In a sinusoidal wave amplitude is the height of the crest and frequency is the no. of oscillations per second.Hence,amplitude remains same for any change in frequency.
-No relation.
The speed of the wave is connected in a simple way with the wave's frequency and wavelength.
There is no connection between its speed and amplitude.
but if you were to look at a sound wave plotted on a displacement - time graph; you find that since velocity (speed) is the gradient of this graph. if you double the amplitude, you make the curve twice as steep and so the gradient is twice as large. in other words the velocity would be doubled too.. notice that this would be four times the kinetic energy for this sound wave particle
"Amplitude" refers to the height of the wave, how big it is. "Frequency" is the other component of waves, and that refers to how many waves in a given time.
amplitude is equal to one half of the wave height the greater the energy of the wave the greater its amplitude
Destructive interference lowers the amplitude, the lowest amplitude will be the difference between the two waves.
All waves have amplitude.
The top of a wave, because its cut in half and the waves amplitude is on top...
I=a2
These two are unrelated.
Destructive interference lowers the amplitude, the lowest amplitude will be the difference between the two waves.
All waves have amplitude.
the number of waves that passes a given point in one second is called frequency pitch is related to loudness or amplitude of sound
The top of a wave, because its cut in half and the waves amplitude is on top...
I=a2
These two are unrelated.
Distance between the peakes and troughs in a waves oscillations.
the wave amplitude increases
Not at all. There's no direct relationship or connection between frequency and amplitude.
Because there is a relationship between the amplitude of a sound wave and loudness of a sound.
frequeny
amplitude is equal to one half of the wave height the greater the energy of the wave the greater its amplitude