Intuitively d'Alembert's solution to 1D wave equation

ralqs
Messages
97
Reaction score
1
D'Alembert's solution to the wave equation is
u(x,t) = \frac{1}{2}(\phi(x+ct) + \phi(x-ct)) + \frac{1}{2c}\int_{x-ct}^{x+ct} \psi(\xi)d\xi where \phi(x) = u(x,0) and \psi(x) = u_t (x,0). I'm trying to understand this intuitively. The first term I get: a function like f = 0 (x/=0), = a (x=0) will "break into two functions" and become f = a/2 (x = +/- ct), = 0 (x /= +/- ct). But I can't see how the integral term comes about. Does anyone here have a good physical intuition about this? Thanks.
 
  • Like
Likes bosque
Physics news on Phys.org
The integral comes from the initial conditions. In particular the fact that we are given a derivative of our solution so our solution must be an integral of what we are given. Think of it in two steps.
We have the operator

(Dt)2-(c Dx)2=(Dt+c Dx)(Dt-c Dx)

In the factored form it is easy to see our solution is the sum of two parts. In one x+ct is held constant and in the other c-ct is constant.

f(x+ct)+g(x-ct)

Then apply the Cauchy boundary condition and preform some elementary algebra to express the solution in terms of the Cauchy data.
 

Thread 'Volterra equation of the second kind'

There is the following linear Volterra equation of the second kind $$ y(x)+\int_{0}^{x} K(x-s) y(s)\,{\rm d}s = 1 $$ with kernel $$ K(x-s) = 1 - 4 \sum_{n=1}^{\infty} \dfrac{1}{\lambda_n^2} e^{-\beta \lambda_n^2 (x-s)} $$ where $y(0)=1$, $\beta>0$ and $\lambda_n$ is the $n$-th positive root of the equation $J_0(x)=0$ (here $n$ is a natural number that numbers these positive roots in the order of increasing their values), $J_0(x)$ is the Bessel function of the first kind of zero order. I...
View full post »

Thread 'Visual Representation of Separation of Varables'

Are there any good visualization tutorials, written or video, that show graphically how separation of variables works? I particularly have the time-independent Schrodinger Equation in mind. There are hundreds of demonstrations out there which essentially distill to copies of one another. However I am trying to visualize in my mind how this process looks graphically - for example plotting t on one axis and x on the other for f(x,t). I have seen other good visual representations of...
View full post »

Similar threads

I D'Alembert solution for the wave equation: question about the speeds
Replies
1
Views
2K
MHB Compact Support of Wave Equation IVP Solutions
Replies
19
Views
4K
I General solution of 1D vs 3D wave equations
Replies
7
Views
3K
MHB Solving the Wave Equation: Finding $u(x,t)$
Replies
2
Views
2K
MHB Solving the Wave Equation with Initial Data: Ex. 5 Solution and Derivation
Replies
11
Views
3K
I What defines a wave according to the wave equation?
Replies
4
Views
2K
MHB How Do I Solve the Wave Equation with Given Initial Data?
Replies
2
Views
2K
I Finding the time for the first shock for a quasilinear first order PDE
Replies
4
Views
3K
I Characteristic curves for ##u_t + (1-2u)u_x = -1/4, u(x,0) = f(x)##
Replies
2
Views
3K
I FEM Method for the Wave Equation
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top