SI derived units freeform table

Physical quantity Name of SI unit Symbol for SI unit Expression in terms of SI base units -------------------------------------------------------------------------------------------------------------------------------- Special names and Symbols -------------------------------------------------------------------------------------------------------------------------------- frequency hertz Hz s^-1 force newton N m.kg.s^-2 pressure, stress pascal Pa N.m^-2 = m^-1.kg.s^-2 area are ??? m² volume liter l 1000 l = m³ energy, work, heat joule J N.m = m².kg.s^-2 power, radiant flux watt W J.s^-1 = m².kg.s^-3 electric charge coulomb C A.s electric potential, electromotive force volt V J.C^-1 = m².kg.s^-3.A^-1 electric resistance ohm W V.A^-1 = m².kg.s^-3.A^-2 electric conductance siemens S A.V^-1 = m^-2.kg^-1.s³.A² electric capacitance farad F C.V^-1 = m^-2.kg^-1.s⁴.A² magnetic flux density tesla T V.s.m^-2 = kg.s^-2.A^-1 magnetic flux weber Wb V.s = m².kg.s^-2.A^-1 inductance henry H V.A^-1.s = m².kg.s^-2.A^-2 temperature degree Celsius ^oC K plane angle radian rad 1 = m.m^-1 solid angle steradian sr 1 = m².m^-2 luminous flux lumen lm cd.sr illuminance lux lx cd.sr.m^-2 activity (radioactive) becquerel Bq s^-1 absorbed dose (of radiation) gray Gy J.kg^-1 = m².s^-2 dose equivalent (dose equivalent index) sievert Sv J.kg^-1 = m².s^-2 -------------------------------------------------------------------------------------------------------------------------------- Other Quantities -------------------------------------------------------------------------------------------------------------------------------- area m² volume m³ speed, velocity m.s^-1 angular velocity s^-1, rad.s^-1 acceleration m.s^-2 moment of force N.m = m².kg.s^-2 wavenumber m^-1 density, mass density kg.m^-3 specific volume m³.kg^-1 amount (-of-substance) concentration mol.m^-3 molar volume m³.mol^-1 heat capacity, entropy J.K^-1 = m².kg.s^-2.K^-1 molar heat capacity, molar entropy J.K^-1.mol^-1 = m².kg.s^-2.K^-1.mol^-1 specific heat capacity, specific entropy J.K^-1.kg^-1 = m².s^-2.K^-1 molar energy J.mol^-1 = m².kg.s^-2.mol^-1 specific energy J.kg^-1 = m².s^-2

energy density J.m^-3 = m^-1.kg.s^-2 surface tension N.m^-1=J.m^-2 = kg.s^-2 heat flux density, irradiance W.m^-2 = kg.s^-3 thermal conductivity W.m^-1.K^-1 = m.kg.s^-3.K^-1 kinematic viscosity, diffusion coefficient m².s^-1 dynamic viscosity N.s.m^-2 = Pa.s = m^-1.kg.s^-1 electric charge density C.m^-3 m^-3.s.A electric current density A.m^-2 conductivity S.m^-1 = m^-3.kg^-1.s³.A² molar conductivity S.m².mol^-1 = kg^-1.mol^-1.s³.A² permittivity F.m^-1 = m^-3.kg^-1.s⁴.A²; permeability H.m^-1 = m.kg.s^-2.A^-2 electric field strength V.m^-1 = m.kg.s^-3.A^-1 magnetic field strength A.m^-1 luminance cd.m^-2 exposure (X and gamma rays) C.kg^-1 = kg^-1.s.A absorbed dose rate Gy.s^-1 = m².s^-3