| Name |
Quantity |
Product |
| angle |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| solid angle |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| time |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| angular time |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| length |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| angular length |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| area |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| angular area |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| volume |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| wavenumber |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| angular wavenumber |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| fuel efficiency |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| number density |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| frequency |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| angular frequency |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| frequency drift |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| stagnance |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| speed |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| acceleration |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| jerk |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| snap |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| crackle |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| pop |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| volume flow |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| etendue |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| photon intensity |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| photon irradiance |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| photon radiance |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| Name |
Quantity |
Product |
| inertia |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| mass |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| mass flow |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| linear density |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| area density |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| density |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| specific weight |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| specific volume |
$1.000000195536555$
$\left[\text{kg}^{-1}\right]/\left[\text{kg}^{-1}\right]$ |
$\hbar\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-2}$ |
| force |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| specific force |
$1.0$
$\left[\text{m}\cdot
\text{s}^{-2}\right]/\left[\text{m}\cdot
\text{s}^{-2}\right]$ |
$1$ |
| gravity force |
$1.0$
$\left[\text{m}^{-1}\text{s}^{2}\right]/\left[\text{m}^{-1}\text{s}^{2}\right]$ |
$1$ |
| pressure |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| compressibility |
$1.000000195536555$
$\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ |
$\hbar\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-2}$ |
| viscosity |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| diffusivity |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| rotational inertia |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| impulse |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| momentum |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| angular momentum |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| yank |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| energy |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| specific energy |
$1.0$
$\left[\text{m}\cdot
\text{s}^{-2}\right]/\left[\text{m}\cdot
\text{s}^{-2}\right]$ |
$1$ |
| action |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| fluence |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| power |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| power density |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| irradiance |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| radiance |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| radiant intensity |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| spectral flux |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| spectral exposure |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| sound exposure |
$0.999999608927005$
$\left[\text{kg}^{2}\text{m}^{2}\text{s}^{-4}\right]/\left[\text{kg}^{2}\text{m}^{2}\text{s}^{-4}\right]$ |
$\hbar^{-2}{\text{R}_\text{K}^{90}}^{-2}{\text{K}_\text{J}^{90}}^{-4}2^{4}$ |
| impedance |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| specific impedance |
$0.9999998044634832$
$\left[\text{N}\right]/\left[\text{N}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| admittance |
$1.000000195536555$
$\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ |
$\hbar\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-2}$ |
| compliance |
$1.000000195536555$
$\left[\text{kg}^{-1}\right]/\left[\text{kg}^{-1}\right]$ |
$\hbar\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-2}$ |
| inertance |
$0.9999998044634832$
$\left[\text{kg}\right]/\left[\text{kg}\right]$ |
$\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$ |
| Name |
Quantity |
Product |
| charge |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| charge density |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| linear charge
density |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| exposure |
$1.0000001066651074$
$\left[\text{kg}^{-1}\text{C}\right]/\left[\text{kg}^{-1}\text{C}\right]$ |
$\hbar\cdot
\text{e}^{-1}{\text{K}_\text{J}^{90}}\cdot
2^{-1}$ |
| mobility |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| current |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| current density |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| resistance |
$0.9999999822063326$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]$ |
$\hbar^{-1}\text{e}^{2}{\text{R}_\text{K}^{90}}$ |
| conductance |
$1.0000000177936677$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ |
$\hbar\cdot
\text{e}^{-2}{\text{R}_\text{K}^{90}}^{-1}$ |
| resistivity |
$0.9999999822063326$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]$ |
$\hbar^{-1}\text{e}^{2}{\text{R}_\text{K}^{90}}$ |
| conductivity |
$1.0000000177936677$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ |
$\hbar\cdot
\text{e}^{-2}{\text{R}_\text{K}^{90}}^{-1}$ |
| capacitance |
$1.0000000177936677$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ |
$\hbar\cdot
\text{e}^{-2}{\text{R}_\text{K}^{90}}^{-1}$ |
| inductance |
$0.9999999822063326$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]$ |
$\hbar^{-1}\text{e}^{2}{\text{R}_\text{K}^{90}}$ |
| reluctance |
$1.0000000177936677$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ |
$\hbar\cdot
\text{e}^{-2}{\text{R}_\text{K}^{90}}^{-1}$ |
| permeance |
$0.9999999822063326$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]$ |
$\hbar^{-1}\text{e}^{2}{\text{R}_\text{K}^{90}}$ |
| permittivity |
$1.0000000177936677$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ |
$\hbar\cdot
\text{e}^{-2}{\text{R}_\text{K}^{90}}^{-1}$ |
| permeability |
$0.9999999822063326$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{C}^{-2}\right]$ |
$\hbar^{-1}\text{e}^{2}{\text{R}_\text{K}^{90}}$ |
| susceptibility |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| specific
susceptibility |
$1.000000195536555$
$\left[\text{kg}^{-1}\right]/\left[\text{kg}^{-1}\right]$ |
$\hbar\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-2}$ |
| demagnetizing factor |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| vector potential |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| electric potential |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| magnetic potential |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| electric field |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| magnetic field |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| electric flux |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| magnetic flux |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| electric
displacement |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| magnetic flux
density |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| electric dipole
moment |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| magnetic dipole
moment |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| electric
polarizability |
$1.0000000177936677$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ |
$\hbar\cdot
\text{e}^{-2}{\text{R}_\text{K}^{90}}^{-1}$ |
| magnetic
polarizability |
$1.0$
$\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ |
$1$ |
| magnetic moment |
$0.9999998933349039$ $\left[\text{V}
\cdot \text{m}^{-1}\right]/\left[\text{V} \cdot
\text{m}^{-1}\right]$ |
$\hbar^{-1}\text{e}\cdot
{\text{K}_\text{J}^{90}}^{-1}2$ |
| specific
magnetization |
$0.9999999111285699$
$\left[\text{m}^{-1}\text{s}^{2}\text{C}\right]/\left[\text{m}^{-1}\text{s}^{2}\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| pole strength |
$0.9999999111285699$
$\left[\text{C}\right]/\left[\text{C}\right]$ |
$\text{e}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}2$ |
| Name |
Quantity |
Product |
| temperature |
$1.00000000034(31)$
$\left[\text{K}\right]/\left[\text{K}\right]$ |
$\text{N}_\text{A}^{-1}\hbar^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
2^{-4}5^{-3}$ |
| entropy |
$0.99999980412(31)$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| specific entropy |
$0.99999999966(31)$
$\left[\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]/\left[\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]$ |
$\text{N}_\text{A}\cdot \hbar\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}2^{4}5^{3}$ |
| volume heat capacity |
$0.99999980412(31)$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| thermal conductivity |
$0.99999980412(31)$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| thermal conductance |
$0.99999980412(31)$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| thermal resistivity |
$1.00000019588(31)$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{K}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{K}\right]$ |
$\text{N}_\text{A}^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-6}5^{-3}$ |
| thermal resistance |
$1.00000019588(31)$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{K}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{K}\right]$ |
$\text{N}_\text{A}^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-6}5^{-3}$ |
| thermal expansion |
$0.99999999966(31)$
$\left[\text{K}^{-1}\right]/\left[\text{K}^{-1}\right]$ |
$\text{N}_\text{A}\cdot \hbar\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}2^{4}5^{3}$ |
| lapse rate |
$1.00000000034(31)$
$\left[\text{K}\right]/\left[\text{K}\right]$ |
$\text{N}_\text{A}^{-1}\hbar^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
2^{-4}5^{-3}$ |
| Name |
Quantity |
Product |
| molar mass |
$1.00000000034(31)$
$\left[\text{kg}\cdot
\text{mol}^{-1}\right]/\left[\text{kg}\cdot
\text{mol}^{-1}\right]$ |
$\text{N}_\text{A}^{-1}\hbar^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
2^{-4}5^{-3}$ |
| molality |
$0.99999999966(31)$
$\left[\text{kg}^{-1}\text{mol}\right]/\left[\text{kg}^{-1}\text{mol}\right]$ |
$\text{N}_\text{A}\cdot \hbar\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}2^{4}5^{3}$ |
| molar amount |
$0.99999980412(31)$
$\left[\text{mol}\right]/\left[\text{mol}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| molarity |
$0.99999980412(31)$
$\left[\text{mol}\right]/\left[\text{mol}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| molar volume |
$1.00000019588(31)$
$\left[\text{mol}^{-1}\right]/\left[\text{mol}^{-1}\right]$ |
$\text{N}_\text{A}^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-6}5^{-3}$ |
| molar entropy |
$1.0$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\text{mol}^{-1}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{K}^{-1}\text{mol}^{-1}\right]$ |
$1$ |
| molar energy |
$1.00000000034(31)$
$\left[\text{kg}\cdot \text{m}\cdot
\text{s}^{-2}\text{mol}^{-1}\right]/\left[\text{kg}\cdot
\text{m}\cdot
\text{s}^{-2}\text{mol}^{-1}\right]$ |
$\text{N}_\text{A}^{-1}\hbar^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
2^{-4}5^{-3}$ |
| molar conductivity |
$1.00000021367(31)$
$\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\text{mol}^{-1}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\text{mol}^{-1}\right]$ |
$\text{N}_\text{A}^{-1}\hbar\cdot \text{c}\cdot
\text{e}^{-2}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-6}5^{-3}$ |
| molar susceptibility |
$1.00000019588(31)$
$\left[\text{mol}^{-1}\right]/\left[\text{mol}^{-1}\right]$ |
$\text{N}_\text{A}^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-6}5^{-3}$ |
| catalysis |
$0.99999980412(31)$
$\left[\text{mol}\right]/\left[\text{mol}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
| specificity |
$1.00000019588(31)$
$\left[\text{mol}^{-1}\right]/\left[\text{mol}^{-1}\right]$ |
$\text{N}_\text{A}^{-1}\text{c}\cdot
\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot
{\text{R}_\text{K}^{90}}\cdot
{\text{K}_\text{J}^{90}}^{2}2^{-6}5^{-3}$ |
| diffusion flux |
$0.99999980412(31)$
$\left[\text{mol}\right]/\left[\text{mol}\right]$ |
$\text{N}_\text{A}\cdot
\text{c}^{-1}\text{R}_{\infty}\cdot
\alpha^{-2}\mu_\text{eu}^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{6}5^{3}$ |
|
Unified |
SI2019 |
Conventional |
| angle |
$\text{A}$ |
$\mathbb{1}$ |
$\mathbb{1}$ |
| solid angle |
$\text{A}^{2}$ |
$\mathbb{1}$ |
$\mathbb{1}$ |
| time |
$\text{T}$ |
$\text{s}$ |
$\text{s}$ |
| angular time |
$\text{T}\cdot
\text{A}^{-1}$ |
$\text{s}$ |
$\text{s}$ |
| length |
$\text{L}$ |
$\text{m}$ |
$\text{m}$ |
| angular length |
$\text{L}\cdot
\text{A}^{-1}$ |
$\text{m}$ |
$\text{m}$ |
| area |
$\text{L}^{2}$ |
$\text{m}^{2}$ |
$\text{m}^{2}$ |
| angular area |
$\text{L}^{2}\text{A}^{-2}$ |
$\text{m}^{2}$ |
$\text{m}^{2}$ |
| volume |
$\text{L}^{3}$ |
$\text{m}^{3}$ |
$\text{m}^{3}$ |
| wavenumber |
$\text{L}^{-1}$ |
$\text{m}^{-1}$ |
$\text{m}^{-1}$ |
| angular wavenumber |
$\text{L}^{-1}\text{A}$ |
$\text{m}^{-1}$ |
$\text{m}^{-1}$ |
| fuel efficiency |
$\text{L}^{-2}$ |
$\text{m}^{-2}$ |
$\text{m}^{-2}$ |
| number density |
$\text{L}^{-3}$ |
$\text{m}^{-3}$ |
$\text{m}^{-3}$ |
| frequency |
$\text{T}^{-1}$ |
$\text{Hz}$ |
$\text{Hz}$ |
| angular frequency |
$\text{T}^{-1}\text{A}$ |
$\text{Hz}$ |
$\text{Hz}$ |
| frequency drift |
$\text{T}^{-2}$ |
$\text{Hz} \cdot
\text{s}^{-1}$ |
$\text{Hz} \cdot
\text{s}^{-1}$ |
| stagnance |
$\text{L}^{-1}\text{T}$ |
$\text{m}^{-1}\text{s}$ |
$\text{m}^{-1}\text{s}$ |
| speed |
$\text{L}\cdot
\text{T}^{-1}$ |
$\text{m}\cdot
\text{s}^{-1}$ |
$\text{m}\cdot
\text{s}^{-1}$ |
| acceleration |
$\text{L}\cdot
\text{T}^{-2}$ |
$\text{m}\cdot
\text{s}^{-2}$ |
$\text{m}\cdot
\text{s}^{-2}$ |
| jerk |
$\text{L}\cdot
\text{T}^{-3}$ |
$\text{m}\cdot
\text{s}^{-3}$ |
$\text{m}\cdot
\text{s}^{-3}$ |
| snap |
$\text{L}\cdot
\text{T}^{-4}$ |
$\text{m}\cdot
\text{s}^{-4}$ |
$\text{m}\cdot
\text{s}^{-4}$ |
| crackle |
$\text{L}\cdot
\text{T}^{-5}$ |
$\text{m}\cdot
\text{s}^{-5}$ |
$\text{m}\cdot
\text{s}^{-5}$ |
| pop |
$\text{L}\cdot
\text{T}^{-6}$ |
$\text{m}\cdot
\text{s}^{-6}$ |
$\text{m}\cdot
\text{s}^{-6}$ |
| volume flow |
$\text{L}^{3}\text{T}^{-1}$ |
$\text{m}^{3}\text{s}^{-1}$ |
$\text{m}^{3}\text{s}^{-1}$ |
| etendue |
$\text{L}^{2}\text{A}^{2}$ |
$\text{m}^{2}$ |
$\text{m}^{2}$ |
| photon intensity |
$\text{T}^{-1}\text{A}^{-2}$ |
$\text{Hz}$ |
$\text{Hz}$ |
| photon irradiance |
$\text{L}^{-2}\text{T}$ |
$\text{Hz} \cdot
\text{m}^{-2}$ |
$\text{Hz} \cdot
\text{m}^{-2}$ |
| photon radiance |
$\text{L}^{-2}\text{T}\cdot
\text{A}^{-2}$ |
$\text{Hz} \cdot
\text{m}^{-2}$ |
$\text{Hz} \cdot
\text{m}^{-2}$ |
|
Unified |
SI2019 |
Conventional |
| inertia |
$\text{F}\cdot
\text{L}^{-1}\text{T}^{2}$ |
$\text{kg}$ |
$\text{kg}$ |
| mass |
$\text{M}$ |
$\text{kg}$ |
$\text{kg}$ |
| mass flow |
$\text{M}\cdot
\text{T}^{-1}$ |
$\text{J} \cdot
\text{m}^{-2} \cdot \text{Hz}^{-1}$ |
$\text{J} \cdot
\text{m}^{-2} \cdot \text{Hz}^{-1}$ |
| linear density |
$\text{M}\cdot
\text{L}^{-1}$ |
$\text{kg}\cdot
\text{m}^{-1}$ |
$\text{kg}\cdot
\text{m}^{-1}$ |
| area density |
$\text{M}\cdot
\text{L}^{-2}$ |
$\text{kg}\cdot
\text{m}^{-2}$ |
$\text{kg}\cdot
\text{m}^{-2}$ |
| density |
$\text{M}\cdot
\text{L}^{-3}$ |
$\text{kg}\cdot
\text{m}^{-3}$ |
$\text{kg}\cdot
\text{m}^{-3}$ |
| specific weight |
$\text{F}\cdot
\text{L}^{-3}$ |
$\text{kg}\cdot
\text{m}^{-2}\text{s}^{-2}$ |
$\text{kg}\cdot
\text{m}^{-2}\text{s}^{-2}$ |
| specific volume |
$\text{M}^{-1}\text{L}^{3}$ |
$\text{kg}^{-1}\text{m}^{3}$ |
$\text{kg}^{-1}\text{m}^{3}$ |
| force |
$\text{F}$ |
$\text{N}$ |
$\text{N}$ |
| specific force |
$\text{F}\cdot
\text{M}^{-1}$ |
$\text{m}\cdot
\text{s}^{-2}$ |
$\text{m}\cdot
\text{s}^{-2}$ |
| gravity force |
$\text{F}^{-1}\text{M}\cdot \text{L}\cdot
\text{T}^{-2}$ |
$\mathbb{1}$ |
$\mathbb{1}$ |
| pressure |
$\text{F}\cdot
\text{L}^{-2}$ |
$\text{Pa}$ |
$\text{Pa}$ |
| compressibility |
$\text{F}^{-1}\text{L}^{2}$ |
$\text{Pa}^{-1}$ |
$\text{Pa}^{-1}$ |
| viscosity |
$\text{F}\cdot
\text{L}^{-2}\text{T}$ |
$\text{Pa} \cdot
\text{s}$ |
$\text{Pa} \cdot
\text{s}$ |
| diffusivity |
$\text{L}^{2}\text{T}^{-1}$ |
$\text{m}^{2}\text{s}^{-1}$ |
$\text{m}^{2}\text{s}^{-1}$ |
| rotational inertia |
$\text{M}\cdot
\text{L}^{2}$ |
$\text{kg}\cdot
\text{m}^{2}$ |
$\text{kg}\cdot
\text{m}^{2}$ |
| impulse |
$\text{F}\cdot
\text{T}$ |
$\text{N} \cdot
\text{s}$ |
$\text{N} \cdot
\text{s}$ |
| momentum |
$\text{M}\cdot
\text{L}\cdot \text{T}^{-1}$ |
$\text{N} \cdot
\text{s}$ |
$\text{N} \cdot
\text{s}$ |
| angular momentum |
$\text{F}\cdot
\text{L}\cdot \text{T}\cdot \text{A}^{-1}$ |
$\text{J} \cdot
\text{s}$ |
$\text{J} \cdot
\text{s}$ |
| yank |
$\text{M}\cdot
\text{L}\cdot \text{T}^{-3}$ |
$\text{N} \cdot
\text{s}^{-1}$ |
$\text{N} \cdot
\text{s}^{-1}$ |
| energy |
$\text{F}\cdot
\text{L}$ |
$\text{J}$ |
$\text{J}$ |
| specific energy |
$\text{F}\cdot
\text{M}^{-1}\text{L}$ |
$\text{J} \cdot
\text{kg}^{-1}$ |
$\text{J} \cdot
\text{kg}^{-1}$ |
| action |
$\text{F}\cdot
\text{L}\cdot \text{T}$ |
$\text{J} \cdot
\text{s}$ |
$\text{J} \cdot
\text{s}$ |
| fluence |
$\text{F}\cdot
\text{L}^{-1}$ |
$\text{N} \cdot
\text{m}^{-1}$ |
$\text{N} \cdot
\text{m}^{-1}$ |
| power |
$\text{F}\cdot
\text{L}\cdot \text{T}^{-1}$ |
$\text{W}$ |
$\text{W}$ |
| power density |
$\text{F}\cdot
\text{L}^{-2}\text{T}^{-1}$ |
$\text{W} \cdot
\text{m}^{-3}$ |
$\text{W} \cdot
\text{m}^{-3}$ |
| irradiance |
$\text{F}\cdot
\text{L}^{-1}\text{T}^{-1}$ |
$\text{W} \cdot
\text{m}^{-2}$ |
$\text{W} \cdot
\text{m}^{-2}$ |
| radiance |
$\text{F}\cdot
\text{L}^{-1}\text{T}^{-1}\text{A}^{-2}$ |
$\text{W} \cdot
\text{m}^{-2}$ |
$\text{W} \cdot
\text{m}^{-2}$ |
| radiant intensity |
$\text{F}\cdot
\text{L}\cdot \text{T}^{-1}\text{A}^{-2}$ |
$\text{W}$ |
$\text{W}$ |
| spectral flux |
$\text{F}\cdot
\text{T}^{-1}$ |
$\text{N} \cdot
\text{s}^{-1}$ |
$\text{N} \cdot
\text{s}^{-1}$ |
| spectral exposure |
$\text{F}\cdot
\text{L}^{-1}\text{T}$ |
$\text{J} \cdot
\text{m}^{-2} \cdot \text{Hz}^{-1}$ |
$\text{J} \cdot
\text{m}^{-2} \cdot \text{Hz}^{-1}$ |
| sound exposure |
$\text{F}^{2}\text{L}^{-4}\text{T}$ |
$\text{kg}^{2}\text{m}^{-2}\text{s}^{-3}$ |
$\text{kg}^{2}\text{m}^{-2}\text{s}^{-3}$ |
| impedance |
$\text{F}\cdot
\text{L}^{-5}\text{T}$ |
$\text{kg}\cdot
\text{m}^{-4}\text{s}^{-1}$ |
$\text{kg}\cdot
\text{m}^{-4}\text{s}^{-1}$ |
| specific impedance |
$\text{F}\cdot
\text{L}^{-3}\text{T}$ |
$\text{kg}\cdot
\text{m}^{-2}\text{s}^{-1}$ |
$\text{kg}\cdot
\text{m}^{-2}\text{s}^{-1}$ |
| admittance |
$\text{F}^{-1}\text{L}^{5}\text{T}^{-1}$ |
$\text{kg}^{-1}\text{m}^{4}\text{s}$ |
$\text{kg}^{-1}\text{m}^{4}\text{s}$ |
| compliance |
$\text{M}^{-1}\text{T}^{2}$ |
$\text{m} \cdot
\text{N}^{-1}$ |
$\text{m} \cdot
\text{N}^{-1}$ |
| inertance |
$\text{M}\cdot
\text{L}^{-4}$ |
$\text{kg}\cdot
\text{m}^{-4}$ |
$\text{kg}\cdot
\text{m}^{-4}$ |
|
Unified |
SI2019 |
Conventional |
| charge |
$\text{Q}$ |
$\text{C}$ |
$\text{C}$ |
| charge density |
$\text{L}^{-3}\text{Q}$ |
$\text{m}^{-3}\text{C}$ |
$\text{m}^{-3}\text{C}$ |
| linear charge
density |
$\text{L}^{-1}\text{Q}$ |
$\text{m}^{-1}\text{C}$ |
$\text{m}^{-1}\text{C}$ |
| exposure |
$\text{M}^{-1}\text{Q}$ |
$\text{kg}^{-1}\text{C}$ |
$\text{kg}^{-1}\text{C}$ |
| mobility |
$\text{F}\cdot
\text{L}^{3}\text{T}^{-1}\text{Q}^{-1}$ |
$\text{m}^2
\text{s}^{-1} \text{V}^{-1}$ |
$\text{m}^2
\text{s}^{-1} \text{V}^{-1}$ |
| current |
$\text{T}^{-1}\text{Q}$ |
$\text{s}^{-1}\text{C}$ |
$\text{s}^{-1}\text{C}$ |
| current density |
$\text{L}^{-2}\text{T}^{-1}\text{Q}$ |
$\text{m}^{-2}\text{s}^{-1}\text{C}$ |
$\text{m}^{-2}\text{s}^{-1}\text{C}$ |
| resistance |
$\text{F}\cdot
\text{L}\cdot \text{T}\cdot \text{Q}^{-2}$ |
$\Omega$ |
$\Omega$ |
| conductance |
$\text{F}^{-1}\text{L}^{-1}\text{T}^{-1}\text{Q}^{2}$ |
$\text{S}$ |
$\text{S}$ |
| resistivity |
$\text{F}\cdot
\text{L}^{2}\text{T}\cdot \text{Q}^{-2}$ |
$\Omega \cdot
\text{m}$ |
$\Omega \cdot
\text{m}$ |
| conductivity |
$\text{F}^{-1}\text{L}^{-2}\text{T}^{-1}\text{Q}^{2}$ |
$\text{S} \cdot
\text{m}^{-1}$ |
$\text{S} \cdot
\text{m}^{-1}$ |
| capacitance |
$\text{F}^{-1}\text{L}^{-1}\text{Q}^{2}$ |
$\text{F}$ |
$\text{F}$ |
| inductance |
$\text{F}\cdot
\text{L}\cdot \text{T}^{2}\text{Q}^{-2}$ |
$\text{H}$ |
$\text{H}$ |
| reluctance |
$\text{F}^{-1}\text{L}^{-1}\text{T}^{-2}\text{Q}^{2}\text{R}\cdot
\text{C}^{-2}$ |
$\text{H}^{-1}$ |
$\text{H}^{-1}$ |
| permeance |
$\text{F}\cdot
\text{L}\cdot
\text{T}^{2}\text{Q}^{-2}\text{R}^{-1}\text{C}^{2}$ |
$\text{H}$ |
$\text{H}$ |
| permittivity |
$\text{F}^{-1}\text{L}^{-2}\text{Q}^{2}\text{R}$ |
$\text{F} \cdot
\text{m}^{-1}$ |
$\text{F} \cdot
\text{m}^{-1}$ |
| permeability |
$\text{F}\cdot
\text{T}^{2}\text{Q}^{-2}\text{R}^{-1}\text{C}^{2}$ |
$\text{H} \cdot
\text{m}^{-1}$ |
$\text{H} \cdot
\text{m}^{-1}$ |
| susceptibility |
$\text{R}^{-1}$ |
$\mathbb{1}$ |
$\mathbb{1}$ |
| specific
susceptibility |
$\text{M}^{-1}\text{L}^{3}\text{A}^{-1}\text{R}^{-1}$ |
$\text{kg}^{-1}\text{m}^{3}$ |
$\text{kg}^{-1}\text{m}^{3}$ |
| demagnetizing factor |
$\text{R}$ |
$\mathbb{1}$ |
$\mathbb{1}$ |
| vector potential |
$\text{F}\cdot
\text{T}\cdot \text{Q}^{-1}\text{C}$ |
$\text{Wb} \cdot
\text{m}^{-1}$ |
$\text{Wb} \cdot
\text{m}^{-1}$ |
| electric potential |
$\text{F}\cdot
\text{L}\cdot \text{Q}^{-1}$ |
$\text{V}$ |
$\text{V}$ |
| magnetic potential |
$\text{T}^{-1}\text{Q}\cdot \text{R}\cdot
\text{C}^{-1}$ |
$\text{s}^{-1}\text{C}$ |
$\text{s}^{-1}\text{C}$ |
| electric field |
$\text{F}\cdot
\text{Q}^{-1}$ |
$\text{V} \cdot
\text{m}^{-1}$ |
$\text{V} \cdot
\text{m}^{-1}$ |
| magnetic field |
$\text{L}^{-1}\text{T}^{-1}\text{Q}\cdot
\text{R}\cdot \text{C}^{-1}$ |
$\text{m}^{-1}\text{s}^{-1}\text{C}$ |
$\text{m}^{-1}\text{s}^{-1}\text{C}$ |
| electric flux |
$\text{F}\cdot
\text{L}^{2}\text{Q}^{-1}$ |
$\text{V} \cdot
\text{m}$ |
$\text{V} \cdot
\text{m}$ |
| magnetic flux |
$\text{F}\cdot
\text{L}\cdot \text{T}\cdot
\text{Q}^{-1}\text{C}$ |
$\text{Wb}$ |
$\text{Wb}$ |
| electric
displacement |
$\text{L}^{-2}\text{Q}\cdot \text{R}$ |
$\text{m}^{-2}\text{C}$ |
$\text{m}^{-2}\text{C}$ |
| magnetic flux
density |
$\text{F}\cdot
\text{L}^{-1}\text{T}\cdot
\text{Q}^{-1}\text{C}$ |
$\text{T}$ |
$\text{T}$ |
| electric dipole
moment |
$\text{L}\cdot
\text{Q}$ |
$\text{m}\cdot
\text{C}$ |
$\text{m}\cdot
\text{C}$ |
| magnetic dipole
moment |
$\text{L}^{2}\text{T}^{-1}\text{Q}\cdot
\text{A}^{-1}\text{C}^{-1}$ |
$\text{J} \cdot
\text{T}^{-1}$ |
$\text{J} \cdot
\text{T}^{-1}$ |
| electric
polarizability |
$\text{F}^{-1}\text{L}\cdot
\text{Q}^{2}$ |
$\text{kg}^{-1}\text{s}^{2}\text{C}^{2}$ |
$\text{kg}^{-1}\text{s}^{2}\text{C}^{2}$ |
| magnetic
polarizability |
$\text{L}^{3}\text{A}^{-1}\text{R}^{-1}$ |
$\text{m}^{3}$ |
$\text{m}^{3}$ |
| magnetic moment |
$\text{F}\cdot
\text{L}^{2}\text{T}\cdot
\text{Q}^{-1}\text{C}$ |
$\text{Wb} \cdot
\text{m}$ |
$\text{Wb} \cdot
\text{m}$ |
| specific
magnetization |
$\text{F}^{-1}\text{M}\cdot
\text{L}^{-2}\text{T}^{-1}\text{Q}\cdot
\text{C}^{-1}$ |
$\text{m}^{-3}\text{s}\cdot \text{C}$ |
$\text{m}^{-3}\text{s}\cdot \text{C}$ |
| pole strength |
$\text{L}\cdot
\text{T}^{-1}\text{Q}\cdot
\text{A}^{-1}\text{C}^{-1}$ |
$\text{m}\cdot
\text{s}^{-1}\text{C}$ |
$\text{m}\cdot
\text{s}^{-1}\text{C}$ |
|
Unified |
SI2019 |
Conventional |
| temperature |
$\Theta$ |
$\text{K}$ |
$\text{K}$ |
| entropy |
$\text{F}\cdot
\text{L}\cdot \Theta^{-1}$ |
$\text{J} \cdot
\text{K}^{-1}$ |
$\text{J} \cdot
\text{K}^{-1}$ |
| specific entropy |
$\text{F}\cdot
\text{M}^{-1}\text{L}\cdot \Theta^{-1}$ |
$\text{J} \cdot
\text{K}^{-1} \text{kg}^{-1}$ |
$\text{J} \cdot
\text{K}^{-1} \text{kg}^{-1}$ |
| volume heat capacity |
$\text{F}\cdot
\text{L}^{-2}\Theta^{-1}$ |
$\text{kg}\cdot
\text{m}^{-1}\text{s}^{-2}\text{K}^{-1}$ |
$\text{kg}\cdot
\text{m}^{-1}\text{s}^{-2}\text{K}^{-1}$ |
| thermal conductivity |
$\text{F}\cdot
\text{T}^{-1}\Theta^{-1}$ |
$\text{W} \cdot
\text{m}^{-1} \text{K}^{-1}$ |
$\text{W} \cdot
\text{m}^{-1} \text{K}^{-1}$ |
| thermal conductance |
$\text{F}\cdot
\text{L}\cdot \text{T}^{-1}\Theta^{-1}$ |
$\text{W} \cdot
\text{K}^{-1}$ |
$\text{W} \cdot
\text{K}^{-1}$ |
| thermal resistivity |
$\text{F}^{-1}\text{T}\cdot \Theta$ |
$\text{K} \cdot
\text{m} \cdot \text{W}^{-1}$ |
$\text{K} \cdot
\text{m} \cdot \text{W}^{-1}$ |
| thermal resistance |
$\text{F}^{-1}\text{L}^{-1}\text{T}\cdot
\Theta$ |
$\text{K} \cdot
\text{W}^{-1}$ |
$\text{K} \cdot
\text{W}^{-1}$ |
| thermal expansion |
$\Theta^{-1}$ |
$\text{K}^{-1}$ |
$\text{K}^{-1}$ |
| lapse rate |
$\text{L}^{-1}\Theta$ |
$\text{m}^{-1}\text{K}$ |
$\text{m}^{-1}\text{K}$ |
|
Unified |
SI2019 |
Conventional |
| molar mass |
$\text{M}\cdot
\text{N}^{-1}$ |
$\text{kg}\cdot
\text{mol}^{-1}$ |
$\text{kg}\cdot
\text{mol}^{-1}$ |
| molality |
$\text{M}^{-1}\text{N}$ |
$\text{kg}^{-1}\text{mol}$ |
$\text{kg}^{-1}\text{mol}$ |
| molar amount |
$\text{N}$ |
$\text{mol}$ |
$\text{mol}$ |
| molarity |
$\text{L}^{-3}\text{N}$ |
$\text{m}^{-3}\text{mol}$ |
$\text{m}^{-3}\text{mol}$ |
| molar volume |
$\text{L}^{3}\text{N}^{-1}$ |
$\text{m}^{3}\text{mol}^{-1}$ |
$\text{m}^{3}\text{mol}^{-1}$ |
| molar entropy |
$\text{F}\cdot
\text{L}\cdot \Theta^{-1}\text{N}^{-1}$ |
$\text{J} \cdot
\text{K}^{-1} \text{mol}^{-1}$ |
$\text{J} \cdot
\text{K}^{-1} \text{mol}^{-1}$ |
| molar energy |
$\text{F}\cdot
\text{L}\cdot \text{N}^{-1}$ |
$\text{J} \cdot
\text{mol}^{-1}$ |
$\text{J} \cdot
\text{mol}^{-1}$ |
| molar conductivity |
$\text{F}^{-1}\text{T}^{-1}\text{Q}^{2}\text{N}^{-1}$ |
$\text{S} \cdot
\text{m}^2 \text{mol}^{-1}$ |
$\text{S} \cdot
\text{m}^2 \text{mol}^{-1}$ |
| molar susceptibility |
$\text{L}^{3}\text{N}^{-1}\text{A}^{-1}\text{R}^{-1}$ |
$\text{m}^{3}\text{mol}^{-1}$ |
$\text{m}^{3}\text{mol}^{-1}$ |
| catalysis |
$\text{T}^{-1}\text{N}$ |
$\text{kat}$ |
$\text{kat}$ |
| specificity |
$\text{L}^{3}\text{T}^{-1}\text{N}^{-1}$ |
$\text{m}^{3}\text{s}^{-1}\text{mol}^{-1}$ |
$\text{m}^{3}\text{s}^{-1}\text{mol}^{-1}$ |
| diffusion flux |
$\text{L}^{-2}\text{T}\cdot \text{N}$ |
$\text{m}^{-2}\text{s}\cdot
\text{mol}$ |
$\text{m}^{-2}\text{s}\cdot
\text{mol}$ |
