Moment of a force of magnitude 20 N acting along positive x-direction at point `(3m,0,0)` about the point `(0,2,0)` (in N-m) is

Moment of a force of magnitude 10 N acting along positive y-direction at point (2m,0,0) about the point (0,1m,0) in N-m is

A particle moves from a point (2m, 3m, 0) to (3 m, 2m, 0) under the action of force of magnitude 5N acting along the line y= x . The work done by the force on the particle during the displacement is

An electric dipole is fixed at the origin of coordinates. Its moment is directed in the positive x - direction. A positive charge is moved from the point (r,0) to the point (-r,0) by an external agent. In this process, the work done by the agent is

A particle is moving with constant speed v along x - axis in positive direction. Find the angular velocity of the particle about the point (0, b), when position of the particle is (a, 0).

A particle of mass 20 g experiences a gravitational force of 4.0 N along positive x - direction. Find the gravitational field at that point.

Two forces each of magnitude 5 N are applied in opposite directions at the ends of a uniform nod of length 0.5 m. Draw diagram of the arrangement and find the total moment of the two forces.

A uniform electric field of magnitude 325 Vm^-1 is directed in the negative y - direction in (fig. 3.12). Theb coordinates of point A are (-0.2 m , -0.3 m) and those of point B are (0.4 m, 0.5 m) . Calculate the potential difference V_B - V_A along the path shown in the figure. .

Same current i is flowing in the three infinitely long wires along positive x-,y- and z-directions. The magnetic filed at a point (0,0,-a) would be

A force of magnitude 6 acts along the vector (9, 6, -2) and passes through a point A(4, -1,-7) . Then moment of force about the point O(1, -3, 2) is

A force F of constant magnitude acts on a block of mass 'm' and t=0,initially along positive x-direction. The direction of force F starts rotating with a constant angular velocity omega in anticlockwise sense. Then the magnitude of velocity of the block as a function of time 't' is ( initial block was at rest )