MHT CET · Physics · Waves and Sound
The fundamental frequency of a sonometer wire carrying a block of mass ' \(M\) ' and density ' \(\rho\) ' is ' \(n\) ' Hz. When the block is completely immersed in a liquid of density ' \(\sigma\) ' then the new frequency will be
- A \(\mathrm{n}\left[\frac{\rho-\sigma}{\rho}\right]^{\frac{1}{2}}\)
- B \(\mathrm{n}\left[\frac{\rho-\sigma}{\sigma}\right]^{\frac{1}{2}}\)
- C \(\mathrm{n}\left[\frac{\rho}{\rho-\sigma}\right]^{\frac{1}{2}}\)
- D \(n\left[\frac{\sigma}{\rho-\sigma}\right]^{\frac{1}{2}}\)
Answer & Solution
Correct Answer
(A) \(\mathrm{n}\left[\frac{\rho-\sigma}{\rho}\right]^{\frac{1}{2}}\)
Step-by-step Solution
Detailed explanation
\(
\begin{aligned}
& \mathrm{n} \propto \sqrt{\mathrm{T}} \\
& \mathrm{T}=\mathrm{mg}=\rho \mathrm{Vg} \\
\therefore \quad \mathrm{T} & \propto \sqrt{\rho \mathrm{Vg}}
\end{aligned}
\)
After immersion in the liquid,
\(
\begin{array}{ll}
\therefore & \frac{\mathrm{n}_2}{\mathrm{n}} \propto \frac{\sqrt{\mathrm{V}(\rho-\sigma) \mathrm{g}}}{\sqrt{\mathrm{V} \rho \mathrm{g}}} \\
\therefore & \mathrm{n}_2=\mathrm{n}\left[\frac{\rho-\sigma}{\rho}\right]^{\frac{1}{2}}
\end{array}
\)
\begin{aligned}
& \mathrm{n} \propto \sqrt{\mathrm{T}} \\
& \mathrm{T}=\mathrm{mg}=\rho \mathrm{Vg} \\
\therefore \quad \mathrm{T} & \propto \sqrt{\rho \mathrm{Vg}}
\end{aligned}
\)
After immersion in the liquid,
\(
\begin{array}{ll}
\therefore & \frac{\mathrm{n}_2}{\mathrm{n}} \propto \frac{\sqrt{\mathrm{V}(\rho-\sigma) \mathrm{g}}}{\sqrt{\mathrm{V} \rho \mathrm{g}}} \\
\therefore & \mathrm{n}_2=\mathrm{n}\left[\frac{\rho-\sigma}{\rho}\right]^{\frac{1}{2}}
\end{array}
\)
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