Conservative Forces: Friction a Non-Conservative Force?

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Friction is classified as a non-conservative force due to its macroscopic behavior, which cannot be accurately represented by individual atomic interactions. While friction originates from electromagnetic interactions, its statistical nature leads to energy dissipation as heat, making it nonconservative. The coefficient of friction serves as a practical model for understanding this force, yet it highlights the complexity of energy distribution in frictional processes. The distinction between conservative and nonconservative forces lies in how energy is transformed and conserved, with nonconservative forces resulting in random thermal motion. Ultimately, statistics play a crucial role in defining the nature of friction as a nonconservative force.
SandeshPhy
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Why is friction a non-conservative force ?
It arises to Electric interactions which is a conservative force(field).
 
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Yes, friction is due to electromagnetic interactions at the atomic level, which are conservative. However, it is difficult, if not impossible to consider the individual interactions of the atoms. Hence the concept of "friction" on a macroscopic level based on statistical approximation. It is this treatment that causes frictional force to be nonconservative.
 
But even then how can statistics change the nature of force,how can it change something that is the way of working of force.
 
It is simply nonconservative due to the fact that it is not accounted for - in all. We know that the coefficient of friction concept models the reality of this force decently, but in consequence, it is nonconservative.
 
how can statistics change the nature of force
Statistics exactly IS the difference between conservative and nonconservative. A nonconservative force by definition is one that degenerates energy into heat, i.e. random thermal motion. Energy is conserved, but it becomes distributed over a great many degrees of freedom.
 
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