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Moment (physics)
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Moment (physics)

See also moment (mathematics) for a more abstract concept of moments that evolved from this concept of physics.

In physics, the moment is a quantity that represents the magnitude of force applied to a rotational system at a distance from the axis of rotation. The concept of the moment arm, this characteristic distance, is key to the operation of the lever, pulley, gear, and most other simple machines capable of generating mechanical advantage.

Table of contents
1 Overview
2 Parallel axis theorem
3 Related quantities
4 History

Overview

In general, the moment M of a vector B is

where r is the position where quantity B is applied. If r is a vector relative to point A, then the moment is the "moment M with respect to the axis that goes through the point A", or simply "moment M around A". If A is the origin, one often omits A and says simply moment.

Parallel axis theorem

Since the moment is dependent on the given axis, the moment expression possess a common property when the observation axis is changed. If MA is the moment around A, then the moment around the axis that goes through a point B is

where R is the vector from point B to point A. This expression is usually referred to as the parallel axis theorem. For cases when the moment is the sum of individual "submoments", such as in rigid body dynamics where each particle of the body contribute to a moment, the axis change is the sum of a macroscopic and microscopic quantity,

where

or alternatively,

Related quantities

Some notable physical quantities arise from the application of moments:

History

The principle of moments is derived from Archimedes' discovery of the operating principle of the lever. In the lever one applies a force, in his day most often human muscle, to an arm, a beam of some sort. Archimedes noted that the amount of force applied to the object, the moment of force, is defined as M = rF, where F is the applied force, and r is the distance from the applied force to object.