One end of a horizontal string is attached to a small-amplitude mechanical 75.0 Hz oscillator. The string’s mass per unit length is 5.3 x 10-4 kg/m. the string passes over a pulley, a distance L = 1.75 m away, and weights are hung from this end. Assume the string at the oscillator is a node, which is nearly true, and that the string at the pulley is also a node. a. Sketch the shape of the string for the fundamental (lowest possible frequency) standing- wave mode of vibration of this string. In this case, how many wavelengths fit on the string? b. What mass m must be hung from the right end of the string so that the string tension is what is needed to produce the standing wave that you drew in part (a) at the given 75 Hz oscillation frequency? c. Sketch the shape of the string for the second harmonic (next possible frequency above the fundamental) mode of vibration of this string. In this case, how many wavelengths fit on the string? d. What mass m must be hung from the right end of the string to produce the standing wave that you drew in part (c)?

icon
Related questions
Question
One end of a horizontal string is attached to a small-amplitude mechanical 75.0 Hz oscillator. The string’s mass per unit length is 5.3 x 10-4 kg/m. the string passes over a pulley, a distance L = 1.75 m away, and weights are hung from this end. Assume the string at the oscillator is a node, which is nearly true, and that the string at the pulley is also a node. a. Sketch the shape of the string for the fundamental (lowest possible frequency) standing- wave mode of vibration of this string. In this case, how many wavelengths fit on the string? b. What mass m must be hung from the right end of the string so that the string tension is what is needed to produce the standing wave that you drew in part (a) at the given 75 Hz oscillation frequency? c. Sketch the shape of the string for the second harmonic (next possible frequency above the fundamental) mode of vibration of this string. In this case, how many wavelengths fit on the string? d. What mass m must be hung from the right end of the string to produce the standing wave that you drew in part (c)?
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 7 steps with 3 images

Blurred answer
Similar questions
  • SEE MORE QUESTIONS