Work=Force x displacement. If an object doesn't move, it is not displaced, making d=0 which means that no work is done
Zero work done.
Work done = fdsin@
@=90* here and sin 90* = 0
Work=force*distance. If distance is 0, it doesn't matter how much force is exerted, the work done will still measure 0.
work is not a measure of sweat or difficulty : )
Yes, there is us. Static Friction.
You apply a force to an object. The object must move in the same way as the applied force
The object will not move!!!
When a force is applied to an object, it accelerates. for example, if you push an object, the object accelerates away from you and, eventually, will move away from you..
There is no fundamental relationship between the distance an object moves and the force applied to it. Once an object is moving, no force is required to keep it moving, and the distance it can move without applied force is unlimited.
The object will not move!!!
When a force makes an object move, work is done.
it moves ----------> there for if you were to push the object it will go <--------
Yes, there is us. Static Friction.
You apply a force to an object. The object must move in the same way as the applied force
The object will not move!!!
When a force is applied to an object, it accelerates. for example, if you push an object, the object accelerates away from you and, eventually, will move away from you..
There is no fundamental relationship between the distance an object moves and the force applied to it. Once an object is moving, no force is required to keep it moving, and the distance it can move without applied force is unlimited.
A stationary object will not move unless a force is applied to it.
Insufficient force was applied.
The force applied by a machine to overcome resistance due to gravity or friction is known as the applied force. Applied force is the amount of force needed to move an object against a resisting force, such as the force of gravity or friction. This force is usually measured in Newtons (N). When an object is stationary, the applied force is equal to the resisting force. When an object is moving, the applied force must be greater than the resisting force in order to maintain the object's motion. If the applied force is too small, the object will slow down and eventually stop. If the applied force is too great, the object may accelerate or move too quickly.In order to determine the applied force, the resisting force must first be calculated. This can be done by multiplying the mass of the object by the acceleration due to gravity. The resisting force due to friction can be calculated by multiplying the normal force of the object by the coefficient of friction between the object and the surface it is in contact with.
That will happen if the force applied is less than the limiting value of the friction between the object and the surface that it is in contact with.