No. Work depends on the force applied and the distance moved.
No. With a few simplifying assumptions, work is the PRODUCT of the distance moved, and the force.
Only if the object moves
The component of the force that is collinear with the direction in which the object moves.
If a force is applied, but nothing in the system moves, no work has been done. Work is only done when something moves.
If you apply force in the same direction an object moves, the work on the object is positive.If the force is in the opposite direction as the direction the object moves, the work on the object is negative.
true!
Only if the object moves
The component of the force that is collinear with the direction in which the object moves.
If a force is applied, but nothing in the system moves, no work has been done. Work is only done when something moves.
If you apply force in the same direction an object moves, the work on the object is positive.If the force is in the opposite direction as the direction the object moves, the work on the object is negative.
true!
You must have an energy which moves an object. If the object does not move - No work is done.
Work done when force moves an object.
The definition of Work done is Force x distance moved. It does not matter how fast or slow it moves. Only how far it moves. Only distance traveled.
If it moves linearly, then work.
Work is something that is done when a force moves an object over a distance.
You have only done as much external work on the box as the distance it moves: work = force x distance. If it does not budge no work is done on the object. You have done "internal" work on your muscles which converts to heat energy, but technically speaking, no external work is done on the object
Work is something that is done when a force moves an object over a distance.