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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Using method of characteristics to solve pde $xyu_x+u_y+u=4$

Using method of characteristics to solve pde $xyu_x+u_y+u=4$ My attempt: $\frac{dx}{xy}=\frac{dy}{1}=\frac{du}{u-4}$ Now take $\frac{dx}{xy}=\frac{dy}{1}\implies \frac{dx}{x}=ydy \implies c_1=\frac{^{e^{\frac{y^2}{2}}}}{x}$ now…
learner
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Diffusion with 2nd order reaction

I'm wondering if it is possible to find an analytical solution for a diffusion reaction equation where: A + B ---> R R + B ---> S So in terms of molecular diffusion and reaction (no advection in this problem): $$\frac{\partial c_A}{\partial t}…
rdemyan
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What is the order of the differential equation $\frac{\partial^2 u}{\partial x \partial y}=0$?

Firstly, I know that both $\frac{\partial^2 u}{\partial x^2}=0$ and $\frac{\partial^2 u}{ \partial y^2}=0$ are second order differntial equation but what is the order of $\frac{\partial^2 u}{\partial x \partial y}=0$? Secondly, what is the degree of…
MrDi
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Why the PIs using different methods are different? What am I doing wrong?

I have a PDE $$ \text { Solve }\left(D^{2}+3 D D^{\prime}+2 D^{\prime 2}\right) z=x+y . $$ where $D = \frac{\partial }{\partial x}$, $D^{\prime} = \frac{\partial }{ \partial y}, D^2 = \frac{\partial^2}{\partial x^2}, DD^{\prime}= \frac{\partial^2…
ngbtwby
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How to solve this PDE: $u_{xy}+\frac{1}{x}u_y-y=0$?

Question: A function $u(x, y)$ obeys the PDE: $$\frac{\partial^2 u}{\partial x \partial y}+\frac{1}{x} \frac{\partial u}{\partial y}=y.$$ Find the general solution for $u(x, t)$. Find the solution obeying the Cauchy data $u=0$ and $u_x=0$ on the…
Oliver
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How to solve this inhomogeneous partial differential equation

Any help to solve this second-order inhomogeneous partial differential equation $ \frac{1}{f(y)}~ \frac{d^2 f(y)}{dy^2} - b ~\frac{1}{k(t)}~ \frac{d^2 k(t)}{dt^2} - b B ~\frac{1}{k(t)}~ \frac{d k(t)}{dt } =0 $ Where b and B are constants. Here is…
Dr. phy
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Telegraph Equation separation of variables

I've been trying to solve the telegraph equation by the method of separation of variables. The equation is given by: \begin{align*} u_{tt}+au_t+bu&=c^2u_{xx}, \quad 00\\ u(x,0) &= f(x), \quad u_t(x,0) =…
andres florian
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Transport equation/ characteristic method

We consider the problem \begin{align} \begin{cases} \frac{\partial u}{\partial t}+c(x,t)\frac{\partial u}{\partial x}=0\quad\quad\quad (x,t)\in \mathbb{R}\times\mathbb{R}_+\\u(x,0)=u_0(x)\quad\quad\quad\quad\quad…
lemmatheorem
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A doubt on partial differential equations

Generally, the general form of the partial differential equation in quasilinear form is given as $$Au_{xx}+Bu_{xy}+Cu_{yy} = G(u, u_x, x,y,u_y)$$ In the above, $G$ is a function of mentioned variables and here $u_{xx}$ denotes $\frac{\partial^2…
Aziz
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symmetries of a PDE

Consider the PDE $DAD^Tu=0$ where $A$ is a constant matrix, $u:\mathbb{R}^n\rightarrow\mathbb{R}$ is twice differentiable and $D=[\frac{d}{dx_1},\frac{d}{dx_2}...]$. I would like to find the group of all functions…
Mathew
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Fourier's Heat PDE with time dependent heat source

I have a PDE for $x\in [0,L]$: $$u_t=\alpha u_{xx}+f(t)$$ BCs and IC: $$u(0,t)=u(L,t)=0\text{ and }u(x,0)=f(x)$$ My first 'instinct' is to solve the homogeneous PDE. $$\alpha u_{xx}+f(t)=0$$ $$\alpha u_E''(x)=-f(t)$$ $$u_E(x)=-\frac12 f(t)x^2+c_1…
Gert
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Showing that $e^{-|x|^2}$ is in $\mathcal{S}(\mathbb{R}^n)$ but not in $\mathcal{C}_{0}^{\infty}(\mathbb{R}^n)$.

I am trying rigorously to prove that $e^{-|x|^2}$ on $\mathbb{R}^n$ is in the Schwartz space but not in the space of infinitely differentiable functions with compact support. The function $e^{-|x|^2}$ is in $\mathcal{S}$. Proof: From the fact that…
eraldcoil
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Solving $\nabla^2 \phi(x,y) +\lambda \phi(x,y) = 0$

I wish to obtain the eigenfunctions/eigenvalues of $\nabla^2 \phi(x,y) +\lambda \phi(x,y) = 0$ with boundary conditions $\phi(x,0) = \phi(x,\pi) = \phi(0,y) = \phi(\pi,y) = 0$. To do this, I consider the method of Separation of Variables. Ansatz:…
hirotaFan
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Using a Similarity Variable to transform a PDE into an ODE

I have the following PDE with BC and IC: $$u_t=b u_{xx}-c u$$ $$u(x,0)=u_0 (x\to\infty)\text{ and }u(0,t)=0(t\to \infty)$$ In this video Dr Chris Tisdell shows how to transform such a PDE into an ODE, by rearranging the variables $x$ and $t$ into a…
Gert
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$\nabla u+u \nabla V=u \nabla\left(\log u+V\right)$

In the book Entropy Methods for Diffusive Partial Differential Equations, §2.1, p. 20 , the steady state solution for $$u_{t}=\operatorname{div}(\nabla u+u \nabla V) \quad in \quad \mathbb{R}^{d}, t>0, \quad u(0)=u_{0}$$ is derived by using $$0=…
eulermeuler
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