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Friction provides a retarding force. It always acts in the exact opposite direction of the motion of the object.
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.
Work is done when an object moves in the direction in which a force is applied to it. So the factors are the magnitude and direction of the applied force and the factors which affect the object's motion. The latter will include the mass of the object and friction (including drag).
Friction is a force that is created when an object or surface moves over another object or surface making the object to resist the direction of motion ( accelerate in the opposite direction).
No, friction is a force which always acts in the direction opposite to that of motion.
Friction provides a force, and therefore an acceleration, in the opposite direction of motion.
Friction will always act in the direction opposite of the relativistic motion of two objects. If object A is moving to the right on object B, then object A will experience the friction to the left. However, object B will be moving to the left on object A and will therefore experience the friction acting towards the right.
Friction force works against the motion of the object. In other words friction force has the opponent direction of the velocity of the object.
Friction acts in the opposite direction of the object's motion
Friction always acts in the opposite direction to that of the motion of the other object. Meaning, friction slows down the motion of an object by exerting opposing forces on it.
Friction provides a retarding force. It always acts in the exact opposite direction of the motion of the object.
Friction provides a retarding force. It always acts in the exact opposite direction of the motion of the object.
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.
Friction always acts in the opposite direction, of the other object's motion.
Friction acts in the direction opposite to that of the net force acting on the object.
it affects motion by friction a friction pull it down or up
Work is done when an object moves in the direction in which a force is applied to it. So the factors are the magnitude and direction of the applied force and the factors which affect the object's motion. The latter will include the mass of the object and friction (including drag).