Gauss (unit)
gauss | |
---|---|
Unit system | Gaussian and emu-cgs |
Unit of | magnetic flux density (also known as magnetic induction, or the B-field, or magnetic field) |
Symbol | G or Gs |
Named after | Carl Friedrich Gauss |
Conversions | |
1 G or Gs in ... | ... is equal to ... |
SI derived units | 10−4 tesla[a] |
Gaussian base units | 1 cm−1/2⋅ |
esu-cgs | 1/ccgs esu[b] |
The gauss (symbol: G, sometimes Gs), is a unit of measurement of magnetic induction, also known as
As the centimetre–gram–second system of units (cgs system) has been superseded by the International System of Units (SI), the use of the gauss has been deprecated by the standards bodies, but is still regularly used in various subfields of science. The SI unit for magnetic flux density is the tesla (symbol T),[1] which corresponds to 10,000gauss.
Name, symbol, and metric prefixes
Albeit not a component of the International System of Units, the usage of the gauss generally follows the rules for SI units. Since the name is derived from a person's name, its symbol is the uppercase letter "G". When the unit is spelled out, it is written in lowercase ("gauss"), unless it begins a sentence.[2]: 147–148 The gauss may be combined with metric prefixes,[3]: 128 such as in milligauss, mG (or mGs), or kilogauss, kG (or kGs).
Unit conversions
The gauss is the unit of magnetic flux density B in the system of
The units for
Typical values
- 10−9–10−8 G – the magnetic field of the human brain
- 10−6–10−3 G – the magnetic field of Galactic molecular clouds. Typical magnetic field strengths within the interstellar medium of the Milky Wayare ~5 μG.
- 0.25–0.60 G – the Earth's magnetic field at its surface
- 4 G – near Jupiter's equator
- 25 G – the Earth's magnetic field in its core[4]
- 50 G – a typical refrigerator magnet
- 100 G – an iron magnet
- 1500 G – within a sun spot[5]
- 10000 to 13000 G – remanence of a neodymium-iron-boron (NIB) magnet[6]
- 16000 to 22000 G – saturation of high permeability iron alloys used in transformers[7]
- 3000–70000 G – a medical magnetic resonance imaging machine
- 1012–1013 G – the surface of a neutron star[8]
- 4 × 1013 G – the Schwinger limit
- 1014 G – the magnetic field of SGR J1745-2900, orbiting the supermassive black hole Sgr A*in the center of the Milky Way.
- 1015 G – the magnetic field of some newly created magnetars[9]
- 1017 G – the upper limit to neutron star magnetism[9]
See also
Notes
- ^ The electromagnetic Gaussian and SI quantities correspond (symbol '≘') rather than being equal (symbol '=').
- ^ ccgs = 2.99792458×1010 is the numeric part of the speed of light when expressed in cgs units.
References
- ^ NIST Special Publication 1038, Section 4.3.1
- ISBN 978-92-822-2272-0
- ISBN 92-822-2213-6, archived(PDF) from the original on 2021-06-04, retrieved 2021-12-16
- ^ Hoadley, Rick. "How strong are magnets?". www.coolmagnetman.com. Retrieved 2017-01-26.
- ISBN 978-0-470-69516-6.
- ISBN 0-7506-4637-3.
- ^ "How strong are magnets?". Experiments with magnets and our surroundings. Magcraft. Retrieved 2007-12-14.
- ^ a b Duncan, Robert C. (March 2003). "Magnetars, Soft Gamma Repeaters and Very Strong Magnetic Fields". University of Texas at Austin. Archived from the original on 2007-06-11. Retrieved 2007-05-23.