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SI base unitsThe SI is founded on seven SI base units for seven base quantities assumed to be mutually independent, as given in Table 1.
| Table1. SI base units |
|
SI base unit |
| Base quantity |
Name |
Symbol |
| length |
meter |
m |
| mass |
kilogram |
kg |
| time |
second |
s |
| electric current |
ampere |
A |
| thermodynamic temperature |
kelvin |
K |
| amount of substance |
mole |
mol |
| luminous intensity |
candela |
cd |
|
For detailed information on the SI base units, see Definitions of the SI base units and their Historical context.
SI derived units
Other quantities, called derived quantities, are defined in terms of the seven base quantities via a system of quantity equations. The SI derived units for these derived quantities are obtained from these equations and the seven SI base units. Examples of such SI derived units are given in Table 2, where it should be noted that the symbol 1 for quantities of dimension 1 such as mass fraction is generally omitted.
| Table 2. Examples of SI derived units |
|
SI derived unit |
| Derived quantity |
Name |
Symbol |
| area |
square meter |
m2 |
| volume |
cubic meter |
m3 |
| speed, velocity |
meter per second |
m/s |
| acceleration |
meter per second squared |
m/s2 |
| wave number |
reciprocal meter |
m-1 |
| mass density |
kilogram per cubic meter |
kg/m3 |
| specific volume |
cubic meter per kilogram |
m3/kg |
| current density |
ampere per square meter |
A/m2 |
| magnetic field strength |
ampere per meter |
A/m |
| amount-of-substance concentration |
mole per cubic meter |
mol/m3 |
| luminance |
candela per square meter |
cd/m2 |
| mass fraction |
kilogram per kilogram, which may be represented by the number 1 |
kg/kg = 1 |
|
For ease of understanding and convenience, 22 SI derived units have been given special names and symbols, as shown in Table 3.
| Table 3. SI derived units with special names and symbols |
|
SI derived unit |
| Derived quantity |
Name |
Symbol |
Expression
in terms of
other SI units |
Expression
in terms of
SI base units |
| plane angle |
radian (a) |
rad |
– |
m·m-1 = 1 (b) |
| solid angle |
steradian (a) |
sr (c) |
– |
m2·m-2 = 1 (b) |
| frequency |
hertz |
Hz |
– |
s-1 |
| force |
newton |
N |
– |
m·kg·s-2 |
| pressure, stress |
pascal |
Pa |
N/m2 |
m-1·kg·s-2 |
| energy, work, quantity of heat |
joule |
J |
N·m |
m2·kg·s-2 |
| power, radiant flux |
watt |
W |
J/s |
m2·kg·s-3 |
| electric charge, quantity of electricity |
coulomb |
C |
– |
s·A |
electric potential difference,
electromotive force |
volt |
V |
W/A |
m2·kg·s-3·A-1 |
| capacitance |
farad |
F |
C/V |
m-2·kg-1·s4·A2 |
| electric resistance |
ohm |
 |
V/A |
m2·kg·s-3·A-2 |
| electric conductance |
siemens |
S |
A/V |
m-2·kg-1·s3·A2 |
| magnetic flux |
weber |
Wb |
V·s |
m2·kg·s-2·A-1 |
| magnetic flux density |
tesla |
T |
Wb/m2 |
kg·s-2·A-1 |
| inductance |
henry |
H |
Wb/A |
m2·kg·s-2·A-2 |
| Celsius temperature |
degree Celsius |
°C |
– |
K |
| luminous flux |
lumen |
lm |
cd·sr (c) |
m2·m-2·cd = cd |
| illuminance |
lux |
lx |
lm/m2 |
m2·m-4·cd = m-2·cd |
| activity (of a radionuclide) |
becquerel |
Bq |
– |
s-1 |
| absorbed dose, specific energy (imparted), kerma |
gray |
Gy |
J/kg |
m2·s-2 |
| dose equivalent (d) |
sievert |
Sv |
J/kg |
m2·s-2 |
| catalytic activity |
katal |
kat |
|
s-1·mol |
(a) The radian and steradian may be used advantageously in expressions for derived units to distinguish between quantities of a different nature but of the same dimension; some examples are given in Table 4.
(b) In practice, the symbols rad and sr are used where appropriate, but the derived unit “1” is generally omitted.
(c) In photometry, the unit name steradian and the unit symbol sr are usually retained in expressions for derived units.
(d) Other quantities expressed in sieverts are ambient dose equivalent, directional dose equivalent, personal dose equivalent, and organ equivalent dose. |
|
For a graphical illustration of how the 22 derived units with special names and symbols given in Table 3 are related to the seven SI base units, see relationships among SI units.
The special names and symbols of the 22 SI derived units with special names and symbols given in Table 3 may themselves be included in the names and symbols of other SI derived units, as shown in Table 4.
| Table 4. Examples of SI derived units whose names and symbols include SI derived units with special names and symbols |
|
SI derived unit |
| Derived quantity |
Name |
Symbol |
| dynamic viscosity |
pascal second |
Pa·s |
| moment of force |
newton meter |
N·m |
| surface tension |
newton per meter |
N/m |
| angular velocity |
radian per second |
rad/s |
| angular acceleration |
radian per second squared |
rad/s2 |
| heat flux density, irradiance |
watt per square meter |
W/m2 |
| heat capacity, entropy |
joule per kelvin |
J/K |
| specific heat capacity, specific entropy |
joule per kilogram kelvin |
J/(kg·K) |
| specific energy |
joule per kilogram |
J/kg |
| thermal conductivity |
watt per meter kelvin |
W/(m·K) |
| energy density |
joule per cubic meter |
J/m3 |
| electric field strength |
volt per meter |
V/m |
| electric charge density |
coulomb per cubic meter |
C/m3 |
| electric flux density |
coulomb per square meter |
C/m2 |
| permittivity |
farad per meter |
F/m |
| permeability |
henry per meter |
H/m |
| molar energy |
joule per mole |
J/mol |
| molar entropy, molar heat capacity |
joule per mole kelvin |
J/(mol·K) |
exposure (x and  rays) |
coulomb per kilogram |
C/kg |
| absorbed dose rate |
gray per second |
Gy/s |
| radiant intensity |
watt per steradian |
W/sr |
| radiance |
watt per square meter steradian |
W/(m2·sr) |
| catalytic (activity) concentration |
katal per cubic meter |
kat/m3 |
Continue to SI prefixes |
