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. ( Figure 1) Figure M 1 of 1 Determine the frequency of the oscillation, assuming no damping, if k = 115 N/m and M = 250 g. f= Submit Part B ΠΙΑΣΦ Request Answer ? Hz It is observed that after 55 oscillations, the amplitude of the oscillation has dropped to one-half of its initial value. Estimate the value of y, using (t) = Ae¯ et cosw't. P Pearson

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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. ( Figure 1) Figure k 000000 M < k www 1 of 1 > Constants | Periodic Table Determine the frequency of the oscillation, assuming no damping, if k = 115 N/m and M = 250 g. V— ΑΣΦ f = Submit Part B Request Answer ? Hz It is observed that after 55 oscillations, the amplitude of the oscillation has dropped to one-half of its initial value. Estimate the value of y, using ä(t) = A et cosw't. P Pearson

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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. ( Figure 1) Figure k -10000M k 1 of 1 Estimate the value of y, using (t) = A e Y = Submit Part C ΑΣΦ Request Answer -rt' cos w't. P Pearson ? 8-1 : How long does it take the amplitude to decrease to one-quarter of its initial value? Consta