Electronvolt
An electronvolt (symbol: eV) is the amount of energy gained by a single unbound electron when it falls through an electrostatic potential difference of one volt. This is a very small amount of energy:
- 1 eV = 1.602 176 53 (14) × 10−19 J. (Source: CODATA 2002 recommended values)
It is a non-SI unit of energy, accepted for use with SI.
Using electronvolts to measure mass
Einstein taught us that energy is equivalent to mass, as famously expressed in the formula E=mc2 (1 kg = 90 petajoule). Particle physicists thus use the eV/c² as unit of mass, with the advantage that conversion between mass and energy is then trivial.
In particle physics, masses are expressed in natural units, so factors of c are set equal to one and omitted. For example, an electron and a positron, each with a mass of 511 keV, can annihilate to yield 1.022 MeV of energy. The proton, a typical baryon, has a mass of 0.938 GeV, making GeV (often pronounced jev) a very convenient unit of mass for particle physics.
- 1 eV/c² = 1.783 × 10−36 kg
- 1 keV/c² = 1.783 × 10−33 kg
- 1 MeV/c² = 1.783 × 10−30 kg
- 1 GeV/c² = 1.783 × 10−27 kg
For comparison, charged particles in a nuclear explosion range from 0.3 to 3 MeV. The typical atmospheric molecule has an energy of about 0.03 eV.
To convert a particle's energy in electronvolts into its temperature in kelvin, multiply by 11,605 (see Boltzmann constant).
See also
External link
- BIPM's definition of the electronvolt (http://www1.bipm.org/en/si/si_brochure/chapter4/table7.html)
- Conversion Calculator for Units of ENERGY (http://www.ex.ac.uk/cimt/dictunit/ccenrgy.htm)
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