この問題の(3)(4)はなぜ展開しなくていいのですか？ それから展開せずに微分ってどうやるのか分かりやすく説明していただきたいです🙇🏻‍♀️‪‪´-

CHART & SOLUTION 積の形の関数の微分 p.278 STEP UP _2{(ax+b)"}=n(ax+b)-(ax+b)'=na(ax+6) "-1 {f(x)g(x)}=f'(x)g(x)+f(x)g'(x) homujo FRAME 寺に、2において α=1 である場合は{(x+b)"}'=n(x+6)^-1となり,計算が簡単になる。 | y'=(2x-1)(x+1)+(2x-1)(x+1) =2(x+1)+(2x-1)・1=4x+1 注意 (1) のように簡単な関 数ならば、 元の式を展開し '=(x2+2x+3)'(x-1)+(x2+2x+3)(x-1)', y=2x²+x-1から =(2x+2)(x-1)+(x²+2x+3)+1 ECTO- c =2x2-2+x2+2x+3=3x2+2x+1 '=3(2x-1)^(2x-1)' =3(2x-1)・2=6(2x-1)2 を結ぶ '={(x-2)2}'(x-3)+(x-2)(x-3 「程式を mil ったときの余り。 =2(x-2)(x-3)+(x-2)・1 =(x-2){2(x-3)+(x-2)} =(x-2)(3x-8) v=(x-2)^{(x-2)-1}=(x-2)3-(x-2)^から v=3(x-2)2-2(x-2)=(x-2){3(x-2)-2}-- y'=4x+1 と計算した方が スムーズ。 公式2を利用。 結果は展開しなくてよい。 ◆公式1を利用。 {(x+b)"}=n(x+b)"-1 (x+b)"の形にする {(x+b)"}=n(x+b)"-1 =(x-2)(3x-8) FORMATION 78の微分法の公式 af ((b)\-(+)\ A-E- (D) V {f(x)g(x)}'=f'(x)g(x)+f(x)g'(x) や {(ax+b)"}=na(ax+b)" -1 式を展開せずに微分できるというメリットがあるが,次のようなミスをしやすい 正確に押さえておこう。 (1) xy'=(2x-1)(x+1)、 ←同時には微分しない。 (3) xy'=3(2x-1)2 ←(2x-1)' の掛け忘れ。

英語の問題です。 259①と262④が答えでそれぞれ解説お願いします

POWER STAGE X I 259. Other things ( 1 being ② 260. ( ) equal, the simplest explanation is the best. are 3 to be 4 be 〈成蹊大 > ) the night before, the road was muddy. 泥だらけ It having rained ②Having rained ③Having been rained It being rained Page. 116~ 261. There ( 〈千葉 ) no available information on the crime, the police asked the mass med <鹿児島大 〉 ①being 2 having is seems 4 分詞構 262.( ) control herself, she burst into tears at the news. ①Being unable (2 In unabling 3 Unabling to 4 Unable to ~すことができない 263. Though ( ①understand ② 〈 青山学院大 〉 ) no Spanish, she was able to communicate with the other student. understanding 3 understood being understood 〈日本大〉

英検準2級ライティング 採点お願い致します🙏 ／から読んでいただけると嬉しいです✨

QUESTION Do you think it is a good idea to use online maps? 199

英検準2級ライティング 採点お願い致します🙏

QUESTION Do you think students should wear a school uniform at school?

英検準2級ライティング 採点お願いします🙇🏻‍♀️

Hi! Guess what! I started going to the public library in my city. I sometimes have to get some information for my homework. My father suggested studying at the public library. I'm a member of the library, so I can use it for free. I like studying at the library, but it's far from my home. It takes 20 minutes to cycle there. Do you think that more people will use public libraries in the future? Your friend, Isabella Hi, Isabella! Thank you for your e-mail. 解答欄に記入しなさい。 Best wishes,

英語の宿題で今年の日記を書こうというものがあります。 書いてみたのですが正しい英語かどうか分かりません。添削お願いします。 画像が見にくかったら言ってください。

My Best Memory I went to Kyocera Dome. I saw a live performance of my favorite idol. I went to a live show for the first time. It was so much fun. My favorite idol is TWICE. TWICE is kpop idol group.

投げやりです。すいません。英語皆無なので代行してください。

【必答問題 5 日常使う物のデザインをする際には標準化 (standardization) という方法がある。 という内容に続く次の英文を読んで、あとの問いに答えよ。(配点44) If we examine the history of advances in all technological fields, we see that some improvements come naturally through the technology itself, while others come through standardization. The early history of the automobile is a good example. The first cars were very difficult to operate. They required strength and skill beyond the abilities of many. Some problems were solved through automation. Other aspects of cars and driving were standardized through the long process of international standards committees: . On which side of the road to drive (constant within countries) country, but variable across On which side f the car the driver sits (depends upon which side of the road the car is driven) -The (2) of essential components: steering wheel, brake, clutch, and accelerator (the same, whether on the left- or right-hand side of the car) Standardization is one type of cultural constraint. With standardization, once you have learned to drive one car, you feel confident that you can drive any car, anyplace in the world. Standardization provides a major breakthrough in usability. I have enough friends on national and international standards committees to realize that the process f determining an internationally accepted standard is laborious. Even when all members agree on the merits of standardization, the task of selecting standards becomes a long, political issue. A small company can standardize its products without too much difficulty, but it is much more difficult for an industrial, national, or international body to agree to standards. There even exists a standardized procedure for establishing national and international standards. organizations works on standards. First, a set of national and international Then when a new standard is proposed, it must work its way through each organization's approval process. Standards are usually the result of a *compromise among the various competing positions, which can often be an inferior compromise. Sometimes the answer is to agree on (4 ). Look at the existence I both metric and *English units; of left-hand- and 18 right-hand-drive automobiles. There are several international standards for the *voltages and *frequencies of electricity, and several different kinds of electrical plugs and sockets- which cannot interchanged. With all these difficulties and with the continual advances in technology, are standards really necessary? Yes, they are. Take the everyday, clock. It's standardized. Consider how much trouble you would have telling time with a backward clock, where the hands revolved "counterclockwise." A few such clocks exist, primarily as humorous conversation pieces. When a clock truly violates standards, such as (the one in Figure 1, it is difficult to determine what time is being displayed. Why? The logic behind the time display is identical to that of conventional clocks: there are only two differences - the hands move in the opposite direction (counterclockwise) and the location of "12," usually at the top, has been moved. This clock is just as logical as the standard one. It. bothers us because we have standardized on a different scheme, on the very definition of the term clockwise. Without such standardization, clock reading would be more difficult: you'd always have to figure out the "mapping. E) compromise *metric メートル法の *English units イギリスの計量法(ヤードボンド法) *frequencies of electricity 電気の周波数 voltages E *mapping 対応づけ (2つのものの間の関係を意味する専門用語) 問1 下線部(1)の内容を、 同じ段落の自動車の例に基づいて30字以内の日本語で答えよ。た だし、句読点も字数に数える。 問2 本文中の空所 (2) に入る語として最も適当なものを、次のア~エのうちから一つ 選び 記号で答えよ。 7 color イ location ウ price I sight (239) 問3 第2パラグラフ (Standardization is one type of ...) について 次の Question に対す る Answer となるように、空所に入れるのに最も適当なものを,次のア~エのうちから一 つ選び、 記号で答えよ。 Question: What is "a major breakthrough in usability" provided by standardization? Answer Because of standardization, you ( device of the same kind all over the world. 7 can apply what you have learned to イ can make cannot produce I cannot use what you have learned when using 問7 下線部(5)が表す図 (Figure 1)として最も適当なものを、次のア~エのうちから一つ選 び記号で答えよ。 11 12 1 12 ) any machine or 10 2 10% 9 3 1 5 6 問4 下線部(3)の示す内容を, 40字程度の日本語で答えよ。 ただし, 句読点も字数に数える。 ウ 11 6 1 問5 次の文を第3パラグラフ (Ihave enough friends...) に入れるとき,本文中の①~ のうちのどの位置に入れるのが最も適当か、 次のア~エのうちから一つ選び, 記号 で答えよ。 9 3 Each step is complex, for if there are three ways of doing something, then there are sure to be strong proponents of each of the three ways, plus people who will argue that it is too early to standardize. 70 問8 最終パラグラフ (With all these difficulties...) の内容をもとに, 次の Question に2 語程度の英語一文で答えよ。 Question: According to the writer, why is the standardization of the everyday clo necessary? イ 2 ウ H O 問6 本文中の空所 (4) に入れるのに最も適当なものを、次のア~エのうちから一つ選び 記号で答えよ。 7 a single standard 1 several different standards ウ the same standard I too few standards <<-20-> <-21->

⬇1枚目(2)の青で色をつけてる部分cos(90°＋20°)＝－sin20°になる理由がわからないです なぜsinが－になっているんですか？ 2枚目は自分で書いたもので、sin＝y/rでyはプラスなのでcos(90°＋20°)＝sin20°だと考えました まだ基礎が定着... Read More

基本 例題 111 鈍角の三角比の値と式の変形 00000 (1) cos 135° × sin 120°×tan 150° ÷ cos60°の値を求めよ。 (2) sin 80° + cos 110°+sin 160°+cos 170°の値を求めよ。 p.181 基本事項 1,2 CHART & SOLUTION 角の三角比の扱い 直接, 値を求めるか, 鋭角の三角比に直す 280°=90°-10° 110°=90°+20° 160°=180°-20° 170°=180°-10° に着目して,各項を 10, 20°の三角比で表す。 開答 (1)与式 1/2×2×(1/13) = 別解(1) cos135°=cos(180°-45°)=-cos 45° sin120°=sin(180°-60°)=sin 60° tan150=tan(90°+60°)=- 1 tan 60° _cos60° sin 60° cos 135°=cos (90°+45°) =-sin45° sin120°=sin(90°+30° =cos 30° tan150°=tan (180°-30°) よって、 与式は (-cos 45°)xsin 60°x cos 60° sin 60° (2)与式)=sin(90-10°)+cos(90°+20°)+sin(180°-20° +cos (180°-10°) =cos 10°-sin 20°+sin 20°-cos 10° =0 =-tan 30° cos60°=cos (90°-30°) = sin 30° として計算してもよい。 |÷cos 60°=cos 45°= INFORMATION 鋭角の三角比に直す公式の覚え方 使えない 180F-6, 90°+0 の三角比の公式は,丸暗記するのではなく, 図と関連付けて理解し よう。下の図の点Pの座標に注目することで,公式を導くことができる。 18の三角比 90°+0 の三角比 y 34 sin(90°+0)=x sin (180°-9)=y 90°+0 =cós o 1806 =sin 0 1 (2,3) cos(180-0)=% tan (180°-0)= (-y,x) (x,y) cos(90°+0)=-y =-cos X V =-sin0 x JOH tan(90°+0)==y -1 -y O x1x #1 % =-tan 0 tan

it toの形って言われたんですがforがないですよね？どういうことですか？

つに、空欄に適する語を書きなさい。文芸の実 *制服があるのはいいことだと思います。 it~toの形 We think it to. 制服 uniform ~が~ことはいいです have. is good poth have a school uniform

1行目のasの意味はなんですか？

そうしないと、すなわち Carbon is an element found in such chemical compounds as petroleum and hob methane. It can arrange its atoms into several different forms, or "allotropes." For example, if the carbon atoms form a cubic system, the allotropes of carbon become a diamond; meanwhile, if they are bonded together to form layers of hexagonal lattice, they become graphite Man