3.2 Solution of the Vibrating String Problem

3.2 Solution of the Vibrating String Problem

Check the dimensions of each term.

If the string is located in a medium that resists movement, then it's there.

The resistance is expressed as a force in either direction or magnitude.
It only affects Eq.
Proceed to derive a new equation.

The displacement of the vibrating string is described by the initial value-boundary value problem.

The method of separation of variables may be applied.

Both members of the equation need to be constant for the equality to hold.

a.

There are some standing waves on the CD.

a.

A given function is to be expanded in a series of sines if there are two initial conditions.

a.

There is an animated version of this solution on the CD.

Although the solution in the example can be considered valid, it is difficult to see what shape the string will take at different times.

The string returns to its initial position through the positions shown during the second half-period.

The string has a nonzero velocity in the horizontal portion.

In later sections, we will generalize.

The vibrating string problem is solved in the fifth exercise.

Find the eigenvalues and eigenfunctions associated with the wave equation for each set of boundary conditions.

For a thin beam and a string, write out formulas for the first four frequencies.

The antenna is free to move.

This comes from the boundary conditions and the partial differential equation.

Take the first two eigenfunctions and compare them to the figure.

Find a solution by separation of variables.

There are 2 constants.

The series is in Eq.

The only function that can satisfy the boundary conditions is 0

In some cases, we could express the solution of the wave equation directly in terms of the initial data.

We change variables to see what the wave equation looks like.

It is possible to find the general solution of this equation.

a.

a.

a.

The wave equation and initial conditions are satisfied.

It can be adapted to other cases.

The graphs were graphically averaged in the two preceding steps.

The boundary conditions should be satisfied.

The units are reflected in the horizontal axis.

The boundary conditions should be satisfied.

The Eq is being used.

The vibrating string problem can be solved with a sketch.

The wave equation can be changed by using the change of variables at the beginning of the section.