A string of 1 m length clamped at both ends is plucked in the middle to generate a standing wave. Take the frequency of the first harmonic to be 10 Hz and the amplitude of the oscillations to be 2 cm. Consider the motion to be a simple harmonic one where appropriate. Calculate the value of maximum velocity of up and down motion of the string at midpoint. Provide your anwser in SI units.
A string of 1 m length clamped at both ends is plucked in the middle to generate a standing wave. Take the frequency of the first harmonic to be 10 Hz and the amplitude of the oscillations to be 2 cm. Consider the motion to be a simple harmonic one where appropriate. Calculate the value of maximum velocity of up and down motion of the string at midpoint. Provide your anwser in SI units.
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![A string of 1 m length clamped at
both ends is plucked in the middle to
generate a standing wave. Take the
frequency of the first harmonic to be
10 Hz and the amplitude of the
oscillations to be 2 cm. Consider the
motion to be a simple harmonic one
where appropriate. Calculate
the value of maximum velocity of up
and down motion of the string at
midpoint. Provide your anwser in SI
units.
Answer:
Choose... +](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbf7339ab-bdd1-42c4-9808-a42a252b37fc%2Fbd757777-68f0-4cf7-9b30-93fd488f34fa%2Fcs1v8f_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A string of 1 m length clamped at
both ends is plucked in the middle to
generate a standing wave. Take the
frequency of the first harmonic to be
10 Hz and the amplitude of the
oscillations to be 2 cm. Consider the
motion to be a simple harmonic one
where appropriate. Calculate
the value of maximum velocity of up
and down motion of the string at
midpoint. Provide your anwser in SI
units.
Answer:
Choose... +
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