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We sometimes refer to this law loosely as action-reaction, where the force exerted is the action and the force experienced as a consequence is the reaction. We can readily see Newton’s third law at work by taking a look at how people move about.
The law of action-reaction (Newton's third law) explains the nature of the forces between the two interacting objects. According to the law, the force exerted by object 1 upon object 2 is equal in magnitude and opposite in direction to the force exerted by object 2 upon object 1.
Newton's third law states that for every action there is an equal and opposite reaction. The "action" and "reaction" refer to forces; if Object A exerts a force on Object B, then Object B exerts an equal amount of force on Object A in the opposite direction.
The strength of the force that the box exerts on you depends on the mass of the box and the amount of force that you apply to it. This is because of something called 'action and reaction'. When you push the object, it is the action, and the object pushing back is the reaction.
Action and reaction are exerted on different objects and so don't cancel. When two bodies interact, they exert equal and opposite force on each other. A famous example of a mistake.
We sometimes refer to this law loosely as “action-reaction,” where the force exerted is the action and the force experienced as a consequence is the reaction. Newton’s third law has practical uses in analyzing the origin of forces and understanding which forces are external to a system.
Newton’s third law states that when one body exerts a force on another body, the second body exerts an equal force on the first body. This principle of action and reaction explains why a force tends to deform a body (i.e., change its shape) whether…. Read More.
