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both, a longitudinal and transverse wave.
If you hold the ends of a slinky toy so that it is stretched out horizontally you can demonstrate excitations of both transverse and longitudinal waves. If you move one end of the slinky up and down in a periodic fashion you will see transverse waves. If you move one end of the slinky in and out along the horizontal direction that it is stretched out in, you will excite longitudinal waves.
A wave must be transverse or longitudinal or both.
Radio wave is not a longitudinal wave it is a transverse wave
A longitudinal wave is a "side-on" waveform. A transverse Wave is a "end-on" waveform.
both, a longitudinal and transverse wave.
A slinky can transfer both longitudinal and transverse waves.
If you hold the ends of a slinky toy so that it is stretched out horizontally you can demonstrate excitations of both transverse and longitudinal waves. If you move one end of the slinky up and down in a periodic fashion you will see transverse waves. If you move one end of the slinky in and out along the horizontal direction that it is stretched out in, you will excite longitudinal waves.
A wave must be transverse or longitudinal or both.
Earthquakes generate both transverse and longitudinal waves.
its a transverse wave
Radio wave is not a longitudinal wave it is a transverse wave
Light is transverse in nature.
Transverse :)
Its a transverse wave.
The vibration of the Longitudinal wave is parallel to the wave direction and the vibration is perpendicular to the direction in the transverse wave.
A longitudinal wave is a "side-on" waveform. A transverse Wave is a "end-on" waveform.