MHT CET · Physics · Rotational Motion
An uniform rod \(\mathrm{AB}\) of mass \(m\) and length \(l\) is at rest on a smooth horizontal surface. An impulse \(P\) applied to the end \(B\). The time taken by the rod to turn through a right angle is
- A \(\frac{\pi}{12} \frac{m \ell}{P}\)
- B \(2 \pi \frac{m \ell}{P}\)
- C \(2 \frac{\pi P}{m \ell}\)
- D \(\frac{\pi P}{m \ell}\)
Answer & Solution
Correct Answer
(A) \(\frac{\pi}{12} \frac{m \ell}{P}\)
Step-by-step Solution
Detailed explanation
Concept: \((\) angular impulse \()=(\) change in angular momentum \()\)
\(I=P \frac{l}{2}=I \omega\)
\(I=\) moment of inertia of the rod about \(\mathrm{O}\).
\(\begin{aligned}
& I=\left(\frac{m l^2}{12}\right) \\
& \therefore P \frac{l}{2}=\frac{m l^2}{12} \omega \\
& \Rightarrow \omega=\frac{6 p}{m l}
\end{aligned}\)
We know,
\(\omega=\frac{\Delta Q}{\Delta t} ; \text { For } \Delta \theta=\frac{\pi}{2}\)
\(\Delta t=\frac{\Delta \theta}{\omega}=\frac{\pi}{2} \cdot \frac{l m}{6 p}=\frac{\pi m l}{12 p}\)
\(I=P \frac{l}{2}=I \omega\)
\(I=\) moment of inertia of the rod about \(\mathrm{O}\).
\(\begin{aligned}
& I=\left(\frac{m l^2}{12}\right) \\
& \therefore P \frac{l}{2}=\frac{m l^2}{12} \omega \\
& \Rightarrow \omega=\frac{6 p}{m l}
\end{aligned}\)
We know,
\(\omega=\frac{\Delta Q}{\Delta t} ; \text { For } \Delta \theta=\frac{\pi}{2}\)
\(\Delta t=\frac{\Delta \theta}{\omega}=\frac{\pi}{2} \cdot \frac{l m}{6 p}=\frac{\pi m l}{12 p}\)
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