Wave on a string / impedance problem

In summary, the conversation discusses waves on a string with a mass in the middle, where the force considerations involve a negative sign on the B term. The speaker also mentions the need for two boundary conditions and the application of Newton's 2nd law. The purpose of the problem is to teach about boundary conditions and the importance of continuity in functions.
  • #1
Darren93
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We have looked fairly extensively at waves on a string without anything on them, however there is a portion in my notes about an infinite string with a mass in the middle. Essentially the setup is that x=0 we have a mass. Here the waveform on each side must be equal as the string is continuous, that I get. However then we look at force considerations and we seem to place a negative sign on the B term and I have no idea where that comes from. Does anybody see why that would be in the attached picture?
 

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  • #2
boundary conditions -- waves are 2nd order partial differential equations so you need two boundary conditions, on f(x) and f'(x). the minus sign is from a derivative. you'll need to invoke none other than Newton's 2nd law for the mass in between.

your professor assigned this problem to teach you about boundary conditions. one always requires that the function remain continuous across a boundary, but the derivative may be discontinuous. the analogous problem in quantum mechanics (which you will certainly encounter, if you learn quantum mechanics) is the delta function potential.
 

1. What is a wave on a string?

A wave on a string is a phenomenon where a disturbance or vibration travels along a string. This can be seen when a rope is shaken or when a guitar string is plucked.

2. What causes a wave on a string?

A wave on a string is caused by a disturbance or energy being applied to one end of the string. This disturbance creates a series of pulses that travel along the string until they reach the other end.

3. What is meant by impedance in relation to a wave on a string?

Impedance is a measure of the opposition that a wave encounters as it travels through a medium, in this case the string. It is affected by the properties of the string, such as its density and tension.

4. How does the tension of the string affect the wave on a string?

The tension of the string has a direct impact on the speed and amplitude of the wave. The higher the tension, the faster the wave will travel and the greater the amplitude of the wave.

5. How is the speed of the wave on a string calculated?

The speed of the wave on a string is calculated using the equation v = √(T/μ), where v is the speed, T is the tension of the string, and μ is the linear density of the string.

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