Simple Harmonic Motion 1 Question 2

2. A particle undergoing simple harmonic motion has time dependent displacement given by $x(t)=A \sin \frac{\pi t}{90}$. The ratio of kinetic to potential energy of this particle at $t=210 s$ will be

(2019 Main, 11 Jan I)

(a) 2

(b) 1

(c) $\frac{1}{9}$

(d) 3

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Answer:

Correct Answer: 2. (*)

Solution:

  1. Here given, displacement, $x(t)=A \sin \frac{\pi t}{90}$

where $A$ is amplitude of S.H.M., $t$ is time taken by particle to reach a point where its potential energy $U=\frac{1}{2} k x^{2}$ and kinetic energy $=\frac{1}{2} k\left(A^{2}-x^{2}\right)$ here $k$ is force constant and $x$ is position of the particle.

Potential energy $(U)$ at $t=210 s$ is

$$ \begin{aligned} U & =\frac{1}{2} k x^{2}=\frac{1}{2} k A^{2} \sin ^{2} \frac{210}{90} \pi \\ & =\frac{1}{2} k A^{2} \sin ^{2} 2 \pi+\frac{3}{9} \pi=\frac{1}{2} k A^{2} \sin ^{2} \frac{\pi}{3} \end{aligned} $$

Kinetic energy at $t=210 s$, is

$$ \begin{aligned} K & =\frac{1}{2} k\left(A^{2}-x^{2}\right) \\ & =\frac{1}{2} k A^{2} 1-\sin ^{2} \frac{210 \pi}{90} \\ & =\frac{1}{2} k A^{2} \cos ^{2}(210 \pi / 90) \end{aligned} $$

$\Rightarrow \quad K=\frac{1}{2} k A^{2} \cos ^{2}(\pi / 3)$

So, ratio of kinetic energy to potential energy is

$$ \frac{K}{U}=\frac{\frac{1}{2} k A^{2} \cos ^{2}(\pi / 3)}{\frac{1}{2} k A^{2} \sin ^{2}(\pi / 3)}=\cot ^{2}(\pi / 3)=\frac{1}{3} $$

$\therefore$ No option given is correct.



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