ CAN-DO エネルギー問題に関する説明文を読んで、 概要を理解し, 自分の考えや意見を述べることができる。 Pre-reading What does "power" in this title mean? New Words ○ electricity [ilèktrísati] 電力 |cut [kåt] ← cut [kôt]...を切る, ・・・の供給をとめる じゅうでん charge [tfa:rdz] ・・・を充電する ✓ smartphone (s) [smártfôun(z)] スマートフォン ○ oil [5il] 石油 ○ coal [kóul] 石炭 ○ natural gas [nætfaral gés] 天然ガス ひかく ○ relatively [rélativli] 比較的 ✓ release [rilí:s] ・・・を放出する ■ dangerous [déindzaras] 危険な ✓ chemical(s) [kémikal(z)] 化学物質 health [hél0] 健康 fossil fuel(s) [fásl fjù:al(z)] 化石燃料 carbon dioxide [ka:rban daiáksaid] 二酸化炭素 ○ run out of ・・・ を使い果たす If the electricity were cut for one week, what would happen to our lives? The lights would be off. Trains コンテンツ would stop. We could not charge our smartphones. We depend on electricity to power most of our daily activities. How can we make the electricity we need for our future? 5 2 Japan uses a lot of oil, coal, and natural gas to make electricity. These resources are called “fossil fuels.” Fossil fuels have some good points. They are relatively cheap, and they can be used for many things. However, scientists say that we may run out of fossil 10 fuels in 100 years. There are other problems, too. Fossil fuels release carbon dioxide and other dangerous chemicals. They increase global warming and damage our health. [123 words] In-reading 1 What do we depend on to power our daily activities? 2 What do fossil fuels release? ●日本の一次エネルギー国内供給の割合 まいぞう ●世界のエネルギー資源の可採年数と確認可採埋蔵量 エネルギーなど 7.8 Other renewable energy, etc その他の再生可能 Natural gas 石油 51年 天然ガス 53年 石炭 153年 Oil 石油 187兆m3 39.7 天然ガス Water power 23.8 水力 3.3 1兆7,067億 バーレル Coal 石炭 25.4 資源エネルギー庁 (2016) 106 one hundred and six TIT 11,393億トン 日本原子力文化財団 (2016)

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English Senior High

(4)について This is why にしてしまいました。  This is becauseというようなThis is whyの表現ではだめな理由を教えてください

(60分) Ⅰ 次の英文を読んで、下の設問 (1)~ (11) の語には注が付いています。 に答えなさい。 なお、 Food is fuel. When your body needs energy, you eat. When it doesn't you don't. It should be so simple when you think about it, but that's exactly the problem: us big smart humans can and do think about it, (, introduces all manner of problems and neuroses*. Have you noticed how you always have "room for dessert"? You might have just eaten the best part of a cow, or enough cheesy pasta to sink a gondola, but you can manage that fudge brownie or sundae. Why? How? If your stomach is full, how ice cream triple-scoop b) eating more even physically possible? It's largely because your brain makes an executive decision and decides that, no, you still have room. The sweetness of desserts is a palpable* reward (7)that the brain recognizes and wants so it overrules the stomach. C Exactly {c case is ③ is 4 the this why) uncertain. It may be that humans need quite a complex diet in order to remain in tip-top* condition, so rather than just relying on our basic metabolic systems to eat whatever is available, the brain steps in and tries to regulate our diet better. And this would be fine if that was all the brain does. But it doesn't. So it isn't. Learned associations are incredibly powerful when it comes ( d ) eating. You may be a big fan of something like, say, cake. You can be eating cake for years without any bother, then one day you eat some cake that makes you vomit. Could be some of the cream in it has gone sour; it might contain an ingredient you're allergic to; or (and here's the annoying one) it could be that something else entirely made you throw up shortly after eating cake. out of The disgust eating poiso g And it consider th The brain than food, it doesn't worryingl needlessl one of li shovelin the brai (注) (1) (2

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Chemistry Senior High

電気分解や電池で、電子の流れをかけたりかけなかったりするのがどっちがどの場合かが全然わかりません。。教えていただけたら嬉しいです!

練習 8 京都大学改題 水素・燃料電池(Hydrogen Fuel Cell)を fig1 に示す。この燃料電池では、多 孔質の触媒を含む電極の間に電解液として水酸化カリウム水溶液が満たされてお り、負極側から気体水素、 正極側からは気体酸素が一定の割合で吹きこまれている。 それぞれの気体は、多孔質の電極を通って、水酸化カリウム水溶液と接触ができる ようになっている。二つの電極を導線でつなぐと、水酸化物イオンの移動によって 負極では水素の酸化反応が、 正極では酸素の還元反応が進行する。 この水素・燃料電池を 50 分間稼動させたとき,電流は一定値 386A を示した。 次の設問に答えよ。必要であればファラデー定数9.65×104[C]を用いよ。 抵抗 w 負極 正極 水素 酸素 未反応水素 水酸化カリウム 水溶液 未反応酸素 ↑多孔質の電極 ↑ fig 1. Hydrogen Fuel Cell (1)水素・燃料電池の電解液として,水酸化カリウム水溶液ではなくリン酸水 を用いた場合に正極および負極で起こる反応を,電子e を含む式で記せ。 (2) fig1 の水素・燃料電池の正極および負極で起こる反応を電子eを含む式で ✓ (3) 水素・燃料電池を 50 分稼動させたときの電気量は何C か。 (4) 50 分間の稼動で流れた電子は何molか。 XX (4) (5) 50 分間の稼動で反応した水素は何molか。 XX 65 (6)水素・燃料電池の電解液には,酸性型とアルカリ型があるが、酸性型 実用面で主流である。 その理由を記せ。 15

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English Senior High

(3)について答えはthese new types of cementまたはnew types of cement ですがthe new types of cement でも大丈夫ですか?

6 2019年度 英語 Ordinary Portland cement-t produced by baking lime in a kiln and emits approximately one ton of carb a kiln and emits Cement production is responsible for cement. dioxide for every ton of approximately 5% of global man-made CO2 emissions, according to the World Business Council for Sustainable Development. Cement does absorb some carbon dioxide back from the atmosphere over time, One 2016 study estimated that between 1930 and 2013, the equivalent of 43% of CO2 released from lime during heating was reabsorbed by - although that percentage does not include carbon concrete products worldwide dioxide emitted by the fossil fuels burned to heat kilns, a significant contributor of says. Fennell notes. 東京医科歯科大前駅 - the most common form in concrete- CO2 emissions during production. Unfortunately, this absorption comes at a price, particularly when cement is used in structures that feature steel reinforcement bars (rebar) within concrete. vl(As) CO₂ moves through cement it changes the pH of the surroundings, Fennell says. Concrete loses its alkalinity and, when moisture and oxygen are present, causes the rebar to rust. 2) ad "Rusting steel can expand with great force to as much as nine times its original dimensions if you add up all of the layers of iron oxide," says Randolph Langenbach, an international consultant in building conservation. This expansion causes the concrete to crack, flake and crumble. Svi aft ni adosband huma Degradation is a massive concern, he argues, and problems are not limited to rusting rebar. Everything from air pockets left in the concrete mix when it's laid to salt air buffeting coastal-facing walls, or the use of beach sand in the concrete, can shorten a building's lifespan. As one specialist once put it to Langenbach: "If it ain't cracked, it aint concrete."qubong ao yas guidtyns ogde stornos 90 s of fshoqml is vatns mash *** long llopsd lust ay to Given the concerns about the environmental impact and structural longevity of concrete, why do we continue to build with it? addi Simply put, concrete is cheap, versatile, quick to erect and requires no of weight J

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