The cold speed in the wave is as a result of its frequency and wavelength.
Speed is not a wave.
The speed of propagation of an electromagnetic wave (like light, which is an electromagnetic wave) is nearly the speed of light. It will actually be the speed of light in a vacuum. But it does travel a little more slowly depending on the medium through which it is traveling. (Like air.) The frequency of the electromagnetic wave is not a determining factor in finding its speed, but will certainly be a factor in determining its absorption by the medium. A radio wave of 9.5109 Hz is a really low frequency wave, and generating and transmitting it would be a pretty piece of engineering.
... wave's speed of propagation.
Both the wavelength and the frequency of a wave affect the speed of a wave.
No, the amplitude of a wave does not affect the wavelength or wave speed. The wavelength is determined by the frequency of the wave, while the wave speed is determined by the medium through which the wave is traveling. Amplitude simply represents the maximum displacement of particles in the wave.
The wavelength of a wave is calculated using the formula: Wavelength = speed of the wave divided by the frequency of the wave. For radio waves and other wireless signals as well as the speed a signal travels along a wire, the speed of the wave is approximately 299,792,458 meters per second (the speed of light).
wave speed
wave speed= frequency/wavelenth
Wave speed wavelength times frequency.
I would call it "the speed of the wave".
If the depth of the water stays the same, the wave looks the same, to a first approximation. If the water gets deeper the wave height will decrease. If the water becomes shallower, the wave height increases. A second order effect is that friction effects will slowly reduce the wave height.
yes.....as he moves up and down the wave facem his speed varies from less then to more trhen the speed of the wave