①④の選択肢についてなのですが、共有結合だと形は正四面体になるのですか？黒鉛は違う形な気がするのですが、どなたか教えていただきたいです。また、SiO4の形はメタンと同じだと思うので理解できるのですが、SiO2の方はどうなるのですか？調べたのですが、SiO4の方しか出て来ず悩... 続きを読む

④ 鉛蓄電池の 問5 ケイ素と二酸化ケイ素に関する記述として誤りを含むものはどれか。 最も適 当なものを、次の①~④のうちから一つ選べ。 5 ① ケイ素の結晶は,ダイヤモンドの炭素原子と同じように,ケイ素原子が正 四面体構造を形成しながら配列している。 ②ケイ素は,金属元素ではない。 ③二酸化ケイ素の結晶は、半導体の性質を示す。 ④ 二酸化ケイ素の結晶では, ケイ素原子と酸素原子が交互に共有結合してい る。 sioz

わかる方お願いします🙇🏻💦💦💦 矢印から下の部分を訳して、T/F教えてください🙇🏻🙇🏻🙇🏻 Fは間違えている箇所を訂正お願いします🙇🏻🙇🏻💦💦

15 [1-58] Caleb Autry: I originally wanted to be an engineer, but I realized quickly that it 3( passion for music and I was just scared to pursue it. 35 minismic tuods onilaat ho teiled o ). I knew I had a Ruffini: That changed last February, when his math and science- 20 focused High School, A NEW BEAT MORNING PHILADELPHIA TEENAGERS PRODUCE MUSIC WITH OWN RECORD LABEL George Washington Carver, became the test site for the Philadelphia School District's new music production www.program.obule belesuper test site 実験校 bobmemoby 64 50 Bo R 40

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

答え教えてください🙏

4 日本語の意味や与えられた状況に合うように,( )内の語句を並べかえなさい。 (1) これはトムが先週買った自転車だ。 ( bought / is / this / Tom / the bicycle) last week. (2)状況 あなたはブラウン先生がどういう人か説明しています。 Mr. Brown (the teacher/is/science/teaches/us/who). Mr. Brown (3)状況 タナカ先生が、あなたが置き忘れた筆箱を持っています。 This is ( I've / for / that / been / the pencil case / looking). This is AB last week.

[至急]大門3の（2）（3）教えて欲しいです！

10 (3) gを溶かして10%の水溶液をつくったとき,こ の水溶液は何gになるか。 (2) (3) 溶液 で 15 モル濃度 次の問いに答えよ。 (1) グルコース C6H12O6 90gを水に溶かして, 250mLの水溶液をつくった。 この溶液のモル濃度は何mol/Lか。 (2) 酢酸 CH3COOH 30g を水に溶かして, 200mLの水溶液をつくった。 こ の溶液のモル濃度は何mol/L か。 (3) 0.10mol/Lの水酸化ナトリウム NaOH水溶液 200mLには,何mol の NaOH が溶けているか。 (4)食酢は 0.70 mol/Lの酢酸 CH3COOH 水溶液である。食酢 100 mL 中に は何gの CH3COOH が含まれるか。 3 濃度の換算: 質量パーセント濃度からモル濃度 市販のアンモニア水(質量パーセント濃度28%, 密度 0.90g/cm²) について, 次の問いに答えよ。 溶液のモル濃度 (r (1) 溶質の物質量( (2) (3) 溶液の体積 (4) 密度(g/cm 20 (1)このアンモニア水 100gに含まれるアンモニア NH3 の物質量は何molか。 (1) (2)このアンモニア水 100gの体積は何Lか。 (2) (3)このアンモニア水のモル濃度は何mol/L か。 (3) 4 濃度の換算:モル濃度から質量パーセント濃度 0.80mol/Lの硫酸H2SO4 (密度1.05g/cm²)について,次の問いに答えよ。 (1) この硫酸100mL に含まれる H2SO4の質量は何gか。 (2) この硫酸の質量パーセント濃度は何%か。 HCNONa Mg Al Si SCI KCa Fe Cu Zn Ag I Pb 1.0 12 14 16 23 24 27 28 32 35.5 39 40 56 63.5 65 108 127 207 (2)

横線部の〈where〉は関係副詞でしょうか。解説もお願いします🙇

dangerous places. He thought, "Even if people cannot see, their feet can feel the difference of the surfaces. (3) This will warn them of danger." In 1965, after many trials and errors*,/he created some samples with his own money. 15 He gave these samples to the local government. In 1967, 230 of his blocks were placed in front of an intersection* in Okayama City, Japan. These These were the world's first Braille Blocks. 3 Over time, the use of Braille Blocks spread in Japan, and then around the A-49 world. However, accidents sometimes happened where the blocks had not 20 yet been placed. Local governments and railroad companies quickly started to place the blocks in dangerous areas. As a result, many organizations made the Tenji Blocks with their own designs. This caused some confusion. In 1996, the Japanese government started research to make standards for the Tenji Blocks. A team of scientists and 60 people with vision problems 25 worked together to find the easiest ( A ) to use. Then, in 2001, the standards were finally made. still 4 Although the designs have been standardized, there are (4)many problems. We still see various types of old blocks. They must be replaced with new standard blocks as soon as possible. In addition, the standards do 30 not say the color or material to use, or how to place the blocks. A-50 In March 2012, the ISO* (International Organization for Standardization) A-51 32

(2)の問題はどうしてThatになるのでしょうか？？ 質問の方ではこの男の子は誰？というふうに聞いているのにどうしてHe is my brotherではだめなのでしょうか？？

練習する 〜はだれですか」「〜は･･･です」という会話を完成させよう。 (1) A: Who is that woman? B: She is a new science teacher. (2) A: Who is this boy? B: That is my brother. (3) A: Who is this, please? B: This is Mr. Brown. (4) A: Who B: It (5) A: Who B: This is it? is me, Suzuki. 姿が見えないときは it を使うよ is your favorite singer? PR is Yonezu Kenshi. His songs are (6) A: Who are those boys? anot 「別の tudents from another scho

食品ロスを減らす取り組みについてどのように考えているかと食品ロスを減らすためにすべきことを２つ例を挙げ 50 words 程度で英作文作って欲しいです。🙏🏻

1枚目の黒で丸をつけた1が訳のどこに現れてるのか分かりません。

Finland, he said. Koivumaa, who was born in a small town in southern finland, moved to Helsinki when he was three, and grew up there. He graduated from Helsinki University after studying political science, Japanese politics and modern Japanese history. During the course of his 10 years spent studying at university, he came to Japan to study at Waseda University for a year in 2003. "I found interest in Japan since 1 was around 10 years old. 1 can't remember exactly what it was, but it may have been chambara (samurai action drama) or anime," Koivumaa said. After working for a media service unit in Helsinki, he applied for an available position at the Finnish Embassy, and came Lia fomily in November 2010.

中学文法で添削してほしいです🙇🏻‍♀️

I which do you like better, summer or winter? 8 14611 A. I like winter better. I was born in winter, so I am -good at playing winter sports. Also, my mother gives me a lot of birthday presents. 2 Q. What did you eat today and how was it? aum.airt evol atne 8 A. Today, I ate cooked fish. I often go to the river. to fish (fishes) with my father. Also, I like cooking So I sometimes cook dishes. for my family.. What is your dream? 8 | A. My dream is teacher who work in school. My mother on is a teacher. I was often taught her, so I want to be a like her. 16 開3年後 (音読した回数) 1 2 3 4 5 6 7 8 9 10