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Force '''F''' (N) is the push or pull experienced when two masses interact with each other, either physically or at a distance. An object would either be at rest or in motion. The resistance to its state of motion or rest is called as [[inertia]]. Due to this property, an object will not experience any change in its state of motion or rest unless acted upon by an external force. When the object is in motion, the product of its mass '''m''' (kg) and [[acceleration]] '''a''' (m/s<sup>2</sup>) gives the vector sum of all the forces acting on it. When this object A interacts with another object B, then the object B would exert a force equal to the magnitude of the force exerted by the object A, but in the opposite direction. | Force '''F''' (N) is the push or pull experienced when two masses interact with each other, either physically or at a distance. An object would either be at rest or in motion. The resistance to its state of motion or rest is called as [[inertia]]. Due to this property, an object will not experience any change in its state of motion or rest unless acted upon by an external force. When the object is in motion, the product of its mass '''m''' (kg) and [[acceleration]] '''a''' (m/s<sup>2</sup>) gives the vector sum of all the forces acting on it. When this object A interacts with another object B, then the object B would exert a force equal to the magnitude of the force exerted by the object A, but in the opposite direction. | ||
=== Newton's laws of motion === | === Newton's laws of motion === | ||
| − | Sir Issac Newton used three laws to explain force and motion of various physical systems. These laws laid the foundation for the classical mechanics. They describe the relationship between a body and the forces acting upon it, and its motion in response to those forces. They have been expressed in several different ways, over nearly three centuries, and can be | + | Sir Issac Newton used three laws to explain force and motion of various physical systems. These laws laid the foundation for the classical mechanics. They describe the relationship between a body and the forces acting upon it, and its motion in response to those forces. They have been expressed in several different ways, over nearly three centuries, and can be summarised as follows. |
# When viewed in an inertial reference frame, an object either remains at rest or continues to move at a constant velocity unless acted upon by a force. | # When viewed in an inertial reference frame, an object either remains at rest or continues to move at a constant velocity unless acted upon by a force. | ||
# The vector sum of the forces <math>\vec{F}</math> on an object is equal to the mass <math>m</math> of that object multiplied by the acceleration vector <math>\vec{a}</math> of the object: <math>{\vec{F}=m\vec{a}}</math>. | # The vector sum of the forces <math>\vec{F}</math> on an object is equal to the mass <math>m</math> of that object multiplied by the acceleration vector <math>\vec{a}</math> of the object: <math>{\vec{F}=m\vec{a}}</math>. | ||