高校英語の質問失礼します！ この⑩と⑪でそれぞれ共通して入る単語が分かりません…。どのような文になるのかも！ 分かる方教えて頂けると凄く嬉しいです！🥲✨ 【追記】 ⑪はdealかなと思いました…！

office soon, but for the (time) being you'll have to share one. ) into old students of mine when I went to that cafeteria. I always ( If we don't take more money with us, we ( 3つの文中のカッコ内に共通する1語を入れよ。 11 Whose turn is it to ( ) the cards? They try to ( The accident caused us a great ( ) the risk of running out during the trip. ) politely with angry customers. ) of trouble. 日本文に相当する英文にしたい｡ 不足している1語を加えて文を完成させよ。 ( 解答欄に全文を書け。) (12) I think (it \ (cotoled) this diam. ) (is ) (above) ( time )(

ここの8番は 『will next sports day be held』でも伝わりますか？？

問8 次は、後日の Ms. Wilson と Maki の会話です。 自然な会話になるように,( )に3語以上の適 切な英語を書きなさい。 Maki : Ms. Wilson: Yes, Iam. When ( Maki: Ms. Wilson, are you interested in our sports day? I think it will be in June. )?

答えが3なんですけど、解説がなくてよく分からないので解説ください！！

38 (3) ① SUMBER 4 次の問について、後の (1)~(4) の問いに答えなさい。 《東京学芸大附属》 STOOPIAMASI 図1のように, 数万Vの電圧を発生する誘導コイルにけい光板入り放電管 (ク ルックス管)と電流計をつないで, 誘導コイルのスイッチを入れると図2の陰極 線があらわれた。 (1) 誘導コイルと放電管, 電流計の配線はどれか。 次の ① ~ ④ から選べ。 ① A A FCS/\_by__ AS) Q 図1 *Fu STROM 針状電極 (+)~— 放電管 E 電流計 SAMA _(直流) エ 円形電極 (極) 誘導コイル (S) (2) 電流計に1mAの電流が流れるとき, 放電管が消費する電力はいくらか。 次の ① ~ ⑤ から選べ。 ① 数W ② 数+W ③ 数百W ④ 数千W 2 (1) S

We tried to calm down the lady whose diamond ring we looked for all over the house. 訳し方をお願いします🙇🏻‍♀️⸒⸒

どなたか英語文法が得意な方に答えをわかりやすく教えてほしいです🙇🏼‍♂️ 分かるものだけでも教えてくれると助かります！

以下の各文は下線部1~4のどれか一つに文法・語法上の誤りがあります。そ の箇所を選び,その番号を解答用マークシートにマークしなさい。 (1) There is only one secret writing a children's book, which is to make a hero-experience adventures in such a way which he appears courageous 2 3 enough for children to adore. (2) The Japanese yen has declined to its lowest level against the US dollar 1 2 since August 1998, prompted the government to weigh action. 3 (3) Now that the library has been renovated and has more books, we ask 1 2 users to fill in a questionnaire about the library, and we look forward to hear 3 their opinions. (4) I think the question is that fifty billion dollars is enough for defense spending, and if we think so, we need only get approval from the Parliament. 1 (5) No sooner had the news of discovery of a new asteroid become known to the public before the telephone in the observatory started ringing, and the 37 2 chief astronomer was scheduled for an official interview with the press.

この問題の答えが二番以外にならない理由を教えて欲しいです💦 ③はmoreがついてないので除外、①も文脈に適さないので除外、となりますが、④は答えに適しそうです…more betterも聞いたことのある表現ですし…

(61) ) ) (62) Our teacher has told us that DVDs are (oc) videotapes for foreign language (T S od sveds) nor (62) learning. Dsuch good as gunMed [Irw Stye svado gatitw superior to 3useful than 4more than better CE y vide god vlniam ai basies wel ni C

英文がわからないです心の優しい方、英文の解き方を教えて欲しいです🙇‍♀️

35 15 20 signatures in business. However, no one used fingerprints in crime work until the late In ancient times, people used fingerprints to identify people. They also used them as 1880s. Three men, working in three different areas of the world, made this possible. (1) The first man who collected a large number of fingerprints was William Herschel. He worked for the British government in India. He took fingerprints when people (7) official papers. For many years, he collected the same people's fingerprints several times. He made an important discovery. Fingerprints do not change over time. At about the same time, a Scottish doctor in Japan began to study fingerprints. Henry Faulds was looking at ancient Japanese pottery* one day when he noticed small It occurred to him that the lines were 2,000-year-old fingerprints. Faulds wondered, "Are fingerprints unique to each person?" He began to take fingerprints of all his friends, co-workers, and students at his medical school. Each print was (). He also wondered, "Can you change your fingerprints?” shaved the fingerprints off his fingers with a razor to find out. Would they grow back lines on the pots. (2) He the same? They did. One day, there was a theft in Faulds's medical school. Some alcohol was missing. Faulds found fingerprints on the bottle. He compared the fingerprints to the ones in his records, and he found a match. The thief was one of his medical students. By examining fingerprints, Faulds solved the crime. Both Herschel and Faulds collected fingerprints, but there was a problem. It was very difficult to use their collections to identify a specific fingerprint. Francis Galton in England made it easier. He noticed common patterns in fingerprints. He used these to help classify fingerprints. These features, called "Galton details," made it easier for police to search through fingerprint records. The system is still in use today. When 25 police find a fingerprint, they look at the Galton details. Then they search for other fingerprints with similar features. (4) Like Faulds, Galton believed that each person had a unique fingerprint. According to Galton, the chance of two people with the same fingerprint was 1 in 64 billion. Even the fingerprints of identical twins are ( ). Fingerprints were the perfect tool to 30 identify criminals. For mo than 100 years, no one found two people with the same prints. Then, in 2004, terrorists (I) a crime in Madrid, Spain. Police in Madrid found a fingerprint. They used computers to search databases of fingerprint records all over the world. Three fingerprint experts agreed that a man on the West Coast of the United States was one of the criminals. Police arrested him, but the experts were wrong. The man was innocent. Another man was (). Amazingly, the two men who were 6,000 5 10 136 Lesson 日本大学 470 words 22 (3) 23 024 25 26

左下の🟥で囲ったとこなんですが＝がついてるのは何故でしょうか？ 左上の🟦が示せているので＝はつかないと思ったのですが。 よろしくお願いします。

an²+3 4 (n=1, 2, ……) で定義される数列{an}について a1=0, an+1 (1) 0≦an<1が成り立つことを,数学的帰納法で示せ. 1-an (2) 1-an+1< が成り立つことを示せ . 2 (3) liman を求めよ. n→∞ 1 2n-1 解けない2項間漸化式と極限 簡単には一般項を求めることができない2項間の漸化式 an+1= f(an) で定まる数列の極限値を求める定石として,以下の方法がある. an の極限が存在して,その値がαならば, lima,=α, lima,+1=α であるから, αはα = f(α) を 1° 満たす.これからαの値を予想する. 2°与えられた漸化式 an+1=f(a) と α = f(α)の辺々を引くと, an+1-α=f(a) - f(α) となる が,これから, |an+1-α|≦k|an-αl, kは 0≦x<1である定数・ の形の不等式を導く. すると,|an-al≦klan-1-al≦k2|an-2-al≦..≦kn-1|a-a| 0≦an-a|≦kn-1|α-a| limkn-1|α1-α|=0であるから, はさみうちの原理により, an-α|→0 n→∞ · ≤ak+1<- 解答量 (1) n に関する数学的帰納法で示す. n=1のときは成立する. n =kでの成立,つまり0≦x<1が成り立つとすると,k+1 について, 02+3 12+3 .. 0≦ak+1 <1 4 よってn=k+1のときも成立するから, 数学的帰納法により示された. an²2+3 1-an² 2 1+ an (2) 漸化式から, 1-an+1=1-- (1-an) 4 4 4 (1)により tan1+1=1/21-0,>0であるから, 4 = 1-a₂+1 <1/12/2 (3) 1-a>0と、① を繰り返し用いることにより, 01-an</(1-an-1) 22 (1-0₁-2) <... < ・(1- 2² (なお、要点の整理・例題 (8) からのkは定数でないと, an→α とは結論できない) -(1-an) (1 n→∞ 2n-1 n→∞ (1−1)=1 →0より, はさみうちの原理から lim (1-am) = 0 n→∞ HAS 2n-1 liman=1 118 (岡山県大情報工-中 an→α (n→∞) 0≦x<1のとき,02≦ak2/12 漸化式を用いて 1-an+1 を an 表す. a= 本問の場合、求める極限値を として, 1° を使うと, a²+3 4 からαの値が予想できる. ∴.α=1,3

答えがbの理由を教えてください🙏🙏 aではなぜダメなんですか？？？？？？

(8) Paul Williams, Operations Director of KGU Hotels, ( ) as the president. ③ are nominated b. has been nominated c. has nominated d. will nominate

chronemics ってどういう意味ですか？