Does the Normal Force Defy Newton's Third Law on an Inclined Plane?

AI Thread Summary
The discussion clarifies that the normal force on an inclined plane does not defy Newton's third law, as the normal force and weight are not third law pairs. Weight is the gravitational force exerted by the Earth on the object, while the corresponding reaction force is the object exerting an equal and opposite force on the Earth. The gravitational force acting on the object is split into two components: one opposing the normal force and another that can cause acceleration if friction is overcome. When drawing free body diagrams, forces should be classified into components along the incline, but this classification does not impact the application of Newton's third law. Overall, the normal force functions correctly within the framework of Newton's laws.
sgstudent
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Newton's third law states that with every force, there is an equal and opposite reaction and these forces will act on mutually opposite bodies.

However, when an object is resting on an inclined planed, the normal force is not directly opposite of the weight so doesn't this defy Newton's third law in a way?

Thanks for the help!
 
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Force caused by gravitation will be split into two components depending of your inclination. One will be opposite to the normal force, but other will make your object accelerate if friction force is surpassed.
 
sgstudent said:
However, when an object is resting on an inclined planed, the normal force is not directly opposite of the weight so doesn't this defy Newton's third law in a way?
No. The normal force and the weight of an object are not third law pairs. Weight is the Earth exerting a downward gravitational force on an object. The third law pair to weight is thus the object exerting an equal and opposite upward gravitational force on the earth.
 
skazis said:
Force caused by gravitation will be split into two components depending of your inclination. One will be opposite to the normal force, but other will make your object accelerate if friction force is surpassed.

Oh thanks this makes a lot of sense :) so one of the component is to overcome the weight then the other component is to overcome the friction is there is any movement at all. But when u draw the free body diagram I don't split them up right?

Thanks so much u rock!
 
Careful here. While it's usually a good idea to split forces into components parallel and perpendicular to the incline, this has nothing to do with Newton's 3rd law.
 
sgstudent said:
Oh thanks this makes a lot of sense :) so one of the component is to overcome the weight then the other component is to overcome the friction is there is any movement at all. But when u draw the free body diagram I don't split them up right?

Thanks so much u rock!

As I understand, usually a coordinate system (CS) must be introduced. Then forces must be classified into two. First half will be on the x axis, the other - y. In the case of gravitation - you draw it, as well as its components in this CS.
 
Doc Al said:
No. The normal force and the weight of an object are not third law pairs. Weight is the Earth exerting a downward gravitational force on an object. The third law pair to weight is thus the object exerting an equal and opposite upward gravitational force on the earth.

Oh yea! Weight acts on itself so the third law pairs are the normal foxes on the object by plan and normal force acting on plane by object! Got it!

Thanks so much! You rock!
 

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