There are four force acting at a point `p` produced by strings as shown in figure, which is at rest. The force `F_(1)` and `F_(2)` are .

The moment of the force F acting at a point P, about the point C is

Four forces are acting on a body as shown in figure. The magnitude of resultant of the forces is

Two forces F_(1) " and " F_(2) are acting on a rod abc as shown in figure.

A force F acts on a particle kept on a rough surface as shown in the figure. The particle is at rest. Find the net force applied by ground on the particle.

The force F acting on a particle is moving in a straight line as shown in figure. What is the work done by the force on the particle in the 4 m of the trajectory?

A force F is acted on a body as shown in the figure. Find the impulse of the force in first four seconds.

Two forces, each equal to F, act as shown in (figure) Their resultant is

If four forces act at a point 'O' as shown in the figure and if O is in equilibrium then the value of 'theta' & 'P' are

The force exerted by the ideal string on the ideal pulley P shown in the figure is

Initially both blocks are at rest on a horizontal surface and string is just tight. At t=0, two constant horizontal force F_(1) and F_(2) start acting on blocks as shown. f_(1) and f_(2) are frication foces acting on 10 kg and 20 kg block (co-efficient of frication between and ground are 0.5 ). Values of F_(1) and F_(2) are given column-I. Then match magnitudes of f_(1), f_(2) and direction of overset(vec)(f_(1)) with corresponding values of F_(1) and F_(2) given in column-I [g = 10 m//s^(2)] .