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Amplitude of damped oscillations reduces twice during one second. Find the time of its five-fold decrease.
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37 votes
Amplitude of damped oscillations reduces twice during one second. Find the time of its five-fold decrease.

User Jorrick Sleijster
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1 Answer

13 votes
13 votes

Use the exponential decrease formula.


A=A_0e^(-kt)

First, find the constant k. The final amplitude would be half, and t = 1.


\begin{gathered} (A)/(2)=A\cdot e^(-k\cdot1) \\ (1)/(2)=e^(-k) \\ \ln ((1)/(2))=-k \\ k=-\ln ((1)/(2))\approx0.693 \end{gathered}

Then, we find the time of its five-fold decrease, which means the final amplitude is a fifth part of the initial amplitude.


\begin{gathered} (A)/(5)=A\cdot e^(-0.693\cdot t) \\ (1)/(5)=e^(-0.693\cdot t) \\ \ln ((1)/(5))=-0.693t \\ t=(\ln ((1)/(5)))/(-0.693) \\ t\approx2.32\sec \end{gathered}

Therefore, the time of its five-fold decrease is 2.32 seconds.

User Patrick Bell
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