# SI Units, Symbols & Abbreviations

There are many abbreviations used to denote different measurements and quantities. The chances are that any scientific measurement or quantity will be measured using SI Units - the International System of Units.

There are many standard abbreviations and symbols used with these quantities. The SI, System International units, symbols and abbreviations are well defined and documented and provide the basis for the way most scientific quantities (as well as many others) are quoted and measured.

The SI unit symbols for quantities such as current, voltage and the like, are very common, and within electrical or electronic circles.

However when an unfamiliar unit symbol is first used within a paper or other document, it should be followed by its name in parentheses. In this way readers who may not be familiar with the particular unit symbol may be able to understand it.

## SI unit symbol & abbreviation usage

When writing SI unit symbols, they are written in lower case except for cases where the unit is derived from a proper name, or in the very few cases where the abbreviation is not formed from a letter.

The definition for methods of writing SI symbols states that the symbols for the units should not be followed by a period / full stop. In other words a current of ten amperes is written 10A, and not 10A., although punctuation for sentences still applies.

When a compound unit SI unit symbols is made by multiplying two or more other units, its overall symbol should consist of the symbols for the separate units joined by dots which are raised, i.e. ⋅ . However the raised dot, may be omitted in the case of familiar compound unit symbols.

For example both V ⋅ s and V s are acceptable.

## Table of the SI units, symbols, & abbreviations

SI Units & SI Unit Symbols
SI Unit NameSI Unit SymbolQuantity measured
ampere

A

Electric current
ampere per meter

A/m

Magnetic field strength
ampere per square meter

A/m^2

Current density
becquerel

Bq s^-1

Activity - of radionuclide
candela

cd

Luminous intensity
candela per square metre

cd/m^2

Luminance
coulomb

C s ⋅ A

Electric charge, quantity of electricity
coulomb per cubic metre

C/m^3

Electric charge density
coulomb per kilogram

C/kg

Exposure (x rays & gamma rays)
coulomb per square metre

C/m^2

Electric flux density
cubic metre

m^3

Volume
cubic metre per kilogram

m^3/kg

Specific volume
degree Celsius

°C

Celsius temperature

F C/V

Capacitance

F/m

Permittivity
gray

Gy

Absorbed dose, specific energy imparted, absorbed dose index
gray per second

Gy/s

Absorbed dose rate
henry

H Wb/A

Inductance
henry per metre

H/m

Permeability
hertz

Hz s^-1

Frequency
joule

J N⋅m

Energy, work, quantity of heat
joule per cubic metre

J/m^3

Energy density
joule per kelvin

J/K

Heat capacity, entropy
joule per kilogram

J/kg

Specific energy
joule per kilogram kelvin

J/(kg⋅K)

Specific heat capacity
joule per mole

J/mol

Molar energy
joule per mole kelvin

J/(mol⋅K)

Molar heat capacity, molar entropy
kelvin

K

Absolute temperature, sometimes referred to as thermodynamic temperature
kilogram

kg

Mass
kilogram per cubic metre

kg/m^3

Density, mass density
lumen

lm

Luminous flux
lux

lx lm/m^2

Illuminance
metre

m

Length
metre per second

m/s

Speed, velocity
metre per second squared

m/s^2

Acceleration
mole

mol

Amount of substance
mole per cubic metre

mol/m^3

Concentration
newton

N

Force
newton metre

N⋅m

Moment of force
newton per metre

N/m

Surface tension
ohm

Ω V/A

Electric resistance
pascal

Pa N/m^2

Pressure, stress
pascal second

PA ⋅ s

Dynamic viscosity

Plane angle

Angular velocity
radian per second squared

Angular aceleration
second

s

Time or time interval
siemens

S A/V

Electric conductance (1/electric resistance)
sievert

Sv

Dose equivalent (index)
square metre

m^2

Area

sr

Solid angle
tesla

T Wb/m2

Magnetic flux density
volt

V W/A

Electrical potential or potential difference, electromotive force
volt per metre

V/m

Electric field strength
watt

W J/s

Power
watt per metre kelvin

W/(m⋅K)

Thermal conductivity
watt per square metre

W/m^2

Power density, heat flux density, irrandiance
watt per square metre steradian

W ⋅ m^-2 ⋅ sr^-1

W/sr