Consider a setup of a string where one is end attached to a vibrator of fixed frequency f while the other end of the string passes over a pulley and has a mass m hanging off of it. There is a distance L between the string’s points of contacts with the vibrator and the pulley, and you can consider these points of contact to be fixed. Given that the string forms a standing wave in the fourth harmonic along the length L , derive an equation for the linear mass density μ of the string in terms of the given parameters f, m, L, and any other known constants. I am not sure of how to set up this equation.
Consider a setup of a string where one is end attached to a vibrator of fixed frequency f while the other end of the string passes over a pulley and has a mass m hanging off of it. There is a distance L between the string’s points of contacts with the vibrator and the pulley, and you can consider these points of contact to be fixed. Given that the string forms a standing wave in the fourth harmonic along the length L , derive an equation for the linear mass density μ of the string in terms of the given parameters f, m, L, and any other known constants. I am not sure of how to set up this equation.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter16: Waves
Section: Chapter Questions
Problem 131AP: A wave on a string is driven by a string vibrator, which oscillates at a frequency of 100.00 Hz and...
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Consider a setup of a string where one is end attached to a vibrator of fixed frequency f while the other end of the string passes over a pulley and has a mass m hanging off of it. There is a distance L between the string’s points of contacts with the vibrator and the pulley, and you can consider these points of contact to be fixed. Given that the string forms a standing wave in the fourth harmonic along the length L , derive an equation for the linear mass density μ of the string in terms of the given parameters f, m, L, and any other known constants.
I am not sure of how to set up this equation.
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