高1です。物理基礎でsinとcosというのが出てきたのですかどういうことですか？まだ数学で習っていないです。

わかんないので教えてください🙇⤵︎ (書いてある答えは多分違います。気にしないでください)

EXERCISE B > 英文には誤りが1箇所ずつある。番号を指摘し,正しく直しなさい。 ② □01 I was able to get much pieces of information about the problem from the series of articles in the library. □02 ① ④ 一連の 記事 ③ Students were boring because the teacher just forced them to learn grammar and vocabulary. <明海大〉 〈上智大 〉

ピンクで囲んだ部分のdestroyingとforcing、makingが何故ingが着いているのか分かりません😿分詞構文でしょうか？

You are preparing a presentation for the school science club, using this article from a scientific website. Reaching a Tipping Point: What to Do About the Problem of Space Junk? For over fifty years, slowly at first, but with increasing intensity, we've been sending objects up into orbit. Most of these items begin life as useful 使節を開始する有用な devices, such as the thousands of satellites that bring us information and give 装置として us our 21st century communication, but even these eventually fall out of use 結仕 使われなくなる or break. These satellites, living or dead, share an increasingly crowded layer, 混雑した層 known as near-earth orbit, with rocket parts, tools, and pieces of metal from objects that have already crashed together and broken into pieces. 粉々になる ?? This garbage poses a threat both (to working" satellites of which there are thousands), and (to the earth itself.) For example, in 2009 a disused Russian 使われなくなった module crashed into an active US satellite) destroying both and forcing the International Space Station to change course to avoid the thousands of broken ためらう pieces. While most junk that falls back to earth burns up in the atmosphere. 大気圏上空で larger chunks can occasionally hit the ground, posing a threat to people and Pieces that do burn up] leave pollutants in the atmosphere, such as Property aluminum particles, which can destroy the ozone layer アルミニウム 粒子 It's clear that removing space junk is vital if we are to maintain and build upon our current satellite network. The problem has been discussed continuously since the 1970s, when Donald Kessler, a senior scientist at NASA 継続的に described a scenario (later known as Kessler syndrome) (where a runaway 制御不能の others more and more likely. While the 2009 incident may be the first large cycle of collisions begins, with each collision creating more debris, making 衝突のサイクル near-earth collision, it is thought that Kessler syndrome has already begun with smaller objects. Since Kessler syndrome was first described, many solutions have been proposed, from using lasers to robotic garbage collectors, but cost has been an obstacle to most. In 2021, a Japan-based company named Astroscale launched ELSA-d (short for "End-of-Life Services by Astroscale Demonstration") to show

正誤問題です。教えてください。お願いします。

4. We have A- a large number of customers, different requirements. 5. A most of them have slightly B Were these the articles which Mr. Williams was referring at the sales meeting the other day? D B

問題集でインドは牛肉の生産量が高位であるというグラフがあり宗教的に牛を食べないので間違っていると思ったのですがなぜ生産量が多くなるのでしょうか。

数Ⅱ、図形と方程式です！ 解説お願いします！

練習 4 点Pはy軸上にあり, 2点A(-4, 2), B (1, -1) から等距離にある Pの座標を求めよ。 指針 2点間の距離 点Pはy軸上にあるから,P(0, y) とおき, AP= BP とな とから,yについての方程式を作って, それを解く。

agree with と agree to の違いは何ですか。 I agree with your idea.→あなたの考えいいね！賛成するよ！ I agree to your idea. →あなたの考えはまあいいんじゃない。同意するよ。 こんなイメージで合っていますか。

ミトコンドリアは生物ですか？ ミトコンドリアはエネルギーもあってDNAを持っていて独自で増殖もするという生物の特徴を持ってますが、生物なのでしょうか？？ もし生物なら、生物の細胞の中に生物が存在することになりますよね𖦹

写真１枚目の英文（上から４段目）についてです。 When they ran〜の文に energy it transferredとありますが、訳を見たらすごいtransferから修飾してるっぽくみえるんです、、でもitって後置修飾なしのはずだしどうなんだろうと思いました。わか... 続きを読む

6 2023年度 英語 防衛医科大学校 -看護 marine organisms like squid or jellyfish that get around in a similar 移動する way. (10) aquarium Then, one by The researchers began their study, which was published Wednesday) (in Royal Society Open Science, by liberally sprinkling an with minuscule floating particles of aluminum oxide Th one, they put five chambered nautiluses into the tank, and let them jet about.[/ that //In the They used high-speed cameras, a laser that lit up the particles software that could record the particles' movements. constellation of specks, they saw the animals sucking in water, then forcing out in the direction they were moving away from, with the pocket of ( 11 ) water and the nautilus shooting apart at velocities they could readily calculate. [[ om.) When they ran the numbers, the researchers saw that the nautilus was able to use 30 to 75 percent of the energy it transferred to the to move. ater to > it 後置修飾 That was much higher than other similar swimmers. "Squid, they tend to be about 40 to 50 percent efficient," said Dr. Askew. Bell-shaped jellyfish, which pulse their bells to squirt out water, also tend to have lower than 50 percent efficiency. 問7 下線部(7) the chambered nautilus とは何かを選びなさい。 (1) ダイオウイカ (2) ジュール・ベルヌの 「海底二万マイル』 に出てくる潜水艦 (3) オウムガイ (4) アンモナイト

写真３枚目の問題についてなんですけど、解説を見てもなんで答えが２番かわかりません。 にばんの、 酸素濃度が濃くが、薄く、なら答えになると思うんですが、、

を読み,下記の問いに答えなさい。 ONA-based A coursing und and (7) Like a tiny submarine, the chambered nautilus speeds through the little jets that it creates by sucking in water and spitting it ocean on out. However, as ways of movement go, jet propulsion is not usually a very good use of energy. In the ocean's depths where oxygen gets thin, the nautilus seems to be putting itself at risk by expending so much effort on movement. Fish use far less energy by pushing at the water with their fins. So how does it manage to jet around unscathed in the ocean's depths? Graham Askew, a biomechanics professor at the University of Leeds, set out with a graduate student, Thomas Neil, to understand better how this shellfish moves. They found that the nautilus is actually a highly efficient jet-propelled creature, wasting much less energy than (9)