MHT CET · Physics · Oscillations
A particle executing S.H.M. has velocities ' \(\mathrm{V}_1\) ' and ' \(\mathrm{V}_2\) ' at distances ' \(x_1\) ' and ' \(x_2\) ' respectively, from the mean position. Its frequency is
- A \(\frac{1}{2 \pi} \sqrt{\frac{V_1^2-V_2^2}{x_1^2-x_2^2}}\)
- B \(2 \pi \sqrt{\frac{x_1^2-x_2^2}{V_1^2-V_2^2}}\)
- C \(\frac{1}{2 \pi} \sqrt{\frac{V_2^2-V_1^2}{x_1^2-x_2^2}}\)
- D \(2 \pi \sqrt{\frac{x_1^2-x_2^2}{V_2^2-V_1^2}}\)
Answer & Solution
Correct Answer
(C) \(\frac{1}{2 \pi} \sqrt{\frac{V_2^2-V_1^2}{x_1^2-x_2^2}}\)
Step-by-step Solution
Detailed explanation
Particle velocities are
\(\begin{aligned}
& V_1^2=\omega^2\left(A^2-x_1^2\right) ...(i)\\
& V_2^2=\omega^2\left(A^2-x_2^2\right)...(ii)
\end{aligned}\)
Subtracting (i) from (ii),
\(\begin{aligned}
& V_2^2-V_1^2=\omega^2\left(x_1^2-x_2^2\right) \\
& \omega=\sqrt{\frac{V_2^2-V_1^2}{x_1^2-x_2^2}}
\end{aligned}\)
As \(\omega=2 \pi f\) we get,
\(\mathrm{f}=\frac{1}{2 \pi} \sqrt{\frac{\mathrm{~V}_2^2-\mathrm{V}_1^2}{\mathrm{x}_1^2-\mathrm{x}_2^2}}\)
\(\begin{aligned}
& V_1^2=\omega^2\left(A^2-x_1^2\right) ...(i)\\
& V_2^2=\omega^2\left(A^2-x_2^2\right)...(ii)
\end{aligned}\)
Subtracting (i) from (ii),
\(\begin{aligned}
& V_2^2-V_1^2=\omega^2\left(x_1^2-x_2^2\right) \\
& \omega=\sqrt{\frac{V_2^2-V_1^2}{x_1^2-x_2^2}}
\end{aligned}\)
As \(\omega=2 \pi f\) we get,
\(\mathrm{f}=\frac{1}{2 \pi} \sqrt{\frac{\mathrm{~V}_2^2-\mathrm{V}_1^2}{\mathrm{x}_1^2-\mathrm{x}_2^2}}\)
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