Translation of "second derivative" to Japanese language:
Dictionary English-Japanese
Examples (External sources, not reviewed)
| Show second derivative | 二番目の導関数を表示 |
| What's the second derivative? | sin x の導関数をマイナスにしたものです |
| Well, the highest derivative here is the second derivative. | これは2次です |
| This was the second derivative. | ラプラス変換は sの2乗 y t のラプラス変換ー |
| Now we're at the second derivative. | それは ー1 です |
| The second derivative at zero is minus 1. | だから 1 x 2 2 です |
| So just to review our terminology, y is the second order because the highest derivative here is the second derivative, so that makes it second order. | 二階なので これは 二階微分方程式です 線形とされるのは何でしょう |
| Then that equals the derivative of the first times the second function, plus the first function times the derivative of the second. | それに 2 番目の導関数の最初の関数を掛けたものを 加えます 両側を積分すると |
| Transform of the second derivative, what do we end up? | ここが sの2乗です いいですか |
| So we'll have A times the second derivative of this thing. | A 掛ける二階の導関数 簡単ですね |
| Times the derivative of the second expression with respect to x. | xに関する2 番目の導関数の項は μ x 2x y です |
| That means that we're now going to start involving the second derivative. | 微分です まず 最初に紹介するクラスは |
| So the second derivative of y2 is just e to the x plus 2 times the first derivative is what? | それに 2掛ける1次導関数は e xの1次導関数は e x |
| And since it's twice differentiable, we also know that its derivative is continuous because the second derivative exists at all points. | その派生物が連続していることから 2 番目 派生物すべてのポイントに存在します 私は私の部分は ことを言うので 確認はあまりにも書いていません |
| So if we have u times v, if we take the derivative with respect to t of that, that's equal to the derivative of the first times the second function plus the first function times the derivative of the second function. | tに関する導関数は 最初の 導関数に2 番目の関数を掛けたもの 2 番目の導関数に最初の関数を掛けたものを |
| linear equation, because you have the second derivative, the first derivative, and y, but they're not multiplied by the function or the derivatives. | 最高の次数が2で 関数同士あるいは導関数の乗算がありません この式は 書き換え |
| This is also non linear, because I multiplied the function times its second derivative. | この関数が導関数で掛けられています ここでは 2次の導関数が掛けられていますが |
| 1st derivative | 一番目の導関数 |
| 2nd derivative | 二番目の導関数 |
| Anti derivative. | 不定積分について考える一つの方法は |
| And we get A let's take this one let's take all the g terms A times the second derivative of g, plus B times the first derivative, plus C times g that's these three terms plus A times the second derivative of h, plus B times the first derivative, plus C times h. | Bg Cgの3項です 次のhの関数をまとめると Ah Bh Chです |
| Now you add that to the derivative of the second function times the first function. | 微分を加えます 最初の関数 f1 x に |
| Show first derivative | 一番目の導関数を表示 |
| Derivative chain rule. | 内部の導関数は r です |
| 1st derivative r. | これは r 0で1で その係数のままです |
| An ergoline derivative. | エルゴリン誘導体 |
| So we need to find a y where 1 times its second derivative, plus 5 times its first derivative, plus 6 times itself, is equal to 0. | y は一階の導関数 y 5y 6y 0です ここで 関数に関し |
| So that when I take the derivative, that 2 and the 1 2 cancel out, and I'm just left with the second derivative of the original function. | 元の式の2次導関数が得られます 元の式の2次導関数が得られます 確認しましょう |
| And what's the second derivative? y prime prime is equal to derivative r is just a constant so derivative of the inside is r, times r on the outside, that's r squared, times e to the rx. | y は 内部の導関数がrなので r 2 掛けるde rx です |
| Plus f prime prime, the second derivative of the function at 0, times x squared over 2. | 0 xの2乗です なぜここで 1 2をかけるのでしょう |
| Because we evaluated this curvy function, it's second derivative 0, so we just got a number here. | 0の2次導関数として 数字が得られます この導関数はこの数字です |
| Because I squared, I multiplied the second derivative of y with respect I multiplied it times itself. | 非線形です 他の非線形の例は |
| So plus f1 of x, that's just the first function, times the derivative of the second function. | 2 番目の関数の微分 g1 y 2 番目の関数の微分は |
| Now the derivative of the second function, it's going to be this function with respect to y. | この関数は y に対しているので だから g1 y と書くことができます |
| Hence, the derivative 0. The derivative of logσ is 1 σ. | そしてこの式はちょっと変わってますね 分母にσ ²があります |
| Well, we could just keep doing this, and actually, we will keep doing this, and you know, just saying, well, the zeroth derivative, or at the value, is the same the first derivative is the same at 0, the second derivative is the same at 0, we'll say the third derivative, the fourth derivative, and we'll keep doing that. | 0階の導関数 または その値で 1階の導関数が0で 2次導関数も0 |
| So what's it's derivative? | 2 tのラプラス変換 0での関数の値 |
| 2nd derivative r squared. | 一階の導関数の係数 r |
| So this is derivative. | そんな部分積分に 元の関数では 私たちを取る |
| She has a derivative. | あの子は副産物を持っているわ |
| So the second derivative of y with respect to x, plus 2 times the first derivative of y with respect to x, minus 3 y is equal to 0. | 2 xに関する1次の導関数 3yは 0に等しいです これに 答えが与えられています |
| This is the anti derivative and this is also the anti derivative. | anti derivative これは g 首相 x のこの x の g です |
| And you'll see, and maybe you'll even realize it, when you take a second derivative, what happens, right? | 2次導関数を得る際に何が起こるか 気がつきましたか 2次導関数を得る際 乗数の2でかけるので それを この1 2で打ち消されます |
| Second. Second. Second. | 賛成 second 賛成する 支持する |
| The derivative operator, you get an expression, and you find find this derivative. | その導関数を見つけました 今度は何をしたいかというと ある式を得たら |
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