474と476は問題でhave A ( )となっていたらどっちを入れてもいいですか？

:) 474. have Ado原形不定詞が補語 Toronto mismoet W have A do は, 「Aに･･･してもらう [させる]」の意味を表し、 haveの目的語であるA と目的格補語の do が能動関係になっていることに注意。 get A to do (473) とほぼ同 意と考えておけばよいが, get A to do 「(頼んで) Aに･･･ してもらう」に対して have Ado は, 「(Aの義務として)Aに･･･してもらう」 といったニュアンスの違いがある。ま (大和 注意。 get の場合は、目的格補語に to 不定詞, have の場合は,原形不定詞がくることに 475. get A done ・過去分詞が補語 beel alod (8) wildcath W get[have] A done には (1) Aをしてもらう[させる] (使役)」 (2) 「A を…される (受身被害)」 (3) 「(主語が) Aを･･･してしまう(完了)」の3つの意味がある。Aと done は受動関係となる。 TARGET 73 (2) の用法 get A caught between B (複数名 ○ 本間の get A done は (2) の用法。 get A caught between B (複数名詞) は, 「AをB Oget (2) Ac の間に挟まれる」の意味。 gaidaiant arlol S 29reini adol it 476. have A done 過去分詞が補語 ndol tedt 大) W dainit ot ndlol ⑤ ○問題 475 で扱った (1) Aを･･･ してもらう[させる] (使役)」 が本間のポイント。 ② to have (my teeth treated) の to不定詞は, 「目的」 …するために) を表す副詞用法。 2 D 「bon A do」, 「help do」

下線部（1）の文構造が分かりません。特に2行目の文構造が分かりません。強調のdoであることは分かりますが、その後のthat以降が関係詞？かすらも分からないので、誰か教えて下さい！

次の英文は1991年に出版された本からのもので、 研究分野としての「人工知 能」 (Artificial Intelligence) について述べています。 下線部(1)~(3)を日本語に訳 しなさい。 What is Artificial Intelligence (AI)? Just about the only characterization of Al that would meet with universal acceptance is that it involves trying to make machines do tasks which are normally seen as requiring intelligence. There are countless refinements of this characterization: what sort of machines we want to consider; how we decide what tasks require intelligence and so on. One of the most important questions concerns the reasons why we want to make machines do such tasks. AI has always been split between people who want to make machines do tasks that require intelligence because they want more useful machines, and people who want to do it because they see it as a way of exploring how humans do such tasks. We will call the two approaches the engineering approach and the cognitive-science respectively. (2) (1) approach The techniques required for the two approaches are not always very different. For many of the tasks that engineering AI wants solutions to, the only systems we know about that can perform them are humans), so that, at least initially, the obvious way to design solutions is to try to mimic what we know about humans. For many of the tasks that cognitive-science Al wants solutions to, the evidence on how humans do them is too hard to interpret to enable us to construct computational models, so the only approach is to try to design solutions from scratch" and then see how well they fit what we know about humans. The main visible difference between the two approaches is in (3) their criteria for success; an engineer would be delighted to have create something that outperformed a person; a cognitive scientist would regard it as a failure. -1- M7 (492-61

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 ✅).

わからないので答えを教えてもらいたいです。

英語 Amy: Hey Jake, I was thinking about online shopping this weekend. Do you shop online often? Jake: Yeah, I do it quite a bit. It's so ( house and you can ( ) almost anything online. That's true. I love the convenience, too, especially with a busy schedule. But I've heard there are some downsides to it. What do you think? Well, one obvious downside is not being able to ( ) or try the product before buying. Sometimes, what you see on the website isn't exactly what you get. Amy: Yeah, that's a good point. I've had a couple of instances where the color or size was ) from what I expected. ( Another thing is the shipping time. Even with express shipping, you might have to ( ) a few days for your stuff to arrive. It's not great if you need Amy: Jake: Jake: Amy: Amy: Jake: Jake: Jake: something urgently. True, waiting can be frustrating. But what about the ( that sometimes the prices are higher online. It depends. I've found some great deals online, especially during sales. But you're right; in some cases, the prices can be a bit inflated, and you might end up paying more than if you bought it in-store. Amy: And returns can be a hassle, too. I had to return a shirt once, and the process took forever. It's not as easy as just going to a store and returning it on the spot. Yeah, returns can be a pain. Also, there's the whole security issue. You must be careful about where you're buying from to avoid scams or stealing your ( ). Amy: Oh, definitely. I always make sure the website is secure before entering any payment details. 日本語 L ), you know? No need to leave the On the bright side, online ( ) can be super helpful. I always check them before making a purchase. It gives you an idea of the product's quality and whether it's worth the money. Amy: That's a good point. I do the same. It's like having the opinions of a bunch of friends who've already ( ) the product. Jake: Exactly. So, while there are some drawbacks, I think the ( ) of online shopping, like the convenience and variety, outweigh the ( ) for me. Yeah, I agree. It's all about finding a balance and being cautious about where and what you're buying. )? I've heard

至急お願いしたいです。 全く分かりません。

Vocabulary Preview Match each word with a definition by drawing a line between them. **** 1. methane 2. undergo 3. fluctuate for 4. current 5. eruption 6. orbit 7. consequence 8. balance • (a) an explosion from a volcano . (b) a gas that is used as a fuel lib. (c) to give something up ofbelastb. (d) to do with the present time . (e) a curved path around a planet 9. contentious 151 • font-lo (f) causing disagreement . 416 . (g) to consider the importance of two things appropriately . work bas ron of been ensibilib . (h) to move up and down EVED . Seei opinsino (i) the result of an action or process 10. relinquish notiformedbr. (j) to experience something Too Hot t

大阪公立大学の入試問題なのですが、問4の【ウ】の並び替えがわかりません。また，【ウ】を含めた一文の文構造も教えていただけると嬉しいです🙇‍♀️

問4 次の語を並べ替え, 空所[イ][ゥ]に入る英文を完成し, その英文の2番 目と7番目に来る語を番号で答えよ。 [イ] accustomed 2 their (⑤5) spending (6) [ゥ] ① herbivore (5) as income (3) disposable 4) are (7) to (2) characterized ③ (6) obsessed with 7 fashion (4) men

vsコードを使ってJava言語の勉強をしてたんですけど初心者すぎて何が原因で上手くコードの実行ができてないのかわかりません… 勉強の資料として使ってるのは京都大学のJavaによるプログラミング入門 です。

17:43 7月27日 (木) 1.7 使用するサンプルプログラム (TankCalculator.java) 1: public class Tank Calculator { 2: public static void main (String args[]){ final double FLOW_RATE = 1.0; final double TANK_AREA = 20.0; final double INITIAL_LEVEL = 10.0; double time; //s double tankLevel; //m ... ocw.kyoto-u.ac.jp 3: 4: 5: 6: 7: 8: 9: 10: 11: 12: 13: time = 30; 14: tankLevel = INITIAL_LEVEL + FLOW_RATE*time/TANK_AREA; 15: System.out.println("Tank Level at time "+ time + "s = " + tankLevel + "m"); 16: 17: 18: 19: } 20:} 11 System.out.println("Flow Rate = + FLOW_RATE + "m** 3/s"); System.out.println("Tank Area=" + TANK_AREA + "m**2"); System.out.println("Initial Level = " + INITIAL_LEVEL + "m"); time = 60; tankLevel = INITIAL_LEVEL + FLOW_RATE*time/TANK_AREA; System.out.println("Tank Level at time "+ time + "s=" + tankLevel + "m"); 【補足】 // の後ろは,プログラムを後で読解しやすくするための注釈です. Flow Rate = 1.0m**3/s Tank Area = 20.0mm**2 Initial Level = 10.0m 8 Tank Level time 30.0s = 11.5m Tank Level at time 60.0s = 13.0m 1.7.1 サンプルプログラムの入力と実行 先ほどと同じように, 秀丸エディタを開き, 20行のプログラムを書き込んで, Tank Calculator.java と名付け, 保存して, コンパイル, 実行してください. 成功すれば,以下の実行結果が示されます。(失敗してもめげないで, 2.5.1 節を参 考に、原因を考え,再トライしてください) ちなみに, 実行結果をファイルに書き出すにはコマンドプロンプトの「リダイレク ト」 という機能を使います 11. java TankCalculator > result.txt これにより result.txt というファイルが出来ているはずです。 中身は数値や文字列 だけのテキストファイルですのでエディタなどで内容を確認できます。 @91% 11javaプログラムの中で明示的にフ ァイルに出力することもできるので すがここでは安直な方法を取ります

この問題の解説を日本語でお願いします🙏

1. A particle of mass m moves in one-dimensional potential given by V(x) = Am cos(x) where λ, A > 0, with initial position xo and initial velocity vo. Draw a graph of the potential, and describe the motion of the particle in the following cases: TT a) x₁ = and v₁ = 0; 22 b) = = 0 and v0 = 0; 3πt 22 Xo c) Xo = - and vo= -2√A. - 2. A particle is dropped in the presence of Stokes drag Farag = -bv, where is the velocity of the particle and b> 0 is a constant. Write down the equation of motion in terms of , and show that the vertical component of the equation of motion is satisfied by: v₂(t) = mg 19 (exp(-)-1) b What is the terminal velocity of the particle? Is it possible to determine the terminal velocity without solving the equation of motion?

この問題の解説を日本語でお願いします🙏

1. A particle of mass m moves in one-dimensional potential given by V(x) = Am cos(x) where λ, A > 0, with initial position xo and initial velocity vo. Draw a graph of the potential, and describe the motion of the particle in the following cases: TT a) x₁ = and v₁ = 0; 22 b) = = 0 and v0 = 0; 3πt 22 Xo c) Xo = - and vo= -2√A. - 2. A particle is dropped in the presence of Stokes drag Farag = -bv, where is the velocity of the particle and b> 0 is a constant. Write down the equation of motion in terms of , and show that the vertical component of the equation of motion is satisfied by: v₂(t) = mg 19 (exp(-)-1) b What is the terminal velocity of the particle? Is it possible to determine the terminal velocity without solving the equation of motion?

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: