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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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Division in differential equations when the dividing function is equal to $0$

When dividing two functions: $$h(x)=\frac{f(x)}{g(x)},$$ how do we account for the points at which $g(x)=0$ ? An example is when solving a PDE by separation of variables: Let $\phi(x,y,z)=X(x)Y(y)Z(z)$, then:$$\nabla^2\phi=0\leftrightarrow…
A Slow Learner
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How is a heat partial differential equation with a flux term

Consider a metal rod, with $K=1$ and longitude $\pi$ . On its extremes, there is heat transmission with the ambient, according to the differential equation: $$u_t(x,t)=u_{xx}(x,t)-hu(x,t),$$ with $h>0$. The extremes of the rod have fixed…
Federico
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Specific solution to the $1D$ wave equation

So my current solution to the $1D$ wave equation is (with my given boundary and initial conditions): $$y(x,t) = \sum_{n=1}^\infty C_n\cdot \sin\frac{n \pi x}{2 l}\cdot\cos\frac{n \pi c t}{2 l}$$ However there is one final initial condition that is…
Sam
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diffusion equation, inhomogenous boundary conditions (the subtraction method)

Recently I am reading a textbook on P.D.E. Most of the time textbooks mainly deal with homogenous equations and boundary conditions. I am curious how would one solve say, the heat equation with inhomogenous boundary…
yoyostein
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understanding of outward normal vector

In our lecture on PDE, we introduced the outward normal vector as follows: Let $\Omega \subseteq \mathbb{R}^n$ be a domain with a $C^1$-boundary, $x \in \partial \Omega$ and $g \in C^k(U)$ with $\nabla g(x) \neq 0$ for all $x \in U$ with $g(x)=0$,…
SallyOwens
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heat equation with inhomogenous BC and IC

I'm Zekeriya Özkan from Turkey, I'm a master student in Turkey Can you solve the heat equation with conditions $$\frac{\partial^2u}{\partial x^2}=\frac{\partial u}{\partial t}$$ IC: $u(0,t)=1$ BC : $u_x(0,t)=U$, $u_x(1,t)=-U$
zekeriya özkan
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$u_{xx} − 7u_{tx} + 12u_{tt} = 0$ (Partial Differential Equations)

$u_{xx} − 7u_{tx} + 12u_{tt} = 0$, $−10$, $u(0,x) = x^2$, $u_t(0,x) = e^x$ for x≥0 Attempt (Factorization Method): Factoring the differential operator, $0 = (∂^2/∂x^2)u - 7(∂/∂x)(∂/∂t)u + 12(∂^2/∂t^2)u = (∂^2/∂x^2 + 2(∂/∂x)(∂/∂t) +…
Jeffrey
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Parallelogram identity in the wave equation

Using the parallelogram identity, I need to solve the following initial boundary value problem for a vibrating semi-infinite string with a nonhomogeneous boundary condition: $$ u_{tt} − u_{xx} = 0 , \ 0 < x < \infty, t > 0 $$ $$u(0,t) = h(t)$$ …
Maria
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Why do we need boundary conditions in PDE's?

In an ordinary differential equation, we only need real-valued initial conditions. Now consider the heat equation $\delta_t u=\delta_{xx} u$. In partial differential equations we instead need function-valued initial conditions. E.g. $u(x,0)=sin(x)$.…
user56834
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PDE: Maximum principle + Periodic Boundary Conditions = Constant?

I'm working on a homework assignment in PDE, and I'm required to use the maximum principle to demonstrate that when $\Delta u(x)=0$ and periodic boundary conditions are applied, $u(x)$ is a constant. The EXACT wording of the question is: "Let u be…
Chris Donlan
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A question on energy equipartition of the wave equation

I am solving a initial value problem for the wave equation $$ u_{tt}=u_{xx}\ \ in \ \ \mathbb{R}\times (0,\infty), \ \ \ u=g, \ u_{t}=h \ \ on \ \ \mathbb{R}\times \{0\} $$ for some com[actly suppoerted functions $f,g\in C_{c}(\mathbb{R})$. Let $u$…
Pooya
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A good substitution for a PDE

Consider the following PDE $$ \frac{\partial \Phi}{\partial t} - \frac{1}{2}y \frac{\partial \Phi}{\partial x} + \alpha \beta y^{3/2} \frac{\partial^2 \Phi}{\partial x \partial y} + \frac{1}{2} y \frac{\partial^2 \Phi}{\partial x^2} + \frac{1}{2}…
vanna
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how to uncouple and unreduce a system of first order PDEs

Suppose we are given a system of first order PDEs with constant coefficients. In particular, suppose we are given $k$ PDEs for $u_1,u_2, \dots u_n$ with respect to independent variables $x_1,x_2, \dots x_n$. Label these as $L_j[u,x]=0$ for…
James S. Cook
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Does the PDE $\frac{1}{t}\frac{\partial^{2} u}{\partial t^{2}}-\frac{\partial^{2} u}{\partial x^{2}}=0$ have a name?

$$\frac{1}{t}\frac{\partial^{2} u}{\partial t^{2}}-\frac{\partial^{2} u}{\partial x^{2}}=0$$ Does this PDE have a specific name? Is it a wave equation? Can we transform it into a wave equation?
MAK
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how to solve $ {\partial u \over \partial t} - k {\partial ^2 u \over \partial x^2} =0$

How do I solve the following PDE for it's general solution? $$ {\partial u \over \partial t} - k {\partial ^2 u \over \partial x^2} =0$$ How do I determine the general the solution of this equation will be $u(x, t) = X(x)T(t) $? I tried Monge's…
Monkey D. Luffy
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