Friction can stop an object in motion eventually. Friction causes drag on the object's motion energy and slows the object down by transferring the energy from one type to another. When the energy which acted on the object to put the object in motion is fully transferred, the object's motion will stop in the direction the motion and friction are applied. An example of this type of friction is the brake on a car. Friction can, however cause the object to change the direction of motion and simply stop affecting the object afterward. An example of this type of friction is the bumper rail of a pool table.
The object would not cease moving, as there is no friction to act like a brake.
They won't be able to stop.
The frictional force needed to just stop something from moving is called limiting friction, and the object is said to be in limiting equilibrium.
Because of friction, Friction is what causes moving objects to slow down and eventually stop. This is an important science idea we can use to describe the force that pushes back on a moving object and makes it slow down and stop.
No. It takes a force to put something in motion, and it takes force to stop it. To keep it moving requires zero force. If there is no opposing friction force, it will continue moving forever. If you can significantly reduce the friction, a small force can keep an object moving - just enough to counteract the force of friction.No. It takes a force to put something in motion, and it takes force to stop it. To keep it moving requires zero force. If there is no opposing friction force, it will continue moving forever. If you can significantly reduce the friction, a small force can keep an object moving - just enough to counteract the force of friction.No. It takes a force to put something in motion, and it takes force to stop it. To keep it moving requires zero force. If there is no opposing friction force, it will continue moving forever. If you can significantly reduce the friction, a small force can keep an object moving - just enough to counteract the force of friction.No. It takes a force to put something in motion, and it takes force to stop it. To keep it moving requires zero force. If there is no opposing friction force, it will continue moving forever. If you can significantly reduce the friction, a small force can keep an object moving - just enough to counteract the force of friction.
friction acting on a such a body is called kinetic friction.here friction will try every thing that it can to stop the body.
The object would not cease moving, as there is no friction to act like a brake.
Friction stops the ball from moving infinitely. It also stops the clubs and people from moving infinitely. Without friction, all of these things would just keep sliding and sliding and sliding.
yes
Friction and air resistance.
yes
Friction and air resistance.
As there is no friction on the road,thus the road will not have friction that stop the car from moving.
Friction, but that is one of the reasons why it causes a moving ball to stop. Friction comes from the grass and sometimes the dirt/soil.
They won't be able to stop.
The frictional force needed to just stop something from moving is called limiting friction, and the object is said to be in limiting equilibrium.
friction slows objects down but because of that it eventually brings them to a stop