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It depends on the type of transverse wave. A transverse water wave travels through water. A transverse wave on a rope travels along the rope. A transverse electromagnetic wave, however, needs no medium. It can propagate through a vacuum.
It travels as a transverse wave. A longitudinal wave would mean the the rope is stretching and compressing. The fact that you see displacement perpendicular to the rope means it is transverse.
the answer is longitudinal wavethe above answer would be incorrect. The correct answer is transverse wave.
No, they are different types of wave. Transverse waves vibrate across the direction of motion, like the waves you get when you shake a rope. Longitudinal waves vibrate back and forth along the direction of motion like a sound wave.
Lay a long length of rope on the ground, straight out. Grab one end and jerk it upward and downward. A wave will pass down towards the other end of the rope, this is a transverse wave.
It depends on the type of transverse wave. A transverse water wave travels through water. A transverse wave on a rope travels along the rope. A transverse electromagnetic wave, however, needs no medium. It can propagate through a vacuum.
It travels as a transverse wave. A longitudinal wave would mean the the rope is stretching and compressing. The fact that you see displacement perpendicular to the rope means it is transverse.
the answer is longitudinal wavethe above answer would be incorrect. The correct answer is transverse wave.
No, rope wave is a transverse wave, because the direction of oscillation is perpendicular to the direction of movement of wave.
Lay a long length of rope on the ground, straight out. Grab one end and jerk it upward and downward. A wave will pass down towards the other end of the rope, this is a transverse wave.
No, they are different types of wave. Transverse waves vibrate across the direction of motion, like the waves you get when you shake a rope. Longitudinal waves vibrate back and forth along the direction of motion like a sound wave.
transverse wave
No, a sound wave is a compressional wave.
Lay a long length of rope on the ground, straight out. Grab one end and jerk it upward and downward. A wave will pass down towards the other end of the rope, this is a transverse wave.
Lay a long length of rope on the ground, straight out. Grab one end and jerk it upward and downward. A wave will pass down towards the other end of the rope, this is a transverse wave.
Light is an electromagnetic wave; and those are transverse. Sound is usually a longitudinal wave.
Light is an electromagnetic wave; and those are transverse. Sound is usually a longitudinal wave.