7 A string with length L = 2 m, fixed at both ends, has two adjacent resonances atfrequencies 112 Hz and 140 Hz. What is the velocity of the standing waves on thestring?112 m/s.v=84 m/sV = 56 m/sv=168 m/sOv-140 m/s When a string of length L is clamped at both ends, the lowest three resonantfrequencies are 50, 100 and 150 Hz. When the string is clamped at its midpoint, thelowest three resonant frequencies are:200, 400 and 600 Hz25, 50 and 75 HzO None of the listed choices75, 150 and 225 Hz100, 200 and 300 Hz

A string with length L = 2 m, fixed at both ends, has two adjacent resonances at frequencies 112 Hz and 140 Hz. What is the velocity of the standing waves on the string? Ox-112 m/s v=84 m/s V = 56 m/s v=168 m/s Ov-140 m/s

A string with length L = 2 m, fixed at both ends, has two adjacent resonances at frequencies 112 Hz and 140 Hz. What is the velocity of the standing waves on the string? Ox-112 m/s v=84 m/s V = 56 m/s v=168 m/s Ov-140 m/s

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Question

A string with length L = 2 m, fixed at both ends, has two adjacent resonances at
frequencies 112 Hz and 140 Hz. What is the velocity of the standing waves on the
string?
112 m/s.
v=84 m/s
V = 56 m/s
v=168 m/s
Ov-140 m/s

When a string of length L is clamped at both ends, the lowest three resonant
frequencies are 50, 100 and 150 Hz. When the string is clamped at its midpoint, the
lowest three resonant frequencies are:
200, 400 and 600 Hz
25, 50 and 75 Hz
O None of the listed choices
75, 150 and 225 Hz
100, 200 and 300 Hz

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