Amplitude times frequency.
Frequency is 1 of 3 variables that determine wave energy. The other two are amplitude and velocity.
Sounds are waves and waves have energy.
wave transmitt energy the the force that the wave has
That is basically the description of a WAVE.
A wave's amplitude, or wave height, is a direct indication of its energy.
Frequency is 1 of 3 variables that determine wave energy. The other two are amplitude and velocity.
Sounds are waves and waves have energy.
wave transmitt energy the the force that the wave has
That is basically the description of a WAVE.
Light is a wave, so there are no waves transferring light.
A wave's amplitude, or wave height, is a direct indication of its energy.
The velocity of the wave
The size of the wavelength w determines the energy of the wave. E = hc/w =cp and the Momentum of the wave, p=h/w.
If it is a mechanical wave, then the lower amplitude waves would have less energy. If you are talking about electromagnetic waves, then higher frequency waves (shorter wavelength) have more energy, and lower frequency waves have less energy.
The particle motion in shear waves relative to the energy of the wave is downward.
Many things travel in waves: light, energy, water, and sound.
The energy of a wave moves forward with the wave. A wave is moving energy, and the wave carries it in the direction of propagation.