Newton's Third Law of Motion: Difference between revisions

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[[File: Newton's Third Law Explained.png | thumb | Right | 400px |Newton's Law Explained]] Newton’s Third Law of Motion describes a push or pull that acts on an object as a result of its interaction with another object. According to this law for every action there is an equal and opposite re-action. This means that for every force there is a reaction force that is equal in size, but opposite in direction. Meaning that when an object 1 pushes another object 2 then object 1 gets pushed back with equal force but in the opposite direction. This law can be seen through action/reaction pairs because the pair is equal magnitude and opposite direction.  
[[File: Newton's Third Law Explained.png | thumb | Right | 400px |Newton's Law Explained]] Newton’s Third Law of Motion describes a push or pull that acts on an object as a result of its interaction with another object. According to this law for every action there is an equal and opposite re-action. This means that for every force there is a reaction force that is equal in size, but opposite in direction. Meaning that when an object 1 pushes another object 2 then object 1 gets pushed back with equal force but in the opposite direction. This law can be seen through action/reaction pairs because the pair is equal magnitude and opposite direction.  


===A Mathematical Model===
===A Mathematical Model===

Revision as of 22:02, 27 November 2015

claimed by Karan Shah

Main Idea

Newton's Law Explained

Newton’s Third Law of Motion describes a push or pull that acts on an object as a result of its interaction with another object. According to this law for every action there is an equal and opposite re-action. This means that for every force there is a reaction force that is equal in size, but opposite in direction. Meaning that when an object 1 pushes another object 2 then object 1 gets pushed back with equal force but in the opposite direction. This law can be seen through action/reaction pairs because the pair is equal magnitude and opposite direction.

A Mathematical Model

What are the mathematical equations that allow us to model this topic. For example [math]\displaystyle{ {\frac{d\vec{p}}{dt}}_{system} = \vec{F}_{net} }[/math] where p is the momentum of the system and F is the net force from the surroundings.

A Computational Model

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