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Friction always acts in a direction opposing the motion of an object.
Friction provides a retarding force. It always acts in the exact opposite direction of the motion of the object.
No, friction is a force which always acts in the direction opposite to that of motion.
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A force applied to a moving object in the opposite direction of its motion causes its velocity to decrease.
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 always acts in the opposite direction, of the other object's motion.
Friction always acts in a direction opposing the motion of an object.
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 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.
The "force" of friction is always exactly opposite the direction of 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.
No, friction is a force which always acts in the direction opposite to that of motion.
An example of such a force is friction, but a term for forces that act against motion are decelerative forces.Newton's Third Law states that for every action, there is an equal and opposite reaction. However, these can be in any direction and may or may not influence an object in motion.
Friction acts in the opposite direction of the object's motion
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