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A standing-wave pattern is observed in a thin wire with a length of 3.00 m.
The equation of the wave is where x is in meters and t is in seconds.
y = (0.002 m) sin (πx) cos (100πt)
(a) How many loops does this pattern exhibit?
(b) What is the fundamental frequency of vibration of the wire?
(c) What If? If the original frequency is held constant and the tension in the wire is increased by a factor of 9, how many loops are present in the new pattern? |
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