Wave equation, D'Alembert's Solution

In summary, the conversation discusses the difference between D'Alembert's Solution and the solution of the wave equation expressed in terms of sines and cosines. The general solution, which is a wave, is not necessarily periodic like sine or cosine. Instead, it can be represented by an arbitrary function g(x-ct). The example of a taut rope being distorted and released from rest at t=0 is used to explain this concept.
  • #1
Tuneman
41
0
I am having trouble understanding the solution to the wave equation:

735128d3de55366340a2e5fb647c470e.png


this is thought of as the final solution to the PDE:
img250.gif


but I see that:
img246.gif


is a solution to the function. But what I don't get is why D'Alembert's Solution isn't in terms of sines and cosines like that solution right above.

Is it because D'Albemerts is a gereneral solution, and the other is a specific solution? If so, still how come the general solution to the problem isn't expressed as a wave, and instead of some arbitrary function g(x-ct)?
 
Physics news on Phys.org
  • #2
The general solution is a wave. But a wave is not necessarily periodic like sine or cosine. Imagine a taut rope that is distorted initially in a shape that consists of a bulge, say a triangle between x= -1 and x= 1, given by y= x+1 for x<0, y= 1-x for x>=0 and then released from rest at t=0. "g" splits into two parts which move right and left: that's what (1/2)g(x-ct) and (1/2)g(x+ct) are. The h integral allows non-zero speed at t= 0 also.
 

1. What is the wave equation?

The wave equation is a mathematical formula that describes the behavior of a wave in a physical system. It relates the second derivative of a wave's position to its speed and acceleration.

2. Who developed the wave equation?

The wave equation was first developed by Jean le Rond d'Alembert in the 18th century.

3. What is D'Alembert's solution?

D'Alembert's solution is a method for solving the wave equation, which involves breaking down the equation into simpler parts and using the principle of superposition to combine the solutions.

4. What is the significance of the wave equation?

The wave equation is significant because it has applications in many fields, including physics, engineering, and mathematics. It is used to describe a wide range of phenomena, such as sound, light, and electromagnetic waves.

5. What are some real-life examples of the wave equation in action?

The wave equation can be seen in action in many everyday situations, such as the vibrations of a guitar string, the propagation of sound in air, and the transmission of signals through optical fibers. It is also used in more complex systems, such as seismic waves in the Earth's crust and electromagnetic waves in space.

Similar threads

Wave Equation: d'Alembert solution -- semi-infinite string with a fixed end
    • Calculus and Beyond Homework Help
Replies
4
Views
3K
Understanding how to apply the method of images to the wave equation
    • Calculus and Beyond Homework Help
Replies
1
Views
2K
Prove that solutions to autonomous first order DE can't have local maxima
    • Calculus and Beyond Homework Help
Replies
2
Views
294
Partial differential wave (d'Alembert) solution check please
    • Calculus and Beyond Homework Help
Replies
11
Views
2K
D'Alembert solution of wave equation on semi infinite domain
    • Calculus and Beyond Homework Help
Replies
10
Views
4K
Conditions for the undetermined coefficients method to fail with sinusoidal input
    • Calculus and Beyond Homework Help
Replies
12
Views
357
Show uniqueness in Dirichlet problem in unit disk
    • Calculus and Beyond Homework Help
Replies
6
Views
364
Wave equation complex problem
    • Calculus and Beyond Homework Help
Replies
27
Views
2K
Avoid unpleasant integrals in solving IVP
    • Calculus and Beyond Homework Help
Replies
3
Views
559
I Non-wave solution to wave equation and virtual particles
    • Quantum Physics
Replies
9
Views
765

Hot Threads

Recent Insights

Back
Top