Tesla (unit)
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The tesla (symbol T) is the SI derived unit used to measure magnetic fields. Tesla can be measured in different ways; for example, one tesla is equal to one weber per square meter.
The tesla was first defined in 1960 by the General Conference on Weights and Measures (CGPM).[1] It was named in honor of the physicist, electrical engineer, and inventor, Nikola Tesla.
Definitions
Using only the seven base SI units, the definition of a tesla is:
- [math]\displaystyle{ \mbox{T} = \dfrac{\mbox{kg}}{\mbox{A} \cdot \mbox{s}^2} }[/math]
Using other SI derived units, a tesla is also equal to:
- [math]\displaystyle{ \mbox{T} = \dfrac{\mbox{V} \cdot \mbox{s}}{\mbox{m}^{2}} = \dfrac{\mbox{N}}{\mbox{A} \cdot \mbox{m}} = \dfrac{\mbox{Wb}}{\mbox{m}^{2}} = \dfrac{\mbox{kg}}{\mbox{C} \cdot \mbox{s}} = \dfrac{\mbox{N} \cdot \mbox{s}}{\mbox{C} \cdot \mbox{m}} }[/math]
The units used are:
A = ampere
C = coulomb
kg = kilogram
m = meter
N = newton
s = second
T = tesla
V = volt
Wb = weber
A tesla is also equal to 10,000 (104) gauss in the CGS system of units.
Example values
- 3.1×10−5–5.8-5 T – the Earth's magnetic field at its surface
- 5×10-3 T – the strength of a typical refrigerator magnet
- 0.3 T – the strength of solar sunspots
- 1.25T – the strength of the surface of a neodymium magnet
- 1.5−3 T – strength of medical magnetic resonance imaging systems
- 4 T – strength of the superconducting magnet built around the CMS detector at CERN[2]
- 13 T – strength of ITER fusion reactor[3]
- 16 T – magnetic field strength required to levitate a frog as part of an Ig Nobel Prize winning project.[4]
References
- ↑ Template:Citation. 11th session, Resolution 12.
- ↑ Template:Cite web
- ↑ Template:Cite web
- ↑ Template:Cite journal