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Part B It is observed that after 50 oscillations, the amplitude of the oscillation has dropped to one-half of its initial value. Estimate the value of Y, using æ(t) = A e¯t cos w't. ? %3D Submit Request Answer Part C How long does it take the amplitude to decrease to one-quarter of its initial value?

Part B It is observed that after 50 oscillations, the amplitude of the oscillation has dropped to one-half of its initial value. Estimate the value of Y, using æ(t) = A e¯t cos w't. ? %3D Submit Request Answer Part C How long does it take the amplitude to decrease to one-quarter of its initial value?

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Part B It is observed that after 50 oscillations, the amplitude of the oscillation has dropped to one-half of its initial value. Estimate the value of y, using x(t) = A e cos w't. ΑΣφ ? %3D Submit Request Answer Part C How long does it take the amplitude to decrease to one-quarter of its initial value? ΑΣφ ? t S
Transcribed Image Text:Part B It is observed that after 50 oscillations, the amplitude of the oscillation has dropped to one-half of its initial value. Estimate the value of y, using x(t) = A e cos w't. ΑΣφ ? %3D Submit Request Answer Part C How long does it take the amplitude to decrease to one-quarter of its initial value? ΑΣφ ? t S
A glider on an air track is connected by springs to either end of the track. Both springs have the same spring constant, k, and the glider has mass M. k k M Part A Determine the frequency of the oscillation, assuming no damping, if k = 130 N/m and M = 220 g . %3D ΑΣφ ? f Hz
Transcribed Image Text:A glider on an air track is connected by springs to either end of the track. Both springs have the same spring constant, k, and the glider has mass M. k k M Part A Determine the frequency of the oscillation, assuming no damping, if k = 130 N/m and M = 220 g . %3D ΑΣφ ? f Hz
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