There is no factual relation between these, but there is a common rule known as the Nyquist-Shannon theorem, that states that to reproduce a waveform with only reasonably errors, the sampling frequency must be at least twice the wave frequency.
The period is defined as: the time needed to complete one cycle.Frequency is the number of cycles per second .that's where the relation came from ...the mathematics representation of the relation is : frequency = 1/period orperiod = 1/frequency .hope u got it.
according to the wave theory of light,we have the relation that wavelength is inversely proportional to the frequency,therefore the electromagnetic wave with the lower wavelength will have higher frequency..
Wavelength.
Yes. There's no connection between frequency and amplitude.
A wave can have any frequency, not just one Hertz.
For any wave, frequency x wavelength = speed of the wave.
Frequency = 1 / period
the relation between frequency and time period is ''t=1/f''
wave length and frequency are the product of the wave speed, so the wave speed is a constant variable and the other two are inversely proportional the wave length increases, as the frequency decreases
Speed = (frequency) times (wavelength) Frequency = (speed) divided by (wavelength) Wavelength = (speed) divided by (frequency)
Frequency or wave length.The relation between frequency f and wave length lof a light waveis given by; f = c/l, where c is light's speed.
Frequency or wave length.The relation between frequency f and wave length lof a light waveis given by; f = c/l, where c is light's speed.
Use the relation: speed = frequency x wavelengthUse the relation: speed = frequency x wavelengthUse the relation: speed = frequency x wavelengthUse the relation: speed = frequency x wavelength
In the case of electromagnetic wave, the energy of a photon is directly proportional to the frequency. For other types of waves, the situation may be different.
Speed = frequency x wavelengthThis is true for all waves, sound waves as well as electromagnetic waves.
velocity of a wave equals wave frequency times wave length.
A sine wave is a periodic function and, by suitably adjusting the argument of the sine function, can be made to fit a wide functions with different frequencies.