Christine Karera hangs a spring and it oscillates at a frequency of 60 cycles in a minute when an object is attached to it. A. Calculate the mass of the object if the spring constant is 250 N/m. Show your formula transformation. B. Solve for the frequency of a vibrating pendulum if it has a length of 2 m. What will be its period? If you disregard the length provided (2m), what will be the length of the pendulum if period (T) is given with a value of 3 seconds? Show your formula transformation.
Christine Karera hangs a spring and it oscillates at a frequency of 60 cycles in a minute when an object is attached to it. A. Calculate the mass of the object if the spring constant is 250 N/m. Show your formula transformation. B. Solve for the frequency of a vibrating pendulum if it has a length of 2 m. What will be its period? If you disregard the length provided (2m), what will be the length of the pendulum if period (T) is given with a value of 3 seconds? Show your formula transformation.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter15: Oscillations
Section: Chapter Questions
Problem 27P: Each piston of an engine makes a sharp sound every other revolution of the engine. (a) How fast is a...
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Christine Karera hangs a spring and it oscillates at a frequency of 60 cycles in a minute when an object is attached to it.
A. Calculate the mass of the object if the spring constant is 250 N/m. Show your formula transformation.
B. Solve for the frequency of a vibrating pendulum if it has a length of 2 m. What will be its period? If you disregard the length provided (2m), what will be the length of the pendulum if period (T) is given with a value of 3 seconds? Show your formula transformation.
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