教えてください！

Akemi Hamano, a recruiting consultant at *Hays, says that, with the exception of blue-collar positions, companies are looking for a business level of Japanese ability sufficient for frequent back-and-forth communication and being able to make ( 1 ) together. David Price, client services director at *Robert Half, is more *succinct. "In most cases it's pretty simple - if your co-workers and/or clients can't or won't speak your language, then you must speak (and often read and type) ( 2 )," Price says. At the same time, whereas ( 3 ) for conversational level abilities are high, Alan Adkins, president of *The Refined Group, notes that there is more flexibility when it comes to reading and writing, due to an awareness that learning kanji is hard. The value placed on Japanese ability may not be only related to ease of ( 4 ) top communication. "Many companies also look at business level Japanese ability as a sign of ( 5 ) to Japan as well as solid work ethic as most Japanese people seem to understand how difficult their native language is,” says Anthony Blick, a senior consultant at *PowerUp Solutions. 注) Hays 会社の名前 Robert Half:会社の名前 succinct : 簡潔な The Refined Group : 企業グループの名前 PowerUp Solutions: 会社の名前 ( 1 ) 7. decisions X (2) 7. mine (3) 7. exceptions Y (4) 7. academic X (5) 7. command 7. illustrations 1. yours 1. expectations 1. business 1. commitment . quarrels 7. ours goog . experiences . daily . compassion pre prior 200 I. subscriptions I. theirs I. experiments I. professional I. competition

2番の問題のどこをどう直すのか、理由も併せて教えてください🙏🙇‍♀️

2 次の英文の下線部には誤っている箇所がそれぞれ一つずつある。その番号を指摘した上で,正しい 形に直しなさい。 1. The value 1 1: On Friday nights I usually 2. I e of the yen 20 should have apologized to Mariko yesterday 1 is still very angry and that she am sure that she withd at st declines as the rate of inflation raises. (早稲田大) from the bank and go to the with criticizing her so harshly. I does not want to talk to me. (南山大) Stripe viv 3. While the proposal seemed on, hou 2 it impractical. 4. Mary explained me de arrived was cooking hopL Hajari besed I nedW acceptably to student leaders, the president stle insmom how the new computer system eqosla (2) I cooked 8 de quemyyliquer or12 worked considered (成蹊大) Iceleg() 81 HUES a at her school. (明海大)

The banks need collateral,something of equal value to the loan. 銀行は融資と同等の価値がある担保が必要になる。 collateral,somethingこの部分はなんの用法ですか？ 関係代名詞がないのはなぜ... 続きを読む

画像の4.2の問題の解き方を教えてください。

106 K M X(T) M. F sin (NT) (1)X 100 -100 ( XImax 80 0 0 4 Dimensional Scaling Analysis + KX = F sin (2T), X(0) = Xo, 1 n 2 10 T 3 Fig. 4.1 The elementary problem of a mass on spring with an applied force: (Left) dimensional parameters, (Right) solutions X(T) for various parameters and (Inset) the amplitude in relation to the forcing frequency ada 4.2 The governing equation for the linear mass-spring system shown in Fig. 4.1 is d²X dT² dX dT\T=0 20 = Vo, where X(T) [m] is the position of the mass as a function of time with mass M [kg], and spring coefficient K [N/m], magnitude of the applied force, F [N], forcing frequency, 2 [s], as well as general initial conditions, Nondimensionalize and select length- and time-scales L, T to normalise the coef- ficients of the terms on the left side of the ODE and the initial condition for position. Write and solve the scaled problem, and identify the dimensionless parameter for the ratio of the forcing frequency to resonant frequency, where the solution's amplitude grows without bound, as shown for 22 in Fig. 4.1. 4.3 Consider the initial value problem for a damped driven nonlinear oscillator:

画像の問題を教えてください！

106 K M X(T) M. F sin (NT) (1)X 100 -100 ( XImax 80 0 0 4 Dimensional Scaling Analysis + KX = F sin (2T), X(0) = Xo, 1 n 2 10 T 3 Fig. 4.1 The elementary problem of a mass on spring with an applied force: (Left) dimensional parameters, (Right) solutions X(T) for various parameters and (Inset) the amplitude in relation to the forcing frequency ada 4.2 The governing equation for the linear mass-spring system shown in Fig. 4.1 is d²X dT² dX dT\T=0 20 = Vo, where X(T) [m] is the position of the mass as a function of time with mass M [kg], and spring coefficient K [N/m], magnitude of the applied force, F [N], forcing frequency, 2 [s], as well as general initial conditions, Nondimensionalize and select length- and time-scales L, T to normalise the coef- ficients of the terms on the left side of the ODE and the initial condition for position. Write and solve the scaled problem, and identify the dimensionless parameter for the ratio of the forcing frequency to resonant frequency, where the solution's amplitude grows without bound, as shown for 22 in Fig. 4.1. 4.3 Consider the initial value problem for a damped driven nonlinear oscillator:

さまざまな文化で育った人々の伝統や価値観となるのはなぜですか？fromはからという訳ではないんでしょうか？生まれるという訳もわからないです。

(Moreover), (as the general public becomes more and more familiar with the S' V' C、 比例の as 「〜につれて」 tomino traditions and values of people [from various cultures]), there is a greater degree V S of tolerance and understanding (in society). さらに,一般市民がさまざまな文化で育った人々の伝統や価値観にますます慣れ 親しむようになるにつれて, 社会にはますますの寛容と理解が生まれるのである。 語句 general public 一般市民/become familiar with 〜 〜に慣れ親しむ/tradition 名伝統/ value 名 (複数形values で) 価値観/great degree of ~ かなりの~/ tolerance 名寛容、忍耐 og w rednost 10M br 文法・構文 「変化動詞 (become)」 や 「比較級 (more and more) 」 があることから, as は「比例(~するにつれて)」 の意味だと判断できます。 stetabour

これといてください。至急です お願いします 英語分かるかた

2010 解答用紙を6/1(木)に提出 解説は英語でします。 【1】 次の英文を読んで、後の設問に答えよ。 (配点 50) A few years ago, a certain famous university in Japan asked a unique question as its entrance examination in English. The question was this: Write a reply in English to a junior high school student who doesn't like studying. He says he has no intention of going abroad, so he doesn't think he needs to study English. Nor does he want to get a job in which the knowledge of math or science is required. He, therefore, insists that he cannot understand the reason he is forced every day to study subjects he is not interested in. As an entrance examination, it's not very difficult to write an answer to this question. (2) you take it seriously, however, it touches on such a profound aspect of human nature that it is worth thinking about. Fundamentally, why do you have to study? What is learning for? Would you still like to study even if there were no schools or examinations in the world? In my opinion, it is possible to answer such questions from a practical and essential point of view. First, it is not rare for anyone to find changes in their own preferences or desires over time. Sometimes we find ourselves possessing no interest in what we thought to be precious before. Sometimes we are surprised to realize that what we thought to be of little value is so important. So it is quite hard, especially for young people, to predict actually what one will want in the future, say, ten years from now. That's why it is highly desirable for students to prepare for their future by increasing their knowledge and improving their intelligence. Whatever job one may get, it is quite (4) that knowledge or intelligence gets in the way. This can be demonstrated partly by many adults confessing that they should have studied harder. ( 5 ), it's only while one is young that one has a good memory and can absorb and retain a vivid impression of what one has learned. Next, I would like to talk about a more subtle viewpoint. Essentially, no human beings can be satisfied with what they already have, and everyone has, at 1921 the bottom of their heart, the desire for a better existence. Please do not interpret (67 INT this only in terms of materialism or religious belief. Of course, food, clothing. and housing are important. Still, ( 7 ). Also, in the present age, it is difficulí to feel there is anything in the belief that God will come to help you have a better existence some day. Even if all of your basic needs are met, without one important thing, you cannot feel that your life is meaningful. This one thing is the ambition to improve yourself. When you learn something you didn't know before, you will surely feel the satisfaction that no other element in life can give. In this sense, learning will enable you to broaden your world, giving you the joy of knowing. In short, learning is an important way to make your own life richer. (A) 下線 (1) (3) を和訳せよ。 (B) 空所 (2) ( 5 )に入れるのに最も適切なものを、それぞれ次のア~エ の中から1つずつ選び、 その記号を記せ。 (2) 7 Because If (5) 7 For example In conclusion Though In addition What is worse (C) 空所 (4) に入れるのに最も適切な 同じ段落の中から抜き出して、 解答欄に記入せよ。 下線部)が表す内容を、 本文に即して70字以内の日本語で説明せよ。 1931 1. Unless

電気電子回路です。 この分野の専攻ではないのでできるだけわかりやすく説明していただきたいです。 よろしくお願いします。

R (1-1) 10, (1-2) 20 (1-3) 30, (2-1) 10, (2-2) 30, (2-3) 15, (2-4) 10 (1) 演算増幅器 (operational amplifier) 抵抗 (resistance), キャパシタンス (capacitance) から構成される回路 (circuit) について以下の各小問に答えよ.なお,図中の記号は以下の凡例に従うとする.また, 正弦波交流電 圧 (sinusoidal AC voltage) は複素数 (complex numbers) 表示されており、 その絶対値は実効値 (effective value) を表すとし,演算増幅器の利得 (gain) 及び入力インピーダンス (input impedance) は無限大, 出力インピーダ ンス (output impedance) は0であるとする. 虚数単位 (imaginary unit) が必要な場合には」 を用いること. V V. d+o 凡例 + 図1 aR R otol C tr (11) 図1に示す非反転増幅器 (non-inverting amplifier) の利得 A = Vout/Vim を求めよ。 なお は 0 または正の実 数である。 Vout V (12) 図2に示す回路において, 角周波数 (angular frequency) の正弦波交流電圧を印加した. 回路の利得を =vk/vo としたとき、βの絶対値を最大とする角周波数 ac を R, Cの式として示すとともに, w=a の 時の入力電圧に対する出力電圧 Pb の位相差 (phase difference) を求めよ。 (feedback circuit) として図2の回路を追加した図3の回路を考える. 今,α を0から 回路 (13) 図1の回路に 連続的に増加させながら出力 Vout を観測したところ、あるαの時に発振 (oscillation) を開始した. この時 の及び発振周波数 (oscillation frequency) を R, Cの式として示せ . 抵抗値R を持つ抵抗 〇 静電容量 (electrostatic capacity) Cを持つキャパシタンス ○ 正弦波交流電圧を出力する電圧源 演算増幅器 接地 (earth connection) C R 3 図2 Rok 20 V₂ V₂ aR 図3 R Vout -o

電気電子回路です。 この分野の専攻ではないのでできるだけわかりやすく説明していただきたいです。 よろしくお願いします。

R (1-1) 10, (1-2) 20 (1-3) 30, (2-1) 10, (2-2) 30, (2-3) 15, (2-4) 10 (1) 演算増幅器 (operational amplifier) 抵抗 (resistance), キャパシタンス (capacitance) から構成される回路 (circuit) について以下の各小問に答えよ.なお,図中の記号は以下の凡例に従うとする.また, 正弦波交流電 圧 (sinusoidal AC voltage) は複素数 (complex numbers) 表示されており、 その絶対値は実効値 (effective value) を表すとし,演算増幅器の利得 (gain) 及び入力インピーダンス (input impedance) は無限大, 出力インピーダ ンス (output impedance) は0であるとする. 虚数単位 (imaginary unit) が必要な場合には」 を用いること. V V. d+o 凡例 + 図1 aR R otol C tr (11) 図1に示す非反転増幅器 (non-inverting amplifier) の利得 A = Vout/Vim を求めよ。 なお は 0 または正の実 数である。 Vout V (12) 図2に示す回路において, 角周波数 (angular frequency) の正弦波交流電圧を印加した. 回路の利得を =vk/vo としたとき、βの絶対値を最大とする角周波数 ac を R, Cの式として示すとともに, w=a の 時の入力電圧に対する出力電圧 Pb の位相差 (phase difference) を求めよ。 (feedback circuit) として図2の回路を追加した図3の回路を考える. 今,α を0から 回路 (13) 図1の回路に 連続的に増加させながら出力 Vout を観測したところ、あるαの時に発振 (oscillation) を開始した. この時 の及び発振周波数 (oscillation frequency) を R, Cの式として示せ . 抵抗値R を持つ抵抗 〇 静電容量 (electrostatic capacity) Cを持つキャパシタンス ○ 正弦波交流電圧を出力する電圧源 演算増幅器 接地 (earth connection) C R 3 図2 Rok 20 V₂ V₂ aR 図3 R Vout -o

「男性が従来持っていた女性にとっての重要度は減少している。」絵を使ってこれを簡単に教えてください。－

〈全文訳〉女性が家庭から出て働くようになったことで、男性が従来持っていた女性 にとっての重要度は減少している。ますます自立し自活できるようになったので, 現代の女性はもはや以前と同様の一男性が自分たちを養い守ってくれる必要性 を感じていない。同 仮定法の把握