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In physics, work is done when a force is applied over a certain distance.
In physics, work is done by a force acting on an object if the object moves in the direction of the force.
In physics work is dome when a force acts on a body and the body moves in the direction of the force.
Physics definition of work: (force applied ) multiplied by (distance through which the force acts).
Work = force x distance. With a distance of zero, the work will also be zero.
In physics, work is done when a force is applied over a certain distance.
In physics, work is done by a force acting on an object if the object moves in the direction of the force.
In physics work is dome when a force acts on a body and the body moves in the direction of the force.
This statement can be applied to physics, so it could be considered a 'physics proverb'... Work equals force times distance, so no matter how much force is applied, if the object does not move, no work is done.
Physics definition of work: (force applied ) multiplied by (distance through which the force acts).
If you mean "work" in the way it is used in physics, the basic definition of work is force x distance. In other words, if you apply a force over a certain distance, work is done.
Work = force x distance. With a distance of zero, the work will also be zero.
physics - no physically - yes
Yes, the amount of work a "machine" (in the physics sense) can get done is an indicator of how much energy the body possess.
Power is the rate of work done or rate of energy generated or expended
Einstein's Relativity is at odds with quantum physics because they both work at different levels and under different conditions.
Answer: It depends upon your definition of "work". Assuming the lifter put the barbell back exactly where and how it was at first, then there was no work done in the physics context. If you mean manual labor, then yes, some work was done.