The energy of the wave also increase.
the frequency of the wave increases.
frequency increases
velocity increases
With a water wave, an increase in the length of the wavelength will result in a decrease in the frequency of the wave. We could say that there is an inverse relationship between the frequency and the wavelength. As one increases, the other decreases, and as one decreases, the other increases.
If the period increases, the frequency decreases.The product of (frequency) times (period) is always ' 1 '.
the frequency of the wave increases.
the frequency of the wave increases.
frequency increases
velocity increases
As frequency increases the energy of a wave also increases.
With a water wave, an increase in the length of the wavelength will result in a decrease in the frequency of the wave. We could say that there is an inverse relationship between the frequency and the wavelength. As one increases, the other decreases, and as one decreases, the other increases.
If the period increases, the frequency decreases.The product of (frequency) times (period) is always ' 1 '.
energy
As wavelength increases the frequency decreases.
it is directly proportional to frequency so if frequency increases wavelength also increases
Frequency is inversely proportional to the wave length, thus saying the shorter the wave length the higher the frequency and vice versa.The frequency is the number of waves within a time period. As the frequency within that time period increases, the number of waves increases, therefore the width of each wave (wavelength) within that time period has to decrease. Therefore:As the wave length increases, the frequency decreasesAs the wave length decreases, the frequency increases
frequency of wave is inversely proportional to wavelength