SI derived units are units of measurement defined in the International System of Units (SI). They are derived from the seven base units.
The names of all SI units are written in lowercase. The unit symbols of units named after persons are always spelled with an initial capital letter (e.g., hertz, Hz; but meter, m). The exception is degrees Celsius, which refers to degrees on the Celsius temperature scale.
[edit] Derived units with special names
Base units can be combined to derive units of measurement for other quantities. In addition to the two dimensionless derived units radian (rad) and steradian (sr), 20 other derived units have special names.
Named units derived from SI base units | Name | Symbol | Quantity | Expression in terms of other units | Expression in terms of SI base units |
| hertz | Hz | frequency | 1/s | s-1 |
| radian | rad | angle | m∙m-1 | dimensionless |
| steradian | sr | solid angle | m2∙m-2 | dimensionless |
| newton | N | force, weight | m∙kg/s2 | m∙kg∙s−2 |
| pascal | Pa | pressure, stress | N/m2 | m−1∙kg∙s−2 |
| joule | J | energy, work, heat | N∙m = C·V = W·s | m2∙kg∙s−2 |
| watt | W | power, radiant flux | J/s = V·A | m2∙kg∙s−3 |
| coulomb | C | electric charge or electric flux | s∙A | s∙A |
| volt | V | voltage, electrical potential difference, electromotive force | W/A = J/C | m2∙kg∙s−3∙A−1 |
| farad | F | electric capacitance | C/V | m−2∙kg−1∙s4∙A2 |
| ohm | Ω | electric resistance, impedance, reactance | V/A | m2∙kg∙s−3∙A−2 |
| siemens | S | electrical conductance | 1/Ω | m−2∙kg−1∙s3∙A2 |
| weber | Wb | magnetic flux | J/A | m2∙kg∙s−2∙A−1 |
| tesla | T | magnetic field strength, magnetic flux density | V∙s/m2 = Wb/m2 = N/(A∙m) | kg∙s−2∙A−1 |
| henry | H | inductance | V∙s/A = Wb/A | m2∙kg∙s−2∙A−2 |
| degree Celsius | °C | temperature | K − 273.15 | K − 273.15 |
| lumen | lm | luminous flux | lx·m2 | cd·sr |
| lux | lx | illuminance | lm/m2 | m−2∙cd∙sr |
| becquerel | Bq | radioactivity (decays per unit time) | 1/s | s−1 |
| gray | Gy | absorbed dose (of ionizing radiation) | J/kg | m2∙s−2 |
| sievert | Sv | equivalent dose (of ionizing radiation) | J/kg | m2∙s−2 |
| katal | kat | catalytic activity | mol/s | s−1∙mol |
Other common units, such as the litre, are not SI units, but are accepted for use with SI (cf. non-SI units accepted for use with SI).
[edit] Other quantities and units
| Compound units derived from SI units |
| Name | Symbol | Quantity | Expression in terms
of SI base units |
| square metre | m2 | area | m2 |
| cubic metre | m3 | volume | m3 |
| metre per second | m/s | speed, velocity | m·s−1 |
| cubic metre per second | m3/s | volumetric flow | m3·s−1 |
| metre per second squared | m/s2 | acceleration | m·s−2 |
| metre per second cubed | m/s3 | jerk, jolt | m·s−3 |
| metre per quartic second | m/s4 | snap | m·s−4 |
| radian per second | rad/s | angular velocity | s−1 |
| newton second | N·s | momentum, impulse | kg·m·s−1 |
| newton metre second | N·m·s | angular momentum | kg·m2·s−1 |
| newton metre | N·m = J/rad | torque, moment of force | kg·m2·s−2 |
| newton per second | N/s | yank | kg·m·s−3 |
| reciprocal metre | m−1 | wavenumber | m−1 |
| kilogram per cubic metre | kg/m3 | density, mass density | kg·m−3 |
| cubic metre per kilogram | m3/kg | specific volume | kg−1·m3 |
| mole per cubic metre | mol/m3 | amount (-of-substance) concentration | m−3·mol |
| cubic metre per mole | m3/mol | molar volume | m3·mol−1 |
| joule per kelvin | J/K | heat capacity, entropy | kg·m2·s−2·K−1 |
| joule per kelvin mole | J/(K·mol) | molar heat capacity, molar entropy | kg·m2·s−2·K−1·mol−1 |
| joule per kilogram kelvin | J/(K·kg) | specific heat capacity, specific entropy | m2·s−2·K−1 |
| joule per mole | J/mol | molar energy | kg·m2·s−2·mol−1 |
| joule per kilogram | J/kg | specific energy | m2·s−2 |
| joule per cubic metre | J/m3 | energy density | kg·m−1·s−2 |
| newton per metre | N/m = J/m2 | surface tension | kg·s−2 |
| watt per square metre | W/m2 | heat flux density, irradiance | kg·s−3 |
| watt per metre kelvin | W/(m·K) | thermal conductivity | kg·m·s−3·K−1 |
| square metre per second | m2/s | kinematic viscosity, diffusion coefficient | m2·s−1 |
| pascal second | Pa·s = N·s/m2 | dynamic viscosity | kg·m−1·s−1 |
| coulomb per square metre | C/m2 | electric displacement field | m−2·s·A |
| coulomb per cubic metre | C/m3 | electric charge density | m−3·s·A |
| ampere per square metre | A/m2 | electric current density | A·m−2 |
| siemens per metre | S/m | conductivity | kg−1·m−3·s3·A2 |
| siemens square metre per mole | S·m2/mol | molar conductivity | kg-1·s3·mol−1·A2 |
| farad per metre | F/m | permittivity | kg−1·m−3·s4·A2 |
| henry per metre | H/m | permeability | kg·m·s−2·A−2 |
| volt per metre | V/m | electric field strength | kg·m·s−3·A−1 |
| ampere per metre | A/m | magnetic field strength | A·m−1 |
| candela per square metre | cd/m2 | luminance | cd·m−2 |
| coulomb per kilogram | C/kg | exposure (X and gamma rays) | kg−1·s·A |
| gray per second | Gy/s | absorbed dose rate | m2·s−3 |
| ohm metre | Ω·m | resistivity | kg·m3·s−3·A−2 |
| edit |
[edit] See also
[edit] References
- I. Mills, Tomislav Cvitas, Klaus Homann, Nikola Kallay, IUPAC: Quantities, Units and Symbols in Physical Chemistry, 2nd edition (June 1993), Blackwell Science Inc (p. 72)
