Solving PDEs without Boundary Conditions: A Conundrum?

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SUMMARY

This discussion addresses the challenge of solving partial differential equations (PDEs) without specified boundary conditions, particularly focusing on the two-dimensional Poisson equation (inhomogeneous). Participants emphasize the reliance of traditional methods, such as separation of variables, on boundary and initial conditions to derive solutions. The conversation highlights that while general solutions to ordinary differential equations involve unknown constants, PDEs require unknown functions, complicating the solution process in the absence of boundary conditions. The example of the wave equation illustrates the form of solutions but raises questions about deriving solutions without constraints.

PREREQUISITES
  • Understanding of partial differential equations (PDEs)
  • Familiarity with the wave equation and its solutions
  • Knowledge of separation of variables method
  • Concept of general solutions in differential equations
NEXT STEPS
  • Research methods for solving PDEs without boundary conditions
  • Explore the theory behind the two-dimensional Poisson equation
  • Learn about weak solutions and distribution theory in PDEs
  • Investigate alternative solution techniques such as Fourier transforms
USEFUL FOR

Mathematicians, physicists, and engineers dealing with PDEs, particularly those exploring theoretical aspects of solutions without boundary conditions.

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If a PDE has no boundary conditions specified, how does one go about providing a solution--even if this is a general solution?

I'm stuck looking at the separation of variables and other methods which all seem to heavily rely on those boundary conditions and initial conditions.

If anyone wants to conceptualize what I'm talking about more, it's a two dimensional Poisson equation (inhomogeneous).
 
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In general, where the general solution to an ordinary differential equation involves unknown constants, the general solution to a partial differential equation involves unknown functions.

For example, a function \phi(x,t) satisfies the "wave equation"
\frac{\partial^2\phi}{\partial x^2}= \frac{1}{c^2}\frac{\partial^2\phi}{\partial t^2}
if and only if it is of the form
\phi(x, t)= F(x+ ct)+ G(x- ct)
where F and G can be any twice differentiable functions.
 
Without boundary conditions, how do you even come up with a solution at all?

Anything specific like separation of variables for one case of the constant?
 

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