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A '''force''', defined informally, is a "push or pull" on a physical body. The [[SI]] unit for force is the [[newton]]. Force has [[direction]] as well as [[magnitude]].
A '''force''', defined informally, is a "push or pull" on a physical body. The [[SI]] unit for force is the [[newton]]. Force has [[direction]] as well as [[magnitude]], meaning it's a vector.


==Formal Definition==
==Formal definition==
A force is that which may cause a physical body with [[mass]] to accelerate in a given [[direction]]. If the forces acting upon a body cancel out, then the body is in [[equilibrium]] and does not accelerate.
A force is that which may cause a physical body with [[mass]] to accelerate in a given [[direction]]. If the forces acting upon a body cancel out, then the body is in [[equilibrium]] and does not accelerate.


==See Also==
==Newton's 3 laws of motion==
*[[Phyiscs]]
Issac Newton, a brilliant scientist and mathematician, came up with three laws about motion, that somewhat relate to force:
 
==        First Law:==
The first law, also known as the law of inertia, states that an object will remain at rest or at motion unless a force is applied to it.
 
==        Second Law:==
<math>F=ma</math> The second law states that force equals mass times acceleration.
 
==        Third Law:==
If object A exerts a force on object B (an action), then object B also exerts a force on object A (a reaction). These two forces have the same magnitude but but opposite direction.
 
==See also==
*[[Physics]]
*[[Work]]
*[[Work]]
*[[Power]]
*[[Power]]

Latest revision as of 01:37, 24 November 2024

A force, defined informally, is a "push or pull" on a physical body. The SI unit for force is the newton. Force has direction as well as magnitude, meaning it's a vector.

Formal definition

A force is that which may cause a physical body with mass to accelerate in a given direction. If the forces acting upon a body cancel out, then the body is in equilibrium and does not accelerate.

Newton's 3 laws of motion

Issac Newton, a brilliant scientist and mathematician, came up with three laws about motion, that somewhat relate to force:

First Law:

The first law, also known as the law of inertia, states that an object will remain at rest or at motion unless a force is applied to it.

Second Law:

$F=ma$ The second law states that force equals mass times acceleration.

Third Law:

If object A exerts a force on object B (an action), then object B also exerts a force on object A (a reaction). These two forces have the same magnitude but but opposite direction.

See also

This article is a stub. Help us out by expanding it.

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