下記リンクのGeoGebra幾何にて、軌跡機能を用いてアポロニウスの円を描いてみたいのですが、 下記リンクのYahoo知恵袋にて記載されている画像の方法では描けませんでした。 具体的には、 「数aのスライダを設定します． A中心半径2aの円cと， B中心半... 続きを読む

AP: BP=2:1 となる点Pの軌跡を図示します。 平面上に2定点A,Bをとります。 数aのスライダを設定します。 A中心半径2aの円cと, B中心半径aの円dを描きます。 c,dが交わるように,aの値を調整した上で, a = 2.98 cとdの交点C,Dを描きます。 a = 2.37 C,Dを残像表示に設定し, aのアニメーションをONにします 必要に応じてaの範囲を設定すれば, 点の集合としての軌跡が描かれます (上図). また、 「軌跡」のボタンを使い, a, Ca, Dとクリックすれば (Caの順でもよい), それぞれの軌跡がloc1, loc2のように描かれます (下図). C A A doc1 B loc2

線を引いたところの訳し方を丁寧に教えて頂きたいです🙇‍♀️

L American poet Ralph Waldo Emerson once said, "Every artist was first an amateur." He likely never thought those words would apply to machines. Yet artificial intelligence (AI) has demonstrated a growing talent for creativity, whether writing a heavy-metal rock album or producing an original portrait that is strikingly similar to a Rembrandt. Applying AI to the art world might seem unoriginal; there are, of course, plenty of humans delivering awe-inspiring work. Supporters say, however, the real beauty of training AI to be creative does not lie in the end product-but rather in the technology's potential to expand on its own machine-learning education, and to solve problems by thinking in different ways far faster and better than humans can. For example, creative problem-solving AI could someday make snap decisions that save the lives of the passengers in a self-driving car if its sensors fail. AI with a creative component will be essential in developing highly automated systems that can respond appropriately to human life, says Mark Riedl, an associate professor at Georgia Institute of Technology's School of Interactive Computing. "The fact is, we do lots of little bits of creativity every single day; lots of problem-solving goes on," Riedl says. "If my son gets a toy stuck under the couch, I have to devise a tool from a hanger to get it out." Riedl points out human creativity is also important in human social interactions, even telling a well-timed joke or recognizing a pun. Computers struggle with such subtleties. An incomplete understanding of how humans construct metaphors, for example, was all it took for an experiment in Al-generated literature to compose a new Harry Potter chapter filled with nonsensical sentences such as, "The floor of the castle seemed like a large pile

スラッシュリーディングをしたくて、、 英語得意な人 スラッシュ入れてくれると助かります🙇‍♀️❶

I really feel sorry for you, hearing how your hands get cold and cracked because of the cold weather and water in winter. Whenever you use water, make sure you dry your hands and then rub them until they get warm. (December 11, 1944) This letter was written by Kuribayashi Tadamichi to his wife. He was a commander on Iwoto, a battlefield during World War II. He wrote many letters to her from there. Iwoto is a small flat island that lies 1,250 km south of Tokyo. One of the hardest battles between Japan and the US was fought there. The island was a very important place for both the US and Japan. For Japan, it was the last base to protect the mainland.

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

高校受験を控える弟の英語のテストなのですが、回答がなくて、どなたか回答案をくださりませんか？

7 次の(1),(2)の英文を読んで、それぞれの問いに答えなさい。 (1) ユタカ (Yutaka) とジョージ (George)は, 2人の住むみつば市 (Mitsuba City) について調査し,英語でプレ ゼンテーション(presentation)を行いました。 ユタカがスライド(slide)を使って発表をしています。 Hello, I'm Yutaka. I live in Mitsuba City and have lived there since I was born. There are some big parks in the city, and I often played in them with my friends when I was a child. I like my city very much. people than before. Look at Slide 1. Last month, I saw news about Mitsuba City on TV. It said that our city had fewer This shows the number of people in Mitsuba City. There were more than 300,000 people in 2000. The number became larger until 2010, but after that, it started to decrease. In 2020, about 280,000 people lived there. Why did the number of people become small? To find out the reasons, I read some books and checked some websites on the Internet. I got some ideas. Look at Slide 2. This shows the number of people in Wakaba City and Aoba City. These cities are next to Mitsuba City. You can see that these two cities had more people in 2020 than in 2000. In fact, Wakaba City started some plans to help parents in 2014. For example, parents don't have to pay money when they take their sick children to the hospital. This means parents can take care of their sick children ( A ) worrying about money. In Aoba City, a new train station was built in 2008. Since then, the city has more convenience stores, clothes shops, and restaurants. Living in Aoba City became more convenient, so more people started to live there. Look at Slide 3. You can see the number of each type of shop was larger in 2020 than in 2000. Now, Aoba City has become one of the most popular cities among people. Mitsuba City is a good city, but I don't think it has many attractive points. Parents still have to pay a lot of money to take care of their sick children. Also, there are not many shops and restaurants in the city. I think Mitsuba City should have more attractive points like Wakaba City and Aoba City. I want more people to live in Mitsuba City in the future. Slide 2 Slide 3 (people) 180,000 Covenience Stores 170,000 160,000 Clothes Shops 150,000 Restaurants 140,000 2000 2005 Wakaba 2010 2015 2020 --- Aoba (year) 0 10 20 30 40 50 (number) ■ 2000 m 2020 (注) be born 生まれる play 遊ぶ decrease 減少する in fact 実際は attractive 魅力的な find out take care of ~ news ニュース ~を探り出す ~ 〜の世話をする fewer より少ない website ウェブサイト convenient 便利な point -5-

おしえていただきたいです🙇‍♂️

3. January is usually the coldest month, and [] in which snow is most likely to fall. (a) this (b) the one (c) when (d) such 4. I thought it was a good book, but George thought [ ]. (a) moreover (b) nevertheless (c) otherwise (d) unless 5. You know how [ (a) interesting (b) amusing ] I am in everything you do. (c) interested (d) amused 誤りを訂正して,全文を書きなさい。(3点×4=12点) 1. She looked angrily at what I'd said. 2. A number of tourists to that island is gradually increasing. 3. Almost the passengers on the bus were tourists. Almost 4. Your shirt is dirty. Take off it.

この訳教えてください！

2. Give three examples of Japanese words that are now used as English words. judo. Tsunami, karaoke England was never invaded again, but the language continued to grow. 英語 ような Great writers like Chaucer in the 14th century and Shakespeare in the 17th/whose いだいな作家 人 レッド と~のような大な作者 英語 と works are now read all over the world in many languages, helped it grow. During 作品たちが、今、世界中でたくさんの言語で 成長するのにこうけんした 読まれている the 17th century, England started opening colonies and markets all around the 植民地 と 市場を世界中にひらき始めた world. As a result, English-began to be used by people on every continent 結果として、英語は、人々に使われはじめた。すべての大陸の人々によって People who spoke English, too, began to use words they learned from other 英語を話す人々もまた、 (that) 彼らが世界中の他の言語 始めた 学んだ。 languages around the world tomato, tobacco, mosquito from Spanish, skunk使われ and squash from Native American languages, judo, tsunami, karaoke from 現実 Japanese. In this way, English has become one of the world's richest languages. このようにして、 世界の最も豊かな言語の1つになった help to do:(~が~するのを助ける、~が~するのに Time and tide wait for To be or not to be, that no man. is the question Geoffrey Chaucer (1345-1400) William Shakespeare (1564-1616)

Because~の一文の和訳を教えてください😭

species, which require unique conditions to survive, suffer from being cut off from a particular food source or geographical area. Because specialist species outnumber generalist species, the study found that for every winner, there are multiple losers. The impact of fences is not limited to ecosystems. In the mid- twentieth century, Botswana in Southern Africa erected fences to address international regulations designed to prevent the spread of a

化学変化の質量計算の問題です なんで炭素0.45のときにグラフが折れ曲がるかがわかりません。どういう計算をしたらわかるのでしょうか

2 一定量の酸化銅に反応する炭素の量について、次の 〔実験 を行った。 (実験) ① 酸化銅 6.0g と乾燥した炭素粉末 0.15gをはかり取った。 ② 酸化銅に乾燥した炭素粉末を加え、よく混ぜた後に試験管に入れ、 図1のような実験装置で十分に加熱して気体を発生させた。 ③ 気体が発生しなくなったら、 ガラス管をピーカーから取り出し、 加 熱するのをやめて、ゴム管をピンチコックでとめた。 ④その後、試験管を冷却し、反応後の試験管内にある物質の質量を測 定した。 ⑤次に、酸化銅の質量は変えずに、炭素粉末の質量を0.30g、0.45gと 変え、それぞれについて、 ② から④までの操作を行った。 図 酸化銅と炭素 粉末の混合物 ピンチコック ゴム管 ガラス管 石炭水 表は、これらの実験結果をまとめたものである。 なお、反応後の試験管内にある気体の質量は無視できるものとし、 酸化銅はと酸素が質量比41で結合していることがわかっているものとする。 表 酸化銅の質量(g) 加えた炭素粉末の質量[g] 6.0 6.0 6.0 60 20 0.15 0.30 0.45 1,35 反応後の試験管内にある物質の質量[g] 5.6 5.2 4.8 次の(1)(2)の問いに答えなさい。 (1)酸化銅の質量は 6.0g のままで、炭素粉末の質量を 0.60g、 0.75g 0.90gと変え、それぞれについて 〔実験)の② から④ま での操作を行った。加えた炭素粉末の質量と反応後の試験管内に ある物質の質量との関係を表すグラフを図2に書きなさい。 な お、表の結果もグラフにすること。 (2)酸化銅 20.0gと炭素粉末 1.5gをはかり取り、〔実験の②か ら④までの操作を行った。 反応後の試験管内にある物質の質量 は合計何gか。 また、発生した気体は何gか。 求めなさい。 (1) 図2に記入 図2 6.0 5.8 反応後の試験管内にある物質の質量 g 5.6 5.4 5.2 5.0 g 14.95 4.8 g (g) 4.6. 0.15 0.30 0.45 0.60 0.75 0.90 2 Cup+ (->2 Cut Co₂ 加えた炭素粉末の質量[g]

多様体を構成するために、位相空間に完全アトラスを導入するところで質問です。 完全アトラスを導入するメリットとして、この文章の下線部を「異なる座標系を用いたのに同じ計算ができてしまうという問題が解消される」解釈したのですが、そこがよくわかりません。座標系を変えて計算する... 続きを読む

1 Two n-dimensional coordinate systems & and ŋ in S overlap smoothly provided the functions on¯¹ and ŋo §¯¹ are both smooth. Explicitly, if : U → R" and ŋ: R", then ŋ 1 is defined on the open set ε (ur) → ° (UV) V and carries it to n(u)—while its inverse function § 4-1 runs in the opposite direction (see Figure 1). These functions are then required to be smooth in the usual Euclidean sense defined above. This condition is con- sidered to hold trivially if u and do not meet. Č (UV) R" Ĕ(U) n(UV) R" S n(v) Figure 1. 1. Definition. An atlas A of dimension n on a space S is a collection of n-dimensional coordinate systems in S such that (A1) each point of S is contained in the domain of some coordinate system in, and (A2) any two coordinate systems in ✅ overlap smoothly. An atlas on S makes it possible to do calculus consistently on all of S. But different atlases may produce the same calculus, a technical difficulty eliminated as follows. Call an atlas Con S complete if C contains each co- ordinate system in S that overlaps smoothly with every coordinate system in C. 2. Lemma. Each atlas ✅ on S is contained in a unique complete atlas. Proof. If has dimension n, let A' be the set of all n-dimensional coordinate systems in S that overlap smoothly with every one contained in A. (a) A' is an atlas (of the same dimension as ✅).