Difference between revisions of "Balances"

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[[File:Balance.jpeg|thumb|right|Balances]]
'''Balance''' is a measuring instrument for determining the weight or mass of an object. These are used in many industrial and  commercial applications, and products from feathers to loaded  tractor-trailers are sold by weight. Specialized medical scales and  bathroom scales are used to measure the body weight of human beings.
The balance was the first mass measuring instrument invented.In its traditional form, it consists of a pivoted horizontal lever of equal length arms, called the beam, with a weighing pan, also called scale, scalepan, or bason , suspended from each arm . The unknown mass is placed in one pan, and  standard masses are added to the other pan until the beam is as close to  equilibrium  as possible. In precision balances, a slider mass is moved along a  graduated scale. The slider position gives a fine correction to the mass  value. Although a balance technically compares weights, not masses, the  weight of an object is proportional to its mass, and the standard weights used with balances are usually labeled in mass units.
Balances are used for precision mass measurement, because unlike  spring scales their accuracy is not affected by differences in the local  gravity, which can vary by almost 0.5% at different locations on Earth. A change in the strength of the  gravitational field caused by moving the balance will not change the  measured mass, because the moments of force  on either side of the balance beam are affected equally. In fact, a  balance will measure the correct mass even on other planets or moons, or  any location that experiences a constant gravity or acceleration.
 
Very precise measurements are achieved by ensuring that the balance's fulcrum is essentially friction-free , by attaching a pointer to the beam which amplifies any deviation from a balance position; and finally by using the lever principle, which allows fractional masses to be applied by movement  of a small mass along the measuring arm of the beam. For greatest accuracy, there needs to be an allowance for the buoyancy in air, whose effect depends on the densities of the masses involved.
The original form of a balance consisted of a beam with a fulcrum at  its center. For highest accuracy, the fulcrum would consist of a sharp  V-shaped pivot seated in a shallower V-shaped bearing. To determine the  mass of the object, a combination of reference masses was hung on one  end of the beam while the object of unknown mass was hung on the other  end . For high precision work, the center beam balance is still one of the most accurate technologies available, and is commonly used for calibrating test weights.
To reduce the need for large reference masses, an off-center beam can  be used. A balance with an off-center beam can be almost as accurate as  a scale with a center beam, but the off-center beam requires special  reference masses and cannot be intrinsically checked for accuracy by  simply swapping the contents of the pans as a center-beam balance can.  To reduce the need for small graduated reference masses, a sliding  weight called a poise can be installed so that it can be positioned  along a calibrated scale. A poise adds further intricacies to the  calibration procedure, since the exact mass of the poise must be  adjusted to the exact lever ratio of the beam.

Latest revision as of 08:00, 15 June 2013

Balances

Balance is a measuring instrument for determining the weight or mass of an object. These are used in many industrial and commercial applications, and products from feathers to loaded tractor-trailers are sold by weight. Specialized medical scales and bathroom scales are used to measure the body weight of human beings. The balance was the first mass measuring instrument invented.In its traditional form, it consists of a pivoted horizontal lever of equal length arms, called the beam, with a weighing pan, also called scale, scalepan, or bason , suspended from each arm . The unknown mass is placed in one pan, and standard masses are added to the other pan until the beam is as close to equilibrium as possible. In precision balances, a slider mass is moved along a graduated scale. The slider position gives a fine correction to the mass value. Although a balance technically compares weights, not masses, the weight of an object is proportional to its mass, and the standard weights used with balances are usually labeled in mass units.

Balances are used for precision mass measurement, because unlike spring scales their accuracy is not affected by differences in the local gravity, which can vary by almost 0.5% at different locations on Earth. A change in the strength of the gravitational field caused by moving the balance will not change the measured mass, because the moments of force on either side of the balance beam are affected equally. In fact, a balance will measure the correct mass even on other planets or moons, or any location that experiences a constant gravity or acceleration.

Very precise measurements are achieved by ensuring that the balance's fulcrum is essentially friction-free , by attaching a pointer to the beam which amplifies any deviation from a balance position; and finally by using the lever principle, which allows fractional masses to be applied by movement of a small mass along the measuring arm of the beam. For greatest accuracy, there needs to be an allowance for the buoyancy in air, whose effect depends on the densities of the masses involved. The original form of a balance consisted of a beam with a fulcrum at its center. For highest accuracy, the fulcrum would consist of a sharp V-shaped pivot seated in a shallower V-shaped bearing. To determine the mass of the object, a combination of reference masses was hung on one end of the beam while the object of unknown mass was hung on the other end . For high precision work, the center beam balance is still one of the most accurate technologies available, and is commonly used for calibrating test weights. To reduce the need for large reference masses, an off-center beam can be used. A balance with an off-center beam can be almost as accurate as a scale with a center beam, but the off-center beam requires special reference masses and cannot be intrinsically checked for accuracy by simply swapping the contents of the pans as a center-beam balance can. To reduce the need for small graduated reference masses, a sliding weight called a poise can be installed so that it can be positioned along a calibrated scale. A poise adds further intricacies to the calibration procedure, since the exact mass of the poise must be adjusted to the exact lever ratio of the beam.