In gloomy burial tunnels under Paris, workers carefully stacked the bones and skulls of people killed during the French Revolution into a... 続きを読む

線が引いてある「a flat of」の意味が良く分かりません…どなたか教えてほしいです…！

5 without touching a keyboar 1 Much of what we eat today comes to our tables from other areas. Today, 1) walking ruch of wil through the aisles of a grocery store is almost like taking a trip around the world: strawberries from Chile and *Asian pears are available in the middle of winter. Americans have come to expect constant variety in their diet, wherever they live, whatever the time of year. This means we must often import our food from around the world. It is important to understand how this affects our Earth. 2 When food has to travel great distances, it is not just *shipping that is expensive; the environmental impact is also costly. For example, the true cost of transporting *a flat of strawberries from Chile to a grocery store in the United States must also take into account the *manpower, *fossil fuel consumption, and *carbon emissions. 3 The phrase "food miles" means the number of miles a product must travel in order to reach the consumer. A flat of strawberries from Chile *shipped to Ohio has traveled more "food miles" than a flat from California. Measuring food impact on the Earth must also take into account weather (strawberries grown in *hothouses have a bigger *carbon footprint than those grown in sunlight) and transportation type (*ocean freighters use less fuel than aircraft). "Food miles" are a rough but crucial calculation el than airc #5082 5) of the environmental impact of our foods. They can help us assess the full costs of our food choices.msdt gaidonot juodliw 21slugmos seu 240 words) aid ovom of oly boldeas and colorife) bosheidque ed gain a lobizoi erotuomos llamadiw abrudbed gansow 」である.

漢字です、全くわからないです教えてください🙏

問1 次の口にあてはまる漢字をそれぞれ書き入れなさい。 (1) 再 社 1-t 議 1111 (2) 練 学 慣 atun 銀 (3) 国処期香 調 論 14 WBCD+ASTA 得 日中 TRE ANS RETTETE 解

【交流の発生】sinからcosに変わる理由がわかりません。

表せ。 (8)抵抗、コイル, コンデンサーで消費される電力を時間平均すると,それぞれいく になるか。 センサー 137,138, 140 404 物理 交流の発生 右図のように,一様な磁界 中で、図の向きにコイルを毎秒50回転させたと ころ, 端子 PQ間に生じた交流電圧の実効値が 2.0mVになった。 このコイルの回転数を毎秒200 回にしたとき,Pに対するQの電位はどのように 変化するか。横軸に時刻 [ms] をとり,縦軸に電位 V[mV〕をとってグラフに描け。ただし、右図の 0=0のときを 時刻 0 とする。 29

【動くコイルに発生する誘導起電力】自分なりに図を書いてみたんですけど、マジで3エル引いてる理由がわかりません。

本 367 動くコイルに発生する誘導起電力 右図のよう。 幅 に、20m] で磁束密度/B [Wb/m²]の一様な磁界が ある。1辺の長さが10m] の正方形のコイルを同じ平 面内に置き、矢印の向きに [/s] の速さで動かす。 右図の状態を時刻 t = 0[s] として, PQが磁界を通過 しきるまでの, コイル内を貫く磁束のWb] と 時刻 のグラフ,誘導電流I [A]と時刻f[s] のグラフを 描け。 ただし、コイルの抵抗をR [Ω] 電流は P→Q センサー 134 →R→Sの向きを正とする。 QIRI 21 B 28

【電磁誘導】の問題です。 このNはなぜ1なんですか？文章のどこ見ても明記されてないです

コイルを含む回路について詠める。 「スイッチを入れるとできる逆電圧 ~ 時間が経つと導線となる~♪」 右図のように、真空中で,鉛直上向きの磁束密度B[T〕の一 様な磁界中にコの字型の回路が水平に置かれている。Rは抵抗 635 動く導体棒に発生する誘導起電力 次の文のを埋めよ。 36 動く導体棒に発生する誘導起電力鉛直上向きの一様」 4B r[m/s]で右向きに動かしたとき, [[s〕間でコイルの面積Sは 100mだけ増加するので、コイルを貫く磁束は② (Wb)だけ増加する。 したがって, ③の法則より､回路に 発生する起電力Vの大きさは ④ 〔V〕 となる。このとき, 導体棒 ab を流れる電流の 点aより点bの電位のほうが ⑧ い。 回路を流れる電流がつくる磁界を無視すると 強さは⑤][A] となり,電流の向きは⑥の法則より ⑦ の向きとなる。 また, 導体棒が磁界から受ける力Fは ⑨ 〔N〕 となる。 摩擦がないとすると, 導体棒ab を 一定の速さで動かすために加えるべき外力の大きさ F'は ⑩[N]となり, 外力Fが f[s]間にする仕事 W は ⑩1〔J〕となる。一方,その間にRで発生するジュール熱 Q ] は[②] [J] となる。これより,WとQとの間には⑩3という関係が成り立つことが わかる。 センサー 131, 133, 134 R a V 28 Ħ

【右ねじの法則】何をどうみたら、これが時計回りになるのかわかりません。

F=mH 小さな磁極間にはたらく力 は, |m|.|ma| F=k (磁気力に関するクーロン の法則) H ●センサー 127 小磁針のN極は合成した 磁界の向きを指す。 右ねじの法則 H Tb Hs=kmx (4L) 2 16L2 (2) 右図より,H⊥Ⅱだから、 H=√H² + H₂² 232 第IV部 電気と磁気 kmm 例題 83 円形電流と小磁針 右図のように、半径r[m]の円形コイルを,水平面に垂直 に,コイルの円と水平面の交わる線が南北方向に平行になる ように配置し, コイルの中心に小磁針を置いた。コイルに IAの電流を流したところ、小磁針のN極が北西の向きを 指した。 この地点における地球の磁界の水平成分の強さはい くらか。 また、コイルに流した電流の向きを答えよ。 2 kmm 2 16L2 (N/Wb) + 912 /337kmm 144L2 2r 解答 円形コイルの中心にできる磁界の強 さをH[A/m〕 とすると N - [A/m〕 -5L- 北 367 円形コイル H' H= 「地球の磁界の水平成分の強さを H [日 [A][m]とする。 小磁針のN極は、その真上から見だ 点における合成した磁界の向きを向くので、 合成した磁界をH' [A/m〕 とすると、上図のような関係が 45° I る。これより, H=Hとなるから, Ho=. [A/m] 2r せん 右ねじの法則より、コイルを流れる電流の向きは、 イルを東側から見て時計回りの向き。 元 例題 85 各辺の とる。 車 を流した Nのy座 ア数 q[C), E (1) 半 (2) 流 (3) n •+ ホール交 のつり qE-

関係詞の分野です。至急解答をお願いします🙏

2. There was something about his story ( 1 what 3 which 5. Towns ( 1 where 1 次の英文の空所に入れるのに最も適切な語句を,下の①~④から一つずつ選びなさい。 you 1. Do customers ( ) smoke in restaurants bother ? 2 when 3 to ④ like 関東学 1 who 6. I saw a horse ( 1 which 3. Ken didn't believe ( (1) however 3 that ante leto s juo bemut radiour well as 4. You are the only man in the world ( 2 which 1 whose 3 that 演 10. ( 8. I never saw Brando again, ( 1 which 2 what 9. John insulted Mary, ( 1 that 1 When 11. That was the 1 where EXIS ) Jane said. said 7. There was no comment from the two ladies ( birl 1 of whom 2 who 3 whom 14. The office ( 1 what 習 ) attract tourists are usually crowded. Tur 2 which 3 to which 2 As Jeni evinos year ( a) coat was brown. 2 its 15. Ghibli Museum 1 where 2 which 2 whatever 4 whichever 13. This is a photo of the house ( (1) where we lived in 3 with which we lived go (2) some 4 everything frignon I ) I can call son 3 whose 2 which Yunum 901 is a place ( 問 ) made me suspicious. bine ) I would never do. 12. This must be the novel Mr. Matsuyama ( had referred in Ianor 3 referred to in 2 to where ) was a pity. 3 whom 4 what 3 who thin wal ) is often the case with her, she broke her promise. 3 It TRIGE SK ) I was born. 2 into which 3 in which TE my friend. 4 what ad ar 4 in which c we lived in to ono al mogel that ) I want to visit. 3 to which 4 where 2 had referred to 4 was referred to (拓殖大) I thought were sure to protest. 4 whose (神戸女学院大) gs way of 4 There suig eyewie vor T ) his lecture. 19vsodw 4 at which ) before we moved to Osaka. 2 we lived bed ) I work is on the top floor of the building. 3 where 4 in that and sli (京都産業大) 4 which (駿河台大 (桜美林大 (皇學館大) (関西外語大) (立命館大) ITI (東海大) (大阪経大) (甲南大) (大阪学院大) (西南学院大) (杏林大)

これをwhatを使って文を作るみたいなんですが全然分かりません。助けてください！！

(4) This is (now) Igrow strawberries at home. (~する方法〕 (p.59) EXERCISES [1] Complete the sentences to express the meaning written on the right. [→①] 〔ケンが言ったこと (1) I couldn't believe were some seashells. [少女がポケットに持っていたもの [3年前の自分〕 the Doppler effect. [いわゆる〕 (2) (3) I'm not (4) This is 2

下から5行目のit would～の文構造がわからないです。back upはどのような働きをしているのでしょうか。 教えて頂けるとありがたいです。

A Makeover for Hoover Dam Hydropower has attracted increasing attention in recent years as a renewable type of clean energy. As long as a suitable water source is available, hydropower facilities are usually good investments, producing energy in a manner that generates far less air pollution and CO2 emissions than fossil fuels do. The most common way to generate hydropower is to trap water at a high elevation behind a dam so it can be released and used to spin turbines below, which, in turn, power electricity-producing generators. However, hydropower has its drawbacks. Droughts and increased water consumption have reduced the flow of many rivers. As rivers become shallower, the necessary volume of water for electricity difficult to maintain, and power supply and generation is dependability are negatively impacted. more Variability in water levels has particularly affected Hoover Dam, a mega-scale hydropower facility in the US state of Nevada. Built in the 1930s at enormous expense to control the frequently flooding Colorado River and maintain a water supply for farmland irrigation, the dam's hydropower capabilities were seen as a way to recover some of the costs of its construction over the long term. The dam's electricity-generating capacity, however, was challenged from the start by seasonal variability in water flow, and in recent years has been greatly reduced by droughts. Combining hydropower with other alternative energy sources, though, may offer a solution. Solar and wind plants can produce enormous amounts of electricity, but one serious downside is that the energy they produce is not available when there is little sun or wind. While conventional batteries can help with this issue, storing such tremendous volumes of electricity has long been a challenge. A recently proposed system for Hoover Dam could provide an answer, though. The plan suggests building a new pumping station that would be powered by both wind and solar. It would push water from the river back up to Hoover Dam, refilling the lake behind it. The water could be released anytime to power the dam's generators in order to reliably meet demand for electricity. Kelly Sanders, an engineering professor at the University of Southern California, is enthusiastic about the storage plan, saying, "We by the p replace fo solat als are st ons to the What is 1 Inst inves 2 WE dams 3 A neg sys 1 en