Everything about Pound Force totally explained
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This article deals with the unit of force. For the unit of mass see Pound (mass).
The
pound-force or simply
pound (abbreviations:
lb,
lbf, or
lbf) is a
unit of
force.
Definitions
The pound-force is approximately equal to the gravitational force exerted on a mass of one
avoirdupois pound on the surface of
Earth. Since the 18th century, the unit has been used in low-precision measurements, for which small changes in
Earth's gravity (which varies from place to place by up to half a percent)
can safely be neglected.
The 20th century, however, brought the need for a more precise definition. A standardized value for acceleration due to gravity was therefore needed. Today, in accordance the
General Conference on Weights and Measures,
standard gravity is usually taken to be 9.80665 m/s² (approximately 32.17405 ft/s²) but other values have been used, including 32.16 ft/s² (approximately 9.80237 m/s²).
From the acceleration of the standard gravitational field and the
international avoirdupois pound, we arrive at the following definition:
»
Sixteen avoirdupois
ounces (as a unit of mass) are equal to one avoirdupois pound (as a unit of mass). Similarly one ounce-force is equal to a sixteenth of a pound-force.
Use of pound as a unit of force
In some contexts, such as structural engineering applications, the term "pound" is used almost exclusively to refer to the unit of force and not the unit of mass. In those applications, the preferred unit of mass is the
slug, for example lb
f·s²/ft. In other contexts, the unit "pound" refers to a
unit of mass. In circumstances where there may be ambiguity otherwise, the symbols "lb
f" and "lb
m" and the terms "pounds-force" and "pounds-mass" can be used to distinguish.
Three common, equally valid foot-pound-second (fps) systems of units for doing calculations with mass and force are summarized in the table below, which also includes the corresponding metric units.
In the "engineering" fps system, the
weight of the mass unit (pound-mass) on Earth's surface is approximately equal to the force unit (pound-force). The price for this convenience is that the force unit isn't equal to the mass unit multiplied by the acceleration unit—the use of
Newton's Second Law,
F = ma, requires another factor,
gc, usually taken to be 32.17405 lb·ft/(lbf·s²). The "gravitational" fps system is a
coherent system of units: by using the slug as the unit of mass, it avoids the need for such a constant. The "absolute" system is similarly coherent; the
SI units are those of the "absolute" metric system.
Further Information
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