If you are looking for a true/false answer, it's false.
In a transverse wave, the crest of the wave corresponds to the compression of a longitudinal wave, while the trough of the transverse wave corresponds to the rarefaction of a longitudinal wave. Both waves exhibit oscillation or vibration, but the direction in which the particles move is perpendicular to the direction of wave propagation in a transverse wave, while it is parallel in a longitudinal wave.
In a transverse wave, the crest corresponds to a compression in a longitudinal wave.
A crest in a transverse wave corresponds to a compression in a longitudinal wave. Both represent the highest points of displacement in their respective wave types.
In a transverse wave, the peak corresponds to a compression in a longitudinal wave. Both represent the regions of maximum energy transfer and particle displacement along their respective wave types.
Transverse wave has crests and troughs. But longitudinal has only compressions and rarefactions. Any way while drawing figures even for longitudinal as in the case of organ pipes we follow only crest and trough structures.
In a transverse wave, the crest of the wave corresponds to the compression of a longitudinal wave, while the trough of the transverse wave corresponds to the rarefaction of a longitudinal wave. Both waves exhibit oscillation or vibration, but the direction in which the particles move is perpendicular to the direction of wave propagation in a transverse wave, while it is parallel in a longitudinal wave.
In a transverse wave, the crest corresponds to a compression in a longitudinal wave.
A crest in a transverse wave corresponds to a compression in a longitudinal wave. Both represent the highest points of displacement in their respective wave types.
crest
compression
The crest of a transverse wave corresponds to the compression region in a longitudinal wave. Both represent the highest point of displacement or disturbance in their respective wave types.
In a transverse wave, the peak corresponds to a compression in a longitudinal wave. Both represent the regions of maximum energy transfer and particle displacement along their respective wave types.
Transverse wave has crests and troughs. But longitudinal has only compressions and rarefactions. Any way while drawing figures even for longitudinal as in the case of organ pipes we follow only crest and trough structures.
In a transverse wave, the trough represents the lowest point where the displacement of the wave is at its minimum value. This is because the trough corresponds to the region of the wave where the particles are at their lowest point of oscillation, moving in opposite direction to the direction of wave propagation.
Earthquakes generate both transverse and longitudinal waves.
its a transverse wave
The lowest point on a transverse wave is called the trough