Depends on the amount of energy in the wave.
Yes!
It is theirdistance moved back and forth
That can vary a lot, depending on the type and strength of the wave.
It is represented by the height of the wave.
It's by how compressed the medium gets.
the speed at which the energy travels increases.
Speed, direction, transverse or longitudinal, frequency and amplitude.
You measure the displacement in the waves high.
Longitudinal wave Which can be in turn interpreted as a transverse wave. It has frequency, amplitude, crests & through.
True
As amplitude increases, the particles in a longitudinal wave become denser.
Amplitude of a longitudinal wave is measured as a change in pressure.
It has a large amplitude if the compressions of the wave are dense.
Depends on the amount of energy in the wave.
the speed at which the energy travels increases.
Not necessarily. "Amplitude" gives you an idea about how "strong" a wave is; the concept applies both to longitudinal and to transverse waves.
the amplitude. It is the displacement at a peak.
Speed, direction, transverse or longitudinal, frequency and amplitude.
You measure the displacement in the waves high.
Amplitude is just themaximum displacementof a wave:
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.
Longitudinal wave Which can be in turn interpreted as a transverse wave. It has frequency, amplitude, crests & through.