No, not when they are balanced.
-- First of all, motion doesn't require any force.-- If the forces on an object are unbalanced, then the object's motion changes. Always.-- If the forces on an object are balanced, then the object's motion doesn't change.
No, of course not! We ourselves we change our motion!
No, forces do not always result in motion. An object will only move if there is a resulting net force acting on it in a certain direction, as described by Newton's First Law of Motion. If the forces acting on the object are balanced or cancel each other out, then the object will remain at rest or continue moving at a constant velocity.
Forces do not always result in motion. An object will only move if there is a resultant force acting on it. An object at rest will remain at rest unless a force is applied to it, according to Newton's First Law of Motion.
Forces do not always result in motion. An object at rest will not move even if a force is applied to it if the force is opposed by another force of equal magnitude in the opposite direction. Additionally, if the forces are balanced, the object will remain in a state of equilibrium and not experience motion.
more motion :O
-- First of all, motion doesn't require any force.-- If the forces on an object are unbalanced, then the object's motion changes. Always.-- If the forces on an object are balanced, then the object's motion doesn't change.
No.
opposing the motion
Oppose & Prevent
No, of course not! We ourselves we change our motion!
No, forces do not always result in motion. An object will only move if there is a resulting net force acting on it in a certain direction, as described by Newton's First Law of Motion. If the forces acting on the object are balanced or cancel each other out, then the object will remain at rest or continue moving at a constant velocity.
Forces do not always result in motion. An object will only move if there is a resultant force acting on it. An object at rest will remain at rest unless a force is applied to it, according to Newton's First Law 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.
Forces do not always result in motion. An object at rest will not move even if a force is applied to it if the force is opposed by another force of equal magnitude in the opposite direction. Additionally, if the forces are balanced, the object will remain in a state of equilibrium and not experience motion.
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Friction is the force that always opposes motion. It occurs when two objects rub against each other, slowing down their movement.