A long string held by two men, one on each end. Man A oscillates the end that hold producing a wave described by a function y,(x, t) = A sin(kx-ut) and student B oscillates the string producing at twice the frequency, moving in the opposite direction. Both waves move at the same speed v= uk. The two waves interfere to form a resulting wave whose wave function is y (x, t) = y, (x, t) + y, (x, t). Find the velocity of the resulting wave using the linear wave equation dx² dr²
A long string held by two men, one on each end. Man A oscillates the end that hold producing a wave described by a function y,(x, t) = A sin(kx-ut) and student B oscillates the string producing at twice the frequency, moving in the opposite direction. Both waves move at the same speed v= uk. The two waves interfere to form a resulting wave whose wave function is y (x, t) = y, (x, t) + y, (x, t). Find the velocity of the resulting wave using the linear wave equation dx² dr²
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HW
A long string held by two men, one on each end. Man A oscillates the end that hold producing a
wave described by a function y(x, t) = A sin(kx-at) and student B oscillates the string
producing at twice the frequency, moving in the opposite direction. Both waves move at the
same speed v = wk. The two waves interfere to form a resulting wave whose wave function is
y (x, t) = y, (x, t) + y, (x, t). Find the velocity of the resulting wave using the linear wave
equation
1
v-²01²
dx²
100/2
Dr. AQEEL SALIM
11:00
O
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