the velocity of stationary wave is
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In the other hand, the energy transmitting along a standing wave is zero if we treat the standing wave as two traveling waves at opposite directions! Then it applies that the velocity of standing wave is zero. Who can give me the right energies of the standing waves in a clamped stretching string (the length is L)......♡
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Answer:
hey mate,,, here is your answer...
Explanation:
We know the formula,
"wave velocity=frequency×wavelength" and the wave velocity for a standing wave is not zero. But, as the wave is "standing", so the wave velocity should be 0. Then it applies that the velocity of standing wave is zero.
hope it helps you!!!
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