How does frequency depend on the potential energy?

In summary, to find the frequency of a particle confined to one dimension in a potential field U(x), one can use the equation -dU/dx = F(x) to determine the force on the particle. With the mass of the particle, the acceleration a(x) can be calculated. Then, using the total distance x = |b-a| and the fact that v(a) = v(b) = 0, the time taken can be found. The frequency can then be calculated as the inverse of twice the time. Additionally, one may be able to approximate the potential energy function using a Taylor expansion to a simple harmonic oscillator with spring constant k.
  • #1
JoAuSc
198
1
Let's say you have a particle confined to one dimension in a potential field U(x). At t=0, the particles initial kinetic energy is K_o. U(x) is such that the particle is trapped between two points x=a and x=b; this means U(a) = U(b) = K_o, and the slopes of U(x) at a and b are such that the particle is kept between a and b. How would you find the frequency of this system?
 
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  • #2
From -dU/dx, you know the force on the particle, F(x). With it's mass, you can find the acceleration a(x). From a(x) and the total distance, x = |b-a|, you can find the time taken, since you know v(a) = v(b) = 0. Twice this time is the inverse of the frequency.
 
  • #3
By doing a Taylor expansion for U(x), you may also be able to approximate your potential energy function by "a simple harmonic oscillator with spring constant k".
 

1. How does the frequency of a wave change with potential energy?

The frequency of a wave is directly proportional to the potential energy. As the potential energy increases, the frequency of the wave also increases. This relationship is described by the equation E=hf, where E is the energy, h is Planck's constant, and f is the frequency.

2. Does potential energy affect the wavelength of a wave?

No, potential energy does not affect the wavelength of a wave. Wavelength is determined by the speed of the wave and the frequency, not by potential energy.

3. How does potential energy affect the amplitude of a wave?

Potential energy does not have a direct effect on the amplitude of a wave. Amplitude is determined by the energy of the wave, which is related to the potential energy, but other factors such as the medium through which the wave travels and the source of the wave also play a role in determining amplitude.

4. Is there a maximum potential energy that can be achieved by a wave?

Yes, there is a maximum potential energy that a wave can have. This is known as the critical or cutoff energy, and it is the point at which the wave can no longer propagate through a medium. Beyond this point, the wave will either be absorbed or reflected.

5. Can potential energy affect the speed of a wave?

Potential energy does not have a direct effect on the speed of a wave. The speed of a wave is determined by the properties of the medium through which it travels, not by the potential energy. However, changes in potential energy can indirectly affect the speed of a wave by altering the wavelength or frequency.

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