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### Mechanical equilibrium

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ARTICLE ORIGINS Mechanical equilibrium
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File:WeightNormal.svg|thumb|An object resting on a surface and the corresponding free body diagram showing the forces acting on the object. The normal force N is equal, opposite, and collinear to the gravitational force mg so the net force and moment is zero. Consequently, the object is in a state of static mechanical equilibrium.]]In classical mechanics, a particle is in mechanical equilibrium if the net force on that particle is zero.{{rp|39}} By extension, a physical system made up of many parts is in mechanical equilibrium if the net force on each of its individual parts is zero.BOOK, Principles of Mechanics, John L Synge, Byron A Griffith, yes, 2nd, McGraw-Hill, 1949,weblink {{rp|45â€“46}}BOOK, Beer FP, Johnston ER, Mazurek DF, Cornell PJ, and Eisenberg, ER, 2009, Vector Mechanics for Engineers: Statics and Dynamics, 9th, McGraw-Hill, 158, In addition to defining mechanical equilibrium in terms of force, there are many alternative definitions for mechanical equilibrium which are all mathematically equivalent. In terms of momentum, a system is in equilibrium if the momentum of its parts is all constant. In terms of velocity, the system is in equilibrium if velocity is constant. In a rotational mechanical equilibrium the angular momentum of the object is conserved and the net torque is zero. More generally in conservative systems, equilibrium is established at a point in configuration space where the gradient of the potential energy with respect to the generalized coordinates is zero.If a particle in equilibrium has zero velocity, that particle is in static equilibrium.BOOK, Classical Mechanics, 113, Herbert Charles Corben, Philip Stehle, yes,weblink 0-486-68063-0, Courier Dover Publications, Reprint of 1960 second, 1994, BOOK, Engineering Mechanics, Lakshmana C. Rao, J. Lakshminarasimhan, Raju Sethuraman, Srinivasan M. Sivakumar, 81-203-2189-8, PHI Learning Pvt. Ltd.,weblink 6, 2004, Since all particles in equilibrium have constant velocity, it is always possible to find an inertial reference frame in which the particle is stationary with respect to the frame.

## Stability

An important property of systems at mechanical equilibrium is their stability.

### Potential energy stability test

If we have a function which describes the system's potential energy, we can determine the system's equilibria using calculus. A system is in mechanical equilibrium at the critical points of the function describing the system's potential energy. We can locate these points using the fact that the derivative of the function is zero at these points. To determine whether or not the system is stable or unstable, we apply the second derivative test:(File:vratka rovnovazna poloha.svg|thumb|Unstable equilibria)
Second derivative < 0: The potential energy is at a local maximum, which means that the system is in an unstable equilibrium state. If the system is displaced an arbitrarily small distance from the equilibrium state, the forces of the system cause it to move even farther away.
{{breakafterimages}} (File:stabilni rovnovazna poloha.svg|thumb|Stable equilibria)
Second derivative > 0: The potential energy is at a local minimum. This is a stable equilibrium. The response to a small perturbation is forces that tend to restore the equilibrium. If more than one stable equilibrium state is possible for a system, any equilibria whose potential energy is higher than the absolute minimum represent metastable states.
{{breakafterimages}} (File:volna rovnovazna poloha.svg|thumb|Neutral equilibria)
Second derivative = 0 or does not exist: The state is neutral to the lowest order and nearly remains in equilibrium if displaced a small amount. To investigate the precise stability of the system, higher order derivatives must be examined. The state is unstable if the lowest nonzero derivative is of odd order or has a negative value, stable if the lowest nonzero derivative is both of even order and has a positive value, and neutral if all higher order derivatives are zero. In a truly neutral state the energy does not vary and the state of equilibrium has a finite width. This is sometimes referred to as state that is marginally stable or in a state of indifference.
When considering more than one dimension, it is possible to get different results in different directions, for example stability with respect to displacements in the x-direction but instability in the y-direction, a case known as a saddle point. Generally an equilibrium is only referred to as stable if it is stable in all directions.

### Statically indeterminate system

Sometimes there is not enough information about the forces acting on a body to determine if it is in equilibrium or not. This makes it a statically indeterminate system.

## Examples

A stationary object (or set of objects) is in "static equilibrium," which is a special case of mechanical equilibrium. A paperweight on a desk is an example of static equilibrium. Other examples include a rock balance sculpture, or a stack of blocks in the game of Jenga, so long as the sculpture or stack of blocks is not in the state of collapsing.Objects in motion can also be in equilibrium. A child sliding down a slide at constant speed would be in mechanical equilibrium, but not in static equilibrium (in the reference frame of the earth or slide).Another example of mechanical equilibrium is a person pressing a spring to a defined point. He or she can push it to an arbitrary point and hold it there, at which point the compressive load and the spring reaction are equal. In this state the system is in mechanical equilibrium. When the compressive force is removed the spring returns to its original state.The minimal number of static equilibria of homogeneous, convex bodies (when resting under gravity on a horizontal surface) is of special interest. In the planar case, the minimal number is 4, while in three dimensions one can build an object with just one stable and one unstable balance point.{{fact|date=November 2016}} Such an object is called a gÃ¶mbÃ¶c.

## Notes and references

{{reflist}}

• Marion JB and Thornton ST. (1995) Classical Dynamics of Particles and Systems. Fourth Edition, Harcourt Brace & Company.

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