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प्रश्न
Show that the maximum volume of the cylinder which can be inscribed in a sphere of radius \[5\sqrt{3 cm} \text { is }500 \pi {cm}^3 .\]
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उत्तर
\[\text { Let the height, radius of base and volume of a cylinder be h, r and V, respectively . Then }, \]
\[\frac{h^2}{4} + r^2 = R^2 \]
\[ \Rightarrow h^2 = 4\left( R^2 - r^2 \right)\]
\[ \Rightarrow r^2 = R^2 - \frac{h^2}{4} ........... \left( 1 \right)\]
\[\text { Now }, \]
\[V = \pi r^2 h\]
\[ \Rightarrow V = \pi\left( h R^2 - \frac{h^3}{4} \right) ....................\left[\text { From eq. } \left( 1 \right) \right]\]
\[ \Rightarrow \frac{dV}{dh} = \pi\left( R^2 - \frac{3 h^2}{4} \right)\]
\[\text { For maximum or minimum values of V, we must have }\]
\[\frac{dV}{dh} = 0\]
\[ \Rightarrow \pi\left( R^2 - \frac{3 h^2}{4} \right) = 0\]
\[ \Rightarrow R^2 - \frac{3 h^2}{4} = 0\]
\[ \Rightarrow R^2 = \frac{3 h^2}{4}\]
\[ \Rightarrow h = \frac{2R}{\sqrt{3}}\]
\[\frac{d^2 V}{d h^2} = \frac{- 3\pi h}{2}\]
\[\frac{d^2 V}{d h^2} = \frac{- 3\pi}{2} \times \frac{2R}{\sqrt{3}}\]
\[ \Rightarrow \frac{d^2 V}{d h^2} = \frac{- 3\pi R}{\sqrt{3}} < 0\]
\[\text { So, the volume is maximum when h } = \frac{2R}{\sqrt{3}} . \]
\[\text { Maximum volume } = \pi h\left( R^2 - \frac{h^2}{4} \right)\]
\[ = \pi \times \frac{2R}{\sqrt{3}}\left( R^2 - \frac{4 R^2}{12} \right)\]
\[ = \frac{2\pi R}{\sqrt{3}}\frac{8 R^2}{12}\]
\[ = \frac{4\pi R^3}{3\sqrt{3}}\]
\[ = \frac{4\pi \left( 5\sqrt{3} \right)^3}{3\sqrt{3}}\]
\[ = 500\pi {cm}^3\]
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