A body of mass `5//6kg` kept at rest in horizontal plane is acted upon by a variable force given by `F=5e^(-1)` newton in the same horizontal plane. Find the terminal velocity attained by the body.

A box of mass m=2 kg resting on a frictionless horizontal ground is acted upon by a horizontal force F, which varies as shown. Find speed of the particle when force ceases to act.

A box of mass m=2 kg resting on a frictionless horizontal ground is acted upon by a horizontal force F, which varies as shown. Find speed of the particle when force ceases to act.

At the moment t=0 force F=kt is applied to a small body of mass m resting on a smooth horizontal plane (k is a constant) The direction of this force always forms an angle theta with the horizontal as shown. Find the time t at which moment, the body breaks off the plane:

A wedge of mass M resting on a horizontal frictionless surface is acted upon by a force F in the horizontal direction as shown in figure. Find the net horizontal force acting on the shaded portion of the wedge.

A wedge of mass M resting on a horizontal frictionless surface is acted upon by a force F in the horizontal direction as shown in figure. Find the net horizontal force acting on the shaded portion of the wedge.

A wedge of mass M resting on a horizontal frictionless surface is acted upon by a force F in the horizontal direction as shown in figure. Find the net horizontal force acting on the shaded portion of the wedge.

At the moment t=0 the force F=at is applied to a small body of mass m resting on a smooth horizontal plane (a is constant). The permanent direction of this force forms an angle alpha with the horizontal (figure). Find: (a) the velocity of the body at the moment of its breaking off the plane, (b) the distance traversed by the body up to this moment.

Two bodies of masses 4 kg and 16 kg at rest to acted upon by same force. The ratio of times required to attain the same speed is,