When friction force stops an object from moving, it is because the opposing force of friction is greater than the force trying to move the object. The friction force acts in the opposite direction of the applied force, ultimately bringing the object to a stop. This occurs when the static friction force between the object and the surface it is on overcomes the force trying to make the object move.
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.
The force that makes an object stop moving is typically friction. When an object is in motion, the force of friction between the object and the surface it is moving on acts in the opposite direction of the object's motion, eventually bringing the object to a stop.
Without friction, moving objects will continue to move at a constant velocity in a straight line, as there would be no force to decelerate or stop them. These objects would essentially keep moving indefinitely unless acted upon by an external force.
Friction is a force that can cause an object to stop moving. When an object slides on a surface, the friction between the object and the surface will slow it down until it comes to a 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.
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.
The force that makes an object stop moving is typically friction. When an object is in motion, the force of friction between the object and the surface it is moving on acts in the opposite direction of the object's motion, eventually bringing the object to a stop.
Without friction, moving objects will continue to move at a constant velocity in a straight line, as there would be no force to decelerate or stop them. These objects would essentially keep moving indefinitely unless acted upon by an external force.
Friction is a force that can cause an object to stop moving. When an object slides on a surface, the friction between the object and the surface will slow it down until it comes to a stop.
due to the fact that another force is opposing its motion .In Earth it is friction
The frictional force needed to just stop something from moving is called limiting friction, and the object is said to be in limiting equilibrium.
A force is needed to start something moving and to stop it once it is moving. A force can make something speed up or slow down. Friction is a force generated when surfaces move across each other.
If there is no friction, a moving object would continue moving at a constant velocity in a straight line unless acted upon by an external force. Without friction to oppose its motion, the object would not come to a stop on its own.
If there was no friction acting on a moving object, the object would continue moving indefinitely without slowing down or stopping. It would move in a straight line at a constant velocity unless acted upon by an external force.
No, friction is a force that opposes motion, but it does not necessarily bring all moving objects to a stop. The magnitude of friction depends on the surface and the objects involved. In some cases, friction can slow down or stop a moving object, while in other cases, it may just reduce the speed of the object.
The force that stops an object from moving is typically friction. Friction occurs when two surfaces rub against each other, creating a force that opposes the motion of the object. This force eventually brings the object to a stop.
An example of a force that can stop an object's motion is friction. When two surfaces come into contact, they experience a frictional force that opposes the object's motion, eventually bringing it to a stop. This force is proportional to the normal force pushing the surfaces together and the coefficient of friction between them.