The escape velocity for a planet is `v_e`. A particle starts from rest at a large distance from the planet, reaches the planet only under gravitational attraction, and passes through a smooth tunnel through its centre. Its speed at the centre of the planet will beA. `sqrt(1.5)v_(e)`B. `(v_(e))/(sqrt(2))`C. `v_(e)`D. zero

The escape velocity for a planet is `v_e`. A particle starts from rest

1.	The escape velocity for a planet is `v_e`. A particle starts from rest at a large distance from the planet, reaches the planet only under gravitational attraction, and passes through a smooth tunnel through its centre. Its speed at the centre of the planet will beA. `sqrt(1.5)v_(e)`B. `(v_(e))/(sqrt(2))`C. `v_(e)`D. zero
Answer» Correct Answer - A From mechanical energy conservation `0+0=(1)/(2)mv^(2)-(3GMm)/(2R)impliesv=sqrt((3GM)/(R))=sqrt(1.5)v_(e)`

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