amplitude of a wave depends on the intensity and goes on decreasing from its mean position
No. Wave speed depends on frequency and wavelength, not amplitude.
This is just the definition of "amplitude". The amplitude of a wave is the height of the wave. "Amplitude" is a fancier name for "height" when we speak about waves.
No, the distance between a point on one wave and the identical point on the next wave is the wavelength, not the amplitude. Amplitude is the height of the wave.
the point of inflection will appear half the distance between the peak and trough of a sinsoidal wave.
Yes
Yes dude the energy of wave depends upon the amplitude The more the trough ( upper part of wave) moves away from the peroendicular distance the more it spends energy i.e. energy is inversely proportional to ampltitude
amplitude is: the distance between the top or bottom of a wave and the center of the wave.
That's the wave's Amplitude .
Wave amplitude is the displacement of the wave from equilibrium. Normally it's the distance on the graph from the crest/trough of the to y=0
The vertical distance between the peak and trough is 2*Amplitude.
wavelength is the distance from the peak of one wave to the peak of the next. In this diagram, the wavelength is measured from crest to crest, but the wavelength could be measured from trough to trough as well.A wave's amplitude is the maximum distance that a wave vibrates from its resting position. In a transverse wave, this means that the amplitude of the wave is the highest or lowest point. In a longitudinal wave, the amplitude is the maximum distance the wave travels back or forth. The more energy the wave has, the larger the amplitude will be.
The distance between the highest crest and the rest position is the amplitude of the wave