The speed of a wave doesn't depend on its frequency.
Divided the wave's speed by its wavelength.
The frequency is 1000000000 Hz.
2m*0.3Hz=0.6m/s
4 Hz
Just multiply the wavelength and the frequency. The answer, in this case, will be in meters/second.
The universal wave equation states that v = fλ, therefore wavelength is directly related to the speed of the wave. That means that if the frequency is increased, the speed is also increased and vice versa, as long as frequency is kept constant.
Assuming a constant wavelength, then increasing the wave speed will increase the frequency.
The wavelength changes inversely with the frequency.
Frequency and speed of propagation of the wave are independent of one another. The medium determines the speed of propagation.
It causes the wavelength to shorten
Higher frequency increases the energy. Lower frequency decreases the energy.
The speed of a wave depends only on the mechanical or electrical characteristics of the medium or environment through which the wave propagates. It doesn't depend on the wave's frequency or wavelength.
Assuming the sine wave's angular frequency is what's changing, the motor will speed up and slow down in proportion to that frequency.
No.
Both the wavelength and the frequency of a wave affect the speed of a wave.
Wavelength = wave speed/frequency Frequency = wave speed/wavelength (Wavelength) x (Frequency) = Wave speed
The product of (frequency) x (wavelength) is always the same number ... the wave speed. So if either one increases, the other one must decrease by the same factor, in order to keep the product constant.