CGS versus SI
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The SI or International System of Units versus the CGS or Centimetre–gram–second system of units is a constant source of confusion in the field of NMR. Both are based on the metric system, however the differences can result in quite different forms of the fundamental NMR equations. An example of this is Tesla versus Gauss units for the magnetic field strength.
Units of measurement
Quantity | Symbol | SI unit | CGS unit | SI to CGS conversion factor | ||||
---|---|---|---|---|---|---|---|---|
Name | Symbol | Base unit | Name | Symbol | Base unit | |||
length | L | metre | m | centimetre | cm | 10−2 | ||
mass | m | kilogram | kg | gram | g | 10−3 | ||
time | t | second | s | second | s | 1 | ||
velocity | v | metre per second | m⋅s−1 | centimetre per second | cm⋅s−1 | 10−2 | ||
acceleration | a | Metre per second squared | m⋅s−2 | Gal | gal | cm⋅s−2 | 10−2 | |
force | F | Newton | N | kg⋅m⋅s−2 | dyne | dyn | g·cm·s−2 | 10−5 |
energy | E | Joule | J | kg⋅m2·s−2 | erg | erg | g·cm2·s2 | 10−7 |
power | P | Watt | W | kg⋅m2·s−3 | erg per second | erg⋅s−1 | g·cm2·s−3 | 10−7 |
magnetic flux density | B | Tesla | T | kg·s−2·A−1 | Gauss | Gs | esu·cm−2 | 10−4 |
magnetic flux | H | Weber | Wb | kg·m2·s−2·A−1 | Oersted | Oe | g·cm·s−2 | 1000/4π |
magnetic force constant | kA | Defined as µ0·(4π)−1 | 10−7 kg⋅m·s−2·A−3 | Defined as 1 | 1 | 4π·µ0−1 | ||
magnetic constant | µ0 | Defined as µ0 | 4π·10−7 kg·m·s−2·A−3 | Defined as 1 | 1 | µ0−1 |