A body of mass M kg is on the .top point...

A body of mass M kg is on the .top point of a smooth hemisphere of radius 5 m. It is released to slide down the surface of the hemisphere. It leaves the surface when velocity is `5 ms^-1`, At this instant the angle made by the radius vector of the body with the vertical is (acceleration due to gravity =`10 ms^-2`)

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A body of mass m is on the top point of a smooth hemisphere of radius 5 m. It is released to slide down the surface of the hemisphere. It leaves the surface when its velocity is 5 m//s . At this instant the angle made by the radius, vector of the body with the vertical is

A body of mass Mkg is on the top point of a smooth hemisphere of radius 5m . It is released to slide down the surface of hemisphere it leaves the surface when its velocity is 5 ms^(−1) At this instant the angle made by the radius vector of the body with the vertical is ( Take g=10 m//s^(2) )

A small body of mass m slides without friction from the top of a hemisphere of radius r. At what hight will the body be detached from the surface of hemisphere?

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A small body of mass m slides without friction from the top of a hemisphere of radius r. At what hight will the body be detached from the centre of hemisphere?

A body rest on the top of a hemisphere of radius R. What will be the least horizontal velocity imparted to it , if it has to leave the hemisphere without sliding down?

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