Question:
Consider a rotating spherical planet. The velocity of a point on its equator is $v$. The effect of rotation of the planet is to make $g$ at the equator $1/2$ of $g$ at the pole. What is the escape velocity for a polar particle on the planet expressed as a multiple of $v$?
Consider a rotating spherical planet. The velocity of a point on its equator is $v$. The effect of rotation of the planet is to make $g$ at the equator $1/2$ of $g$ at the pole. What is the escape velocity for a polar particle on the planet expressed as a multiple of $v$?
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Escape velocity depends on the gravitational acceleration at the surface of the planet.
Updated On: Mar 30, 2025
- 0.5v
- v
- $\sqrt{2}v$
- 2v
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The Correct Option is D
Solution and Explanation
The escape velocity $v_e$ is given by: \[ v_e = \sqrt{2 g R} \] where $g$ is the gravitational acceleration and $R$ is the radius. The velocity at the equator is $v$, so the escape velocity is $2v$.
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