Conventional -> Metric

data derived with UnitSystems.jl DOI

Kinematic Ratios

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 $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$

Mechanical Ratios

Name Quantity Product
inertia $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
mass $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
mass flow $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
linear density $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
area density $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
density $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
specific weight $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
specific volume $0.9999998044634832$ $\left[\text{kg}^{-1}\right]/\left[\text{kg}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
force $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
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 $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
compressibility $0.9999998044634832$ $\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
viscosity $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
diffusivity $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
rotational inertia $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
impulse $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
momentum $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
angular momentum $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
yank $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
energy $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
specific energy $1.0$ $\left[\text{m}\cdot \text{s}^{-2}\right]/\left[\text{m}\cdot \text{s}^{-2}\right]$ $1$
action $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
fluence $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
power $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
power density $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
irradiance $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
radiance $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
radiant intensity $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
spectral flux $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
spectral exposure $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
sound exposure $1.0000003910731479$ $\left[\text{kg}^{2}\text{m}^{2}\text{s}^{-4}\right]/\left[\text{kg}^{2}\text{m}^{2}\text{s}^{-4}\right]$ $\hbar^{2}{\text{R}_\text{K}^{90}}^{2}{\text{K}_\text{J}^{90}}^{4}2^{-4}$
impedance $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
specific impedance $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
admittance $0.9999998044634832$ $\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
compliance $0.9999998044634832$ $\left[\text{kg}^{-1}\right]/\left[\text{kg}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
inertance $1.000000195536555$ $\left[\text{kg}\right]/\left[\text{kg}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$

Electromagnetic Ratios

Name Quantity Product
charge $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
charge density $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
linear charge density $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
exposure $0.999999893608(77)$ $\left[\text{kg}^{-1}\text{C}\right]/\left[\text{kg}^{-1}\text{C}\right]$ $\hbar^{-1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{K}_\text{J}^{90}}^{-1}\tau^{-1/2}2^{9/2}5^{7/2}$
mobility $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
current $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
current density $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
resistance $1.00000001725(15)$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]$ $\text{c}\cdot \alpha^{-1}{\text{R}_\text{K}^{90}}^{-1}\tau\cdot 2^{-7}5^{-7}$
conductance $0.99999998275(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ $\text{c}^{-1}\alpha\cdot {\text{R}_\text{K}^{90}}\cdot \tau^{-1}2^{7}5^{7}$
resistivity $1.00000001725(15)$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]$ $\text{c}\cdot \alpha^{-1}{\text{R}_\text{K}^{90}}^{-1}\tau\cdot 2^{-7}5^{-7}$
conductivity $0.99999998275(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ $\text{c}^{-1}\alpha\cdot {\text{R}_\text{K}^{90}}\cdot \tau^{-1}2^{7}5^{7}$
capacitance $0.99999998275(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ $\text{c}^{-1}\alpha\cdot {\text{R}_\text{K}^{90}}\cdot \tau^{-1}2^{7}5^{7}$
inductance $1.00000001725(15)$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]$ $\text{c}\cdot \alpha^{-1}{\text{R}_\text{K}^{90}}^{-1}\tau\cdot 2^{-7}5^{-7}$
reluctance $0.99999998275(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ $\text{c}^{-1}\alpha\cdot {\text{R}_\text{K}^{90}}\cdot \tau^{-1}2^{7}5^{7}$
permeance $1.00000001725(15)$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]$ $\text{c}\cdot \alpha^{-1}{\text{R}_\text{K}^{90}}^{-1}\tau\cdot 2^{-7}5^{-7}$
permittivity $0.99999998275(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ $\text{c}^{-1}\alpha\cdot {\text{R}_\text{K}^{90}}\cdot \tau^{-1}2^{7}5^{7}$
permeability $1.00000001725(15)$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{C}^{-2}\right]$ $\text{c}\cdot \alpha^{-1}{\text{R}_\text{K}^{90}}^{-1}\tau\cdot 2^{-7}5^{-7}$
susceptibility $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
specific susceptibility $0.9999998044634832$ $\left[\text{kg}^{-1}\right]/\left[\text{kg}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
demagnetizing factor $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
vector potential $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
electric potential $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
magnetic potential $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
electric field $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
magnetic field $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
electric flux $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
magnetic flux $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
electric displacement $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
magnetic flux density $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
electric dipole moment $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
magnetic dipole moment $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
electric polarizability $0.99999998275(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\right]$ $\text{c}^{-1}\alpha\cdot {\text{R}_\text{K}^{90}}\cdot \tau^{-1}2^{7}5^{7}$
magnetic polarizability $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
magnetic moment $1.000000106393(77)$ $\left[\text{V} \cdot \text{m}^{-1}\right]/\left[\text{V} \cdot \text{m}^{-1}\right]$ $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{K}_\text{J}^{90}}\cdot \tau^{1/2}2^{-9/2}5^{-7/2}$
specific magnetization $1.000000089144(77)$ $\left[\text{m}^{-1}\text{s}^{2}\text{C}\right]/\left[\text{m}^{-1}\text{s}^{2}\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$
pole strength $1.000000089144(77)$ $\left[\text{C}\right]/\left[\text{C}\right]$ $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}{\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}\cdot \tau^{-1/2}2^{5/2}5^{7/2}$

Thermodynamic Ratios

Name Quantity Product
temperature $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
entropy $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
specific entropy $1.0$ $\left[\text{m}\cdot \text{s}^{-2}\right]/\left[\text{m}\cdot \text{s}^{-2}\right]$ $1$
volume heat capacity $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
thermal conductivity $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
thermal conductance $1.000000195536555$ $\left[\text{N}\right]/\left[\text{N}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
thermal resistivity $0.9999998044634832$ $\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
thermal resistance $0.9999998044634832$ $\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
thermal expansion $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
lapse rate $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$

Molar Ratios

Name Quantity Product
molar mass $1.0$ $\left[\text{kg}\cdot \text{mol}^{-1}\right]/\left[\text{kg}\cdot \text{mol}^{-1}\right]$ $1$
molality $1.0$ $\left[\text{kg}^{-1}\text{mol}\right]/\left[\text{kg}^{-1}\text{mol}\right]$ $1$
molar amount $1.000000195536555$ $\left[\text{mol}\right]/\left[\text{mol}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
molarity $1.000000195536555$ $\left[\text{mol}\right]/\left[\text{mol}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
molar volume $0.9999998044634832$ $\left[\text{mol}^{-1}\right]/\left[\text{mol}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
molar entropy $1.0$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{mol}^{-1}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{mol}^{-1}\right]$ $1$
molar energy $1.0$ $\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{mol}^{-1}\right]/\left[\text{kg}\cdot \text{m}\cdot \text{s}^{-2}\text{mol}^{-1}\right]$ $1$
molar conductivity $0.99999978722(15)$ $\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\text{mol}^{-1}\right]/\left[\text{kg}^{-1}\text{m}^{-1}\text{s}^{2}\text{C}^{2}\text{mol}^{-1}\right]$ $\hbar^{-1}\text{c}^{-1}\alpha\cdot {\text{K}_\text{J}^{90}}^{-2}\tau^{-1}2^{9}5^{7}$
molar susceptibility $0.9999998044634832$ $\left[\text{mol}^{-1}\right]/\left[\text{mol}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
catalysis $1.000000195536555$ $\left[\text{mol}\right]/\left[\text{mol}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$
specificity $0.9999998044634832$ $\left[\text{mol}^{-1}\right]/\left[\text{mol}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$
diffusion flux $1.000000195536555$ $\left[\text{mol}\right]/\left[\text{mol}\right]$ $\hbar\cdot {\text{R}_\text{K}^{90}}\cdot {\text{K}_\text{J}^{90}}^{2}2^{-2}$

Photometric Ratios

Name Quantity Product
luminous flux $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
luminous intensity $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
luminance $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
illuminance $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
luminous energy $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
luminous exposure $1.0$ $\left[\mathbb{1}\right]/\left[\mathbb{1}\right]$ $1$
luminous efficacy $0.9999998044634832$ $\left[\text{N}^{-1}\right]/\left[\text{N}^{-1}\right]$ $\hbar^{-1}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-2}2^{2}$

Kinematic

Unified Conventional Metric
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 $\text{L}^{-2}\text{T}\cdot \text{A}^{-2}$ $\text{Hz} \cdot \text{m}^{-2}$ $\text{Hz} \cdot \text{m}^{-2}$

Mechanical

Unified Conventional Metric
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 $\text{M}\cdot \text{L}^{-4}$ $\text{kg}\cdot \text{m}^{-4}$ $\text{kg}\cdot \text{m}^{-4}$

Electromagnetic

Unified Conventional Metric
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 $\text{L}\cdot \text{T}^{-1}\text{Q}\cdot \text{A}^{-1}\text{C}^{-1}$ $\text{m}\cdot \text{s}^{-1}\text{C}$ $\text{m}\cdot \text{s}^{-1}\text{C}$

Thermodynamic

Unified Conventional Metric
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 $\text{L}^{-1}\Theta$ $\text{m}^{-1}\text{K}$ $\text{m}^{-1}\text{K}$

Molar

Unified Conventional Metric
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 $\text{L}^{-2}\text{T}\cdot \text{N}$ $\text{m}^{-2}\text{s}\cdot \text{mol}$ $\text{m}^{-2}\text{s}\cdot \text{mol}$

Photometric

Unified Conventional Metric
luminous flux $\text{J}$ $\text{cd}$ $\text{cd}$
luminous intensity $\text{J}\cdot \text{A}^{-2}$ $\text{cd}$ $\text{cd}$
luminance $\text{L}^{-2}\text{J}\cdot \text{A}^{-2}$ $\text{lx}$ $\text{lx}$
illuminance $\text{L}^{-2}\text{J}$ $\text{lx}$ $\text{lx}$
luminous energy $\text{T}\cdot \text{J}$ $\text{s}\cdot \text{lm}$ $\text{s}\cdot \text{lm}$
luminous exposure $\text{L}^{-2}\text{T}\cdot \text{J}$ $\text{lx} \cdot \text{s}$ $\text{lx} \cdot \text{s}$
luminous efficacy $\text{F}^{-1}\text{L}^{-1}\text{T}\cdot \text{J}$ $\text{lm} \cdot \text{W}^{-1}$ $\text{lm} \cdot \text{W}^{-1}$