If the applied force and the displacement of body are inclined to each other at `90^@`, then the work done is

When the force applied and the displacement of the body are inclined at 90^(@) with each other, the work done is

Mathematically, work is defined as the product of froce and displacement through which force acts. If F is the applied force, 'S' is the displacement in the direction of applied force and W is the work done, then : Work done = Force xx Displacement through which force acts. W = F xx S The SI unit of work is Joule (J) and cgs unit is erg. 1 J = 10^(7) erg. 6000 J of work is done to move a rock 25 m. How much force was applied ?

Mathematically, work is defined as the product of froce and displacement through which force acts. If F is the applied force, 'S' is the displacement in the direction of applied force and W is the work done, then : Work done = Force xx Displacement through which force acts. W = F xx S The SI unit of work is Joule (J) and cgs unit is erg. 1 J = 10^(7) erg. How much work is done by a person who uses a force of 50 N to move a grocery buggy 10 m ?

Due to a force of (6hati+2hatj)N the displacement of a body is (3hati-hatj)m , then the work done is

Mathematically, work is defined as the product of froce and displacement through which force acts. If F is the applied force, 'S' is the displacement in the direction of applied force and W is the work done, then : Work done = Force xx Displacement through which force acts. W = F xx S The SI unit of work is Joule (J) and cgs unit is erg. 1 J = 10^(7) erg. You and your friends apply a combined force of 800 N to push a stone. The amount of work done is 3200 J. What distance did the stone move ?

If the applied torque is directly proportional to the angular displacement theta , then the work work done is rotating the body through an angle theta would be- (C is constant of proportionality )

A constant force F is applied to a body of mass m moving with initial velocity u. If after the body undergoes a displacement S its velocity becomes v, then the total work done is

Two forces each of magnitude 10 N act simultaneously on a body with their directions inclined to each other at an angle of 120^@ and displaces the body over 10 m along the bisector of the angle between the two forces. Then the work done by force is