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Questions tagged [partial-derivative]

For questions regarding partial derivatives. The partial derivative of a function of several variables is the derivative of the function with respect to one of those variables, with all others held constant.

The partial derivative of a function of several variables is the derivative of the function with respect to one of the variables, with the others held constant. The partial derivative, like the ordinary derivative, describes the rate of change of a function in a particular direction.

If $f = f(a_1, a_2, \dots, a_n)$ is a function of $n$ variables, then the partial derivative of $f$ with respect to the variable $a_i$ can be written as a limit:

$$\frac{\partial f}{\partial a_i} = \lim_{h \to 0} \frac{f(a_1, \dots, a_i + h, \dots, a_n) - f(a_1, \dots, a_i, \dots, a_n)}{h}.$$

Alternatively, this quantity can be denoted as $f_{a_i}$.

If the function has continuous partial second derivatives, then:

$$\frac{\partial}{\partial x_i}\left(\frac{\partial}{\partial x_j}\right)=\frac{\partial}{\partial x_j}\left(\frac{\partial}{\partial x_i}\right)$$

a result known as Schwarz's Theorem.

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Partial derivative of a total derivative

Assume that we have some function $f(x(t),t)$ that is two times differentiable. The partial derivative $\partial_t$ and $\partial_x$ are defined in the same way as the total derivative, but with $x$, $t$ constant, respectively. Now assume that…
physicsGuy
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Calculating partial derivatives of a rather difficult function

How can I calculate the first partial derivative $P_{x_i}$ and the second partial derivative $P_{x_i x_i}$ of function: $$ P(x,y):=\frac{1-\Vert x\rVert^2}{\Vert x-y\rVert^n}, x\in B_1(0)\subset\mathbb{R}^n,y\in S_1(0)? $$ I ask this with…
user34632
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How to prove Euler's Theorem

How do you prove Euler's Theorem $$du=\left({\partial u \over \partial x}\right)dx+\left({\partial u \over \partial y}\right)dy $$ if $u=f(x,y)$. I also heard that Ramanujan developed another method can somebody know that?
DebojyotiMukh
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Need to prove $f$ is continuous if $\frac{\partial f}{\partial x_1},\dots,\frac{\partial f}{\partial x_m}$ are all $C^{r-1}$-functions?

I am reading "Basics of Manifolds" (in Japanese) by Yukio Matsumoto. The following exercise is Exercise 4.2 on p.25 in this book. 4.2 A function $f$ on an open set $U$ in $\mathbb{R}^m$ is a $C^r$-function ($r\geq 1$) if and only if $\frac{\partial…
tchappy ha
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Is, $\frac{d f}{d z}\frac{\partial z}{\partial \theta}=\frac{\partial f}{\partial z}\frac{\partial z}{\partial \theta}$?

Let $f(z)= P(r,\theta)+iQ(r,\theta)$ $$z=x+iy=re^{i\theta}$$ then, $$\frac{\partial f}{\partial \theta}={\frac{d f}{d z}}{\frac{\partial z}{\partial \theta}}$$ Is, $\dfrac{d f}{d z}\dfrac{\partial z}{\partial \theta}=\dfrac{\partial f}{\partial…
HOLYBIBLETHE
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If $u=\log{\big(x^3+y^3+z^3-3xyz\big)}$.Find $\Big(\frac{\partial}{\partial{x}}+\frac{\partial}{\partial{y}}+\frac{\partial}{\partial{z}}\Big)^{2}{u}$

I just started learning functions of several variables and found the above problem in my book. The solution given in my book was by finding the value of …
Identicon
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Gravitational fields

Could anyone help me with the following question? Consider a right circular cone of constant mass density sigma, height h, and semi-vertical angle alpha. By dissecting the cone into discs, show that find the gravitational field at the apex of the…
Tom
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prove that partial derivative is independent from a variable

let $f(x, y)$ function, and $f_{xx}, f_{xy}, f_{yx}, f_{yy}$ are continuous in $\mathbb{R}^2$, $f_{xx}\equiv f_{yy}$. $z(u, v)$ is defined as $z(u, v)=f(u+v, u-v)$, I need to show that $\frac{\partial z}{\partial u}$ is not dependent on $v$ and…
CforLinux
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Get $z=f(x,y)$ with $x=r\cos\theta$ and $y=r\sin\theta$ prove that

Get $z=f(x,y)$ with $x=r\cos\theta$ and $y=r\sin\theta$ prove that $$\frac{\partial^2 z}{\partial r^2}=\frac{\partial^2 z}{\partial x^2} \cos^2\theta+2\frac{\partial^2 z}{\partial x \, \partial y} \sin\theta \cos\theta+\frac{\partial^2 z}{\partial…
Yobani Ordoñez
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Show that the differential equations of all cones which have their vertices at $(0,0,0)$ is $px+qy=z$

Question: Show that the differential equations of all cones which have their vertices at $(0,0,0)$ is $px+qy=z$, where $p=\dfrac{\partial z}{\partial x}, q=\dfrac{\partial z}{\partial y}$ Progress: We have the cone with vertex at origin as…
PDF
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Finding relationship using the triple product rule for partial derivatives

My physics textbook presented me with the following relationship: $$\left( \dfrac{\partial x}{\partial t} \right)_\varphi = \dfrac{-(\partial \varphi / \partial t)_x}{(\partial \varphi / \partial x)_t}$$ In researching this relationship, I…
The Pointer
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Subbing in values when calculating partial derivatives

I am currently learning about partial derivatives, and while I was watching a lecture noticed something interesting. The example question was to find the values of: $$f(x,y) = \frac{x+y}{x^2+y^2}$$ at the position $(2, 0)$. I found that by…
ArchieMcKay
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confirm which one is correct?

Let $f(z)=-(x^2+y^2)^{1/2}$ and $\Delta=\frac{\partial^2}{\partial x^2}+\frac{\partial^2}{\partial y^2}$. Help to confirm which one is correct for $\Delta f$; this or $(x^2+y^2)^{3/2}-\frac{2}{(x^2+y^2)^{1/2}}$? thankyou. EDIT: sorry, I meant above.…
user2723
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Cancellation rules for partial derivatives

Is it possible to do some kind of simplifications on an expression like $$ f : x, y \to \mathbb{R} \\ \frac{\frac{\partial^2 f}{\partial y^2}}{\frac{\partial f}{\partial y}} = \frac{\partial f}{\partial y} $$ So that $\frac{\partial f}{\partial y}$…
WolfgangP
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Finding the partial derivative in a specific point

I need help in finding the partial derivative in a specific point. Let $x$, $y$, $u$ and $v$ be variables for which this relationship is true: $$ \left\{ \begin{array}{c} x^2 + xy - y^2=u \\ 2xy + y^2=v \\ \end{array} \right. $$ How do I find…
Einsteinwasmyfather
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