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Specific force (SF) is a mass-specific quantity defined as the quotient of force per unit mass.

\mathrm {SF} =F/m

It is a physical quantity of kind acceleration, with dimension of length per time squared and units of metre per second squared (m·s⁻²).

It is normally applied to forces other than gravity, to emulate the relationship between gravitational acceleration and gravitational force. It can also be called mass-specific weight (weight per unit mass), as the weight of an object is equal to the magnitude of the gravity force acting on it.

The g-force is an instance of specific force measured in units of the standard gravity (g) instead of m/s², i.e., in multiples of g (e.g., "3 g").

Type of acceleration

The (mass-)specific force is not a coordinate acceleration, but rather a proper acceleration, which is the acceleration relative to free-fall. Forces, specific forces, and proper accelerations are the same in all reference frames, but coordinate accelerations are frame-dependent. For free bodies, the specific force is the cause of, and a measure of, the body's proper acceleration.

The acceleration of an object free falling towards the earth depends on the reference frame (it disappears in the free-fall frame, also called the inertial frame), but any g-force "acceleration" will be present in all frames. This specific force is zero for freely-falling objects, since gravity acting alone does not produce g-forces or specific forces.

Accelerometers on the surface of the Earth measure a constant 9.8 m/s^2 even when they are not accelerating (that is, when they do not undergo coordinate acceleration). This is because accelerometers measure the proper acceleration produced by the g-force exerted by the ground (gravity acting alone never produces g-force or specific force). Accelerometers measure specific force (proper acceleration), which is the acceleration relative to free-fall,^[1] not the "standard" acceleration that is relative to a coordinate system.

Hydraulics

In open channel hydraulics, specific force ( $F_{s}$ ) has a different meaning:

F_{s}={\frac {Q^{2}}{gA}}+zA

where Q is the discharge, g is the acceleration due to gravity, A is the cross-sectional area of flow, and z is the depth of the centroid of flow area A.^[2]

References

^ Savage, Paul G (May 8, 2005). "What Do Accelerometers Measure?" (PDF). Strapdown Associates, Inc.
^ Chaudhry, M. Hanif "Open Channel Flow" 2nd Ed. (2008) pg.31 ISBN 978-0-387-30174-7

[1] Savage, Paul G (May 8, 2005). "What Do Accelerometers Measure?" (PDF). Strapdown Associates, Inc.

[2] Chaudhry, M. Hanif "Open Channel Flow" 2nd Ed. (2008) pg.31 ISBN 978-0-387-30174-7

[1]

[2]

Informatics Educational Institutions & Programs

Type of acceleration

Hydraulics

See also

References