Mathematics Stack Exchange
Mathematics Stack Exchange

Questions tagged [partial-differential-equations]

Questions on partial (as opposed to ordinary) differential equations - equations involving partial derivatives of one or more dependent variables with respect to more than one independent variables.

Partial differential equations (PDEs) contain partial derivatives and usually contain two or more variables; the single-variable cases with normal derivatives are ordinary differential equations.

In general partial differential equation can be written in the form $$f(x, y, ,\dots , u, u_x, u_y, \dots , u_{xx}, u_{xy}, \dots )=0$$involving several independent variables $x, y, \dots ,$ an unknown function $u$ of these variables, and the partial derivatives $u_x, u_y, \dots, u_{xx}, u_{xy}, \dots$, of the function.

Subscripts on dependent variables denote differentiations, e.g., $$u_x\equiv \frac{\partial u}{\partial x},\quad u_{xy}\equiv \frac{\partial^2 u}{\partial x \partial y },$$and so on. The $f$ denotes a function defined on a subset of a finite dimensional space. Functional operators on functions like $f(u):=\frac{du}{dx}$ are not allowed in this definition. For instance, Laplace's equation in three dimensions $u_{xx} + u_{yy} + u_{zz} = 0$ is defined by $f(x,y,z,\nabla u,\nabla^2 u) = 0$, where $$f(a,b,c,v,M) := M_{11} + M_{22} + M_{33}.$$

Questions with this tag may be about, among other things:

  1. Analysis of existence and uniqueness of classical/strong/weak/viscous/etc. solutions in boundary value problems/Cauchy problems/Riemann problems.
  2. Functional analysis related to PDEs, e.g., theories of Sobolev spaces, Bochner spaces, analysis of linear/nonlinear differential operators, and pseudodifferential operators, etc.
  3. The stability, or long-term behavior of the solution.
  4. Different methods of solving PDEs, separation of variables, Fourier transform, solitons, method of characteristics.
  5. The solution technique of the Euler-Lagrange equations from calculus of variations.
  6. Equation-relevant theory in other fields, e.g. Hyperbolic conservation laws in fluid/gas dynamics, Maxwell's equations in electromagnetism, Hamilton-Jacobi equation in control theory, etc.

Please consider using more specific tags if your question addresses some of the aspects in that field, e.g., , , , , , , , .

References:

"Partial Differential Equations" by L. C. Evans

" Linear Partial. Differential Equations for Scientists and Engineers" by Tyn Myint-U & Lokenath Debnath

"Differential Equations" by Shepley L. Ross

See also the Wikipedia and MathWorld entries.

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PDE $u_t-u_{xx}+x^2u+u^3=0$

Let $u:\mathbb{R}\times(0,\infty)\to\mathbb{R}$ be a $C^2$ solution of the nonlinear heat…
Gizerst Nanari
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Given some conditions on a PDE, how to compute curves that obey these conditions?

I made a very silly algorithm to "approximate" functions in order to understand partial differential equations (I'm trying to learn by myself so I'm mostly trying to draw graphs to see what is going on). We get $(x,f(x))$, compute $a_0=\{x_0,f(x_0)…
Red Banana
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PDEs - Nonlinear Characteristics - On computation

In general, for the (Nonlinear) Method of Characteristics set up, we have a parameterized curve: $$x(s) = (x^1(s),...,x^n(s))$$ and some related variables , for an unknown (smooth enough) function, $u:\mathbb{R}^n\to\mathbb{R}$: $$z(s):=…
Kevin
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Heat conduction equation (mixed problem)

How to solve this heat conduction equation $u_t = u_{xx} -2u_x +x +2t, 0 \lt x \lt1, t \gt 0, u \left( 0,t \right )=u \left(1,t \right) = t, u \left( x,0 \right) = e^x\sin \pi x$ ? I tried to reduce this problem on equation with homogeneous…
Broj 1
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How is $\nabla \cdot A = 0$ solved?

I'm struggling to understand some aspects of a very basic gauge, the coulomb gauge. So I am asking simpler questions. If $\nabla \cdot A = 0$ ? So $\frac{\partial A_x}{\partial x} + \frac{\partial A_y}{\partial y} + \frac{\partial A_z}{\partial z}…
Kevin Njokom
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Wave equation $u_{tt}=u_{xx}+e^{-t}\cos{\frac{\pi x}{2l}}$, when $u(x,0)=u_t(x,0)=0$, $u_x(0,t)=u(l,t)=0.$

How to do following: In region $D=\{(x,t):00\}$ solve $$u_{tt}=u_{xx}+e^{-t}\cos{\frac{\pi x}{2l}}$$ with initial conditions $u(x,0)=u_t(x,0)=0$ and boundary conditions $u_x(0,t)=u(l,t)=0.$ I have encontered similar problems…
alans
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When are the coefficients of Laplace equation based on Fourier series?

in various posts I have made recently on the Laplace equation, I have questioned the methods for finding the coefficients of the harmonic/hyperbolic functions (Y(y) and X(x) of U(x,y). One examples is here and another is here . However, in the first…
Luthier415Hz
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How to solve this differential equation with the initial condition?

How to solve this differential equation with the initial condition $$\begin{cases} x(0)=1\\ x'(t) \cos t - 2x \sin t = 1 \end{cases}$$ for $t \in (\frac{-\pi}{2}, \frac{\pi}{2})$? I tried to use $z(t)=x(t)\cos(t), z'(t)=x'(t)\cos(t) -x(t)…
john1235
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Solving a non-homogenous second order partial differential equation

I've been trying to solve the following second order PDE: $\frac{d^2u}{dx^2} + \frac{d^2u}{dy^2} = u + 3$ With initial boundary conditions: $u(0,y)=0$ and $u(1,y)=0$ for $0
spaldix
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Do the boudanry conditions for a linear homogeneous PDE follow the superposition principle

I am wondering if the boundary conditions for the following linear PDE can be seperated. $\frac{\partial F(t,x,y)}{\partial t}=\frac{\partial^2 F}{\partial x^2}+\frac{\partial^2 F}{\partial y^2}$ Suppose I have four boundary conditions in a 2D…
Kai Jiao
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Solutions of wave equation in area

Prove that the solution for the wave equation in $\Omega = \mathbb{R} \times [0, \infty)$ $$u(x,0)=\begin{cases} 1 & x \in (-\infty,-1) \\ 0 & x \in (-1,\infty) \end{cases} $$ is $u=0$ in the area $B=\{(x,t) | t \geq0,x-t \geq -1, x+t \leq 1\}$…
illuminatitruthseeker
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PDE $\partial_t f(x,y,t)=cy (\partial_xf)+3x\partial_y(yf)+\frac{1}{2}c^2y^2(\partial_{xx}f) \\$

I have the following PDE $\partial_t f(x,y,t)=cy (\partial_xf)+3x\partial_y(yf)+\frac{1}{2}c^2y^2(\partial_{xx}f) \\$ where $c \in \mathbb{R}$ I would like to know what type of PDE is, any information about it, and its possible solutions given an…
Asanovic Tomas
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showing the solution of heat equation decays with time

For following PDE how can I show $||u(t,*)||_{L^2([0,l])} \le a e^{-bt}$ without solving it, where $a>0$, and $b>0$ are constants. let, $l>0$, $S = (0,\infty)\times (0,l)$ and $u(t,x) \in C^{1,2}(\bar S)$ \begin{align*} u_t - u_{xx} = 0 & \; ;…
Monkey D. Luffy
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Question on proof of deformation lemma

on page no 479 of partial differential equation (Evans) how the condition (iii) of deformation lemma is satisfied.
nanthini
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The method of separation of variables in solving a PDE

Suppose we have a PDE and we can solve it with the separation of variables and let's say the variables are $x,y,z$. Is the factorized function $f(x,y,z)=g(x)h(y)l(z)$ the only possible solution? Are there any solutions of a different form other than…
Luigid
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