MHT CET · Physics · Mechanical Properties of Fluids
A metal sphere of radius \(R\), density \(\rho_1\) moves with terminal velocity \(V_1\) through a liquid of density \(\sigma\). Another sphere of same radius but density \(\rho_2\) - moves through same liquid. Its terminal velocity is \(\mathrm{V}_2\). The ratio \(\mathrm{V}_1: \mathrm{V}_2\) is
- A \(\left(\rho_2+\sigma\right):\left(\rho_1-\sigma\right)\)
- B \(\left(\rho_1+\sigma\right):\left(\rho_2-\sigma\right)\)
- C \(\left(\rho_2-\sigma\right):\left(\rho_1-\sigma\right)\)
- D \(\left(\rho_1-\sigma\right):\left(\rho_2-\sigma\right)\)
Answer & Solution
Correct Answer
(D) \(\left(\rho_1-\sigma\right):\left(\rho_2-\sigma\right)\)
Step-by-step Solution
Detailed explanation
Terminal velocity, \(\mathrm{v}_1=\frac{2}{9} \frac{\left(\rho_1-\sigma\right) \mathrm{R}^2 \mathrm{~g}}{\eta}\)
Similarly,
\(\begin{aligned}
& v_2=\frac{2}{9} \frac{\left(\rho_2-\sigma\right) R^2 g}{\eta} \\
\therefore \quad & \frac{v_1}{v_2}=\frac{\left(\rho_1-\sigma\right)}{\left(\rho_2-\sigma\right)}
\end{aligned}\)
Similarly,
\(\begin{aligned}
& v_2=\frac{2}{9} \frac{\left(\rho_2-\sigma\right) R^2 g}{\eta} \\
\therefore \quad & \frac{v_1}{v_2}=\frac{\left(\rho_1-\sigma\right)}{\left(\rho_2-\sigma\right)}
\end{aligned}\)
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