In order for work to be done on an object, the object must move some distance as a result of your force.
Work is technically force times distance.
Work is done when a force is applied to an object and the object moves with some movement being in the direction of the force.
The quantity of work done is the "dot" product of the force vector and displacement vector.
Move, with at least some component of the motion in the direction of the force.
Accellerate a mass during a time.
force and distance thats all i know
Physical energy
Yes.
true
work- is when you perform something on an object force- is how much presure is being done on an object distance- is how far you are going work= forcexdistance
certainly. The force vector can be resolved into one component parallel to the motion of the object under force and another component perpendicular to the motion. The parallel component does the work; the perpendicular component does no work
Work is the product of force and the distance through which the force continues before it quits.It really doesn't directly involve any characteristics of the object upon which the force acts.
true
Yes.
true
In Physics it is a Machine that has the capability to Perform WORK on an Object.
true
work- is when you perform something on an object force- is how much presure is being done on an object distance- is how far you are going work= forcexdistance
You need to push up only after "Get Set" and right before "go!" You cannot accelerate before that or it won't work.
It exerts magnetic energy to push or pull an object
It is what will need to perform work! The cell in our body need nutrient and energy to perform wook
The time a wireless mouse can perform and work properly before the batteries need to be changed varies between usag, brand of mouse and quality of batteries. The time can vary from just a couple months to years.
Generally yes, but it really depends on the specific situation. -- If the work is done to lift the object, then the object's potential energy is increased. -- If the work is done to accelerate the object, then the object's kinetic energy is increased. -- If the work is done to move the object against friction, then the energy supplied is dissipated, and the object's energy may or may not change, depending on whether or not it is somewhat heated by the dissipation.
Generally yes, but it really depends on the specific situation. -- If the work is done to lift the object, then the object's potential energy is increased. -- If the work is done to accelerate the object, then the object's kinetic energy is increased. -- If the work is done to move the object against friction, then the energy supplied is dissipated, and the object's energy may or may not change, depending on whether or not it is somewhat heated by the dissipation.