A 60kg box sledge is travelling horizontally on ice at a speed of `10ms^(-1)`. A 90 kg packet is dropped on it vertically. The subsequent velocity of the sledge is

A body is projected horizontally from the top of a tall tower with a velocity of 30ms^(-1) . At time t_(1) , its horizontal and vertical components of the velocity are equal and at time t_(2) , its horizontal and vertical displacements are equal. Then t_(2)-t_(1) is (take, g=10ms^(-2) )

A bomb is dropped from an aircraft travelling horizontally at 150 ms^(-1) at a height of 490m. The horizontal distance travelled by the bomb before it hits the ground is

A body of mass 5 kg moving on a horizontal surface with a velocity of 10 ms^(-1) comes to rest in 2s. The force required to make this body move with a velocity of 10 ms^(-1) on the same surface is

A body of mass 5 kg moving on a horizontal surface with a velocity of 10 ms^(-1) comes to rest in 2s. The force required to make this body move with a velocity of 10 ms^(-1) on the same surface is

A body of mass 5 kg moving on a horizontal surface with a velocity of 10 ms^(-1) comes to rest in 2s. The force required to makes this body move with a velocity of 10 ms^(-1) on the same surface is

A body of mass 5 kg moving on a horizontal surface with a velocity of 10 ms^(-1) comes to rest in 2s. The force required to make this body move with a velocity of 10 ms^(-1) on the same surface is

A body is projected at an angle 30^(@) to the horizontal with a speed of 30 ms^(-1) . The angle made by the velocity vector with the horizontal after 1.5 s is " "(g=10ms^(2))