It could be an increase or decrease in its kinetic energy, or simply a change in the direction of motion.
When using a force to move an object across a distance...it produces an acceleration. If you are looking for the force, you must first find the acceleration. a=F/M Once you have found the acceleration then you can find the force. F=ma ( force =mass x acceleration)
The force that keeps objects moving in a circle is known as the centripetal force, which acts towards the center. The velocity of the object moving in a circle will be tangential to the circle.
Energy can be transferred to material things by pushing or pulling AND moving it through a distance. The push or pull is a force, and the amount of energy is the magnitude of the force multiplied by the distance through which it acts. No matter how hard you push or pull, if your force doesn't move through any distance, then no energy is transferred to the thing you're pushing or pulling.
Static friction. The frictional force is greater then the force applied, meaning the object can't move.
The Centripetal force keeps a object moving in a circle and its force and acceleration are directed toward the center of the circle
Mechanical energy is transferred by a force to a moving object.
Mechanical energy is transferred by a force to a moving object.
Energy or "work" The formula is Energy transferred or work done is equal to the force needed times the distance moved Wd = F x d
Energy or "work" The formula is Energy transferred or work done is equal to the force needed times the distance moved Wd = F x d
Energy or "work" The formula is Energy transferred or work done is equal to the force needed times the distance moved Wd = F x d
The object is moved and energy is transferred.
Work = force x distance. If the object doesn't budge, no energy is transferred (no work is done). Some energy may be wasted, but no work is transferred.Work = force x distance. If the object doesn't budge, no energy is transferred (no work is done). Some energy may be wasted, but no work is transferred.Work = force x distance. If the object doesn't budge, no energy is transferred (no work is done). Some energy may be wasted, but no work is transferred.Work = force x distance. If the object doesn't budge, no energy is transferred (no work is done). Some energy may be wasted, but no work is transferred.
force and energy
Friction
Friction
Energy = Force x Distance travelled in direction of force. A lower force can output the same energy by working on the object over a longer distance.
Energy or "work" The formula is Energy transferred or work done is equal to the force needed times the distance moved Wd = F x d