| Name | Quantity | Product |
|---|
| hyperfine transition | $9.19263177 \times 10^{9}$ $[\text{Hz}]$ | $\Delta\nu_\text{Cs}$ |
| light speed | $2.9935896996(30) \times 10^{8}$ $[\text{em}\cdot \text{s}^{-1}]$ | $\text{c}\cdot \text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| Planck | $6.578303310(33) \times 10^{-34}$ $[\text{eJ} \cdot \text{s}]$ | $\hbar\cdot \text{g}_0^{5/2}\text{GM}_\text{E}^{-5/2}\tau^{-5}2^{45}5^{35}$ |
| Planck reduced | $1.0469694890(53) \times 10^{-34}$ $[\text{eJ} \cdot \text{s}]$ | $\hbar\cdot \text{g}_0^{5/2}\text{GM}_\text{E}^{-5/2}\tau^{-6}2^{45}5^{35}$ |
| electron mass | $9.069925385(27) \times 10^{-31}$ $[\text{keg}]$ | $\hbar\cdot \text{c}^{-1}\text{R}_{\infty}\cdot \alpha^{-2}\text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{-3}2^{28}5^{21}$ |
| molar mass | $0.001$ $[\text{keg}\cdot \text{eg-mol}^{-1}]$ | $2^{-3}5^{-3}$ |
| Boltzmann | $1.3706960050(69) \times 10^{-23}$ $[\text{eJ} \cdot \text{K}^{-1}]$ | $\text{k}_\text{B}\cdot \text{N}_\text{A}\cdot \hbar\cdot \text{c}^{-1}\text{R}_{\infty}\cdot \alpha^{-2}\mu_\text{eu}^{-1}\text{g}_0^{5/2}\text{GM}_\text{E}^{-5/2}\tau^{-5}2^{49}5^{38}$ |
| vacuum permeability | $1.2566370614359173 \times 10^{-6}$ $[\text{eH} \cdot \text{em}^{-1}]$ | $\tau\cdot 2^{-6}5^{-7}$ |
| rationalization | $1.0$ $[\mathbb{1}]$ | $1$ |
| Lorentz | $1.0$ $[\mathbb{1}]$ | $1$ |
| luminous efficacy | $687.9792808(35)$ $[\text{lm} \cdot \text{eW}^{-1}]$ | $\text{K}_\text{cd}\cdot \text{g}_0^{-5/2}\text{GM}_\text{E}^{5/2}\tau^{5}2^{-45}5^{-35}$ |
| gravity | $1.0$ $[\mathbb{1}]$ | $1$ |
| radian | $1.0$ $[\mathbb{1}]$ | $1$ |
| turn | $6.283185307179586$ $[\mathbb{1}]$ | $\tau$ |
| spat | $12.566370614359172$ $[\mathbb{1}]$ | $\tau\cdot 2$ |
| Dalton | $1.6533462556(50) \times 10^{-27}$ $[\text{keg}]$ | $\hbar\cdot \text{c}^{-1}\text{R}_{\infty}\cdot \alpha^{-2}\mu_\text{eu}^{-1}\text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{-3}2^{28}5^{21}$ |
| proton mass | $1.6653767744(50) \times 10^{-27}$ $[\text{keg}]$ | $\hbar\cdot \text{c}^{-1}\text{R}_{\infty}\cdot \alpha^{-2}\mu_\text{eu}^{-1}\mu_\text{pu}\cdot \text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{-3}2^{28}5^{21}$ |
| Planck mass | $2.167007(24) \times 10^{-8}$ $[\text{keg}]$ | $\text{g}_0^{3/2}\text{m}_\text{P}\cdot \text{GM}_\text{E}^{-3/2}\tau^{-3}2^{27}5^{21}$ |
| Newton gravitation | $6.67430(15) \times 10^{-11}$ $[\text{keg}^{-1}\text{em}^{3}\text{s}^{-2}]$ | $\hbar\cdot \text{c}\cdot \text{m}_\text{P}^{-2}\tau^{-1}$ |
| Gauss gravitation | $1.990983676471466 \times 10^{-7}$ $[\text{Hz}]$ | $\text{k}_\text{G}\cdot \tau\cdot 2^{-14}3^{-7}5^{-5}$ |
| Einstein gravitation | $2.088703(46) \times 10^{-43}$ $[\text{eN}^{-1}]$ | $\hbar\cdot \text{c}^{-3}\text{g}_0^{-2}\text{m}_\text{P}^{-2}\text{GM}_\text{E}^{2}\tau^{4}2^{-34}5^{-28}$ |
| Hartree | $4.328315651(22) \times 10^{-18}$ $[\text{eJ}]$ | $\hbar\cdot \text{c}\cdot \text{R}_{\infty}\cdot \text{g}_0^{5/2}\text{GM}_\text{E}^{-5/2}\tau^{-5}2^{46}5^{35}$ |
| Rydberg | $1.0989622127(11) \times 10^{7}$ $[\text{em}^{-1}]$ | $\text{R}_{\infty}\cdot \text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2^{-9}5^{-7}$ |
| Bohr radius | $5.2841204157(54) \times 10^{-11}$ $[\text{em}]$ | $\text{R}_{\infty}^{-1}\alpha\cdot \text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-2}2^{8}5^{7}$ |
| electron radius | $2.8138656959(31) \times 10^{-15}$ $[\text{em}]$ | $\text{R}_{\infty}^{-1}\alpha^{3}\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-2}2^{8}5^{7}$ |
| Avogadro | $6.048339824(18) \times 10^{23}$ $[\text{eg-mol}^{-1}]$ | $\hbar^{-1}\text{c}\cdot \text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \text{g}_0^{-3/2}\text{GM}_\text{E}^{3/2}\tau^{3}2^{-31}5^{-24}$ |
| Molar gas | $8.290435233(17)$ $[\text{eJ} \cdot \text{K}^{-1} \text{eg-mol}^{-1}]$ | $\text{k}_\text{B}\cdot \text{N}_\text{A}\cdot \text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{18}5^{14}$ |
| Stefan-Boltzmann | $5.645812549(18) \times 10^{-8}$ $[\text{eW} \cdot \text{em}^{-2} \text{K}^{-4}]$ | $\text{k}_\text{B}^{4}\text{N}_\text{A}^{4}\hbar\cdot \text{c}^{-6}\text{R}_{\infty}^{4}\alpha^{-8}\mu_\text{eu}^{-4}\text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{2}2^{39}3^{-1}5^{32}$ |
| radiation density | $7.543869556(18) \times 10^{-16}$ $[\text{eJ} \cdot \text{em}^{-3} \text{K}^{-4}]$ | $\text{k}_\text{B}^{4}\text{N}_\text{A}^{4}\hbar\cdot \text{c}^{-7}\text{R}_{\infty}^{4}\alpha^{-8}\mu_\text{eu}^{-4}\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{3}2^{32}3^{-1}5^{25}$ |
| vacuum permittivity | $8.879849073(18) \times 10^{-12}$ $[\text{eF} \cdot \text{em}^{-1}]$ | $\text{c}^{-2}\text{g}_0^{-1}\text{GM}_\text{E}\cdot \tau\cdot 2^{-12}5^{-7}$ |
| electrostatic | $8.961579289(18) \times 10^{9}$ $[\text{em} \cdot \text{eF}^{-1}]$ | $\text{c}^{2}\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{11}5^{7}$ |
| magnetostatic | $1.0000000000000001 \times 10^{-7}$ $[\text{eH} \cdot \text{em}^{-1}]$ | $2^{-7}5^{-7}$ |
| Biot-Savart | $1.0000000000000001 \times 10^{-7}$ $[\text{eH} \cdot \text{em}^{-1}]$ | $2^{-7}5^{-7}$ |
| elementary charge | $1.5975466161(32) \times 10^{-19}$ $[\text{eC}]$ | $\hbar^{1/2}\text{c}^{-1/2}\alpha^{1/2}\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-5/2}2^{43/2}5^{35/2}$ |
| Faraday | $96625.04818(10)$ $[\text{eC}\cdot \text{eg-mol}^{-1}]$ | $\hbar^{-1/2}\text{c}^{1/2}\text{R}_{\infty}^{-1}\alpha^{5/2}\mu_\text{eu}\cdot \text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau^{1/2}2^{-19/2}5^{-13/2}$ |
| vacuum impedance | $376.18557632(38)$ $[\text{e}\Omega]$ | $\text{c}\cdot \text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}2^{3}$ |
| conductance quantum | $7.7593113917(79) \times 10^{-5}$ $[\text{eS}]$ | $\text{c}^{-1}\alpha\cdot \text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{-1}$ |
| Klitzing | $25775.483146(26)$ $[\text{e}\Omega]$ | $\text{c}\cdot \alpha^{-1}\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}2^{2}$ |
| Josephson | $4.857017200(15) \times 10^{14}$ $[\text{Hz} \cdot \text{eV}^{-1}]$ | $\hbar^{-1/2}\text{c}^{-1/2}\alpha^{1/2}\text{g}_0^{-3/2}\text{GM}_\text{E}^{3/2}\tau^{5/2}2^{-45/2}5^{-35/2}$ |
| magnetic flux quantum | $2.0588767939(62) \times 10^{-15}$ $[\text{eWb}]$ | $\hbar^{1/2}\text{c}^{1/2}\alpha^{-1/2}\text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{-5/2}2^{45/2}5^{35/2}$ |
| magneton | $9.220486901(37) \times 10^{-24}$ $[\text{eJ} \cdot \text{eT}^{-1}]$ | $\hbar^{1/2}\text{c}^{1/2}\text{R}_{\infty}^{-1}\alpha^{5/2}\text{g}_0^{2}\text{GM}_\text{E}^{-2}\tau^{-11/2}2^{75/2}5^{63/2}$ |
| Loschmidt | $2.6984688319(81) \times 10^{25}$ $[\text{em}^{-3}]$ | $\text{k}_\text{B}^{-1}\text{g}_0^{-3/2}\text{T}_0^{-1}\text{atm}\cdot \text{GM}_\text{E}^{3/2}\tau^{3}2^{-27}5^{-21}$ |
| Eddington | $2.543(19) \times 10^{52}$ $[\text{keg}]$ | $\hbar^{-1}\text{c}^{2}\Omega_{\Lambda}^{-1/2}\text{H}_0^{-1}\text{g}_0^{3/2}\text{au}\cdot \text{m}_\text{P}^{2}\text{GM}_\text{E}^{-3/2}\tau^{-7/2}2^{36}3^{7/2}5^{27}$ |
| solar mass | $1.979796(44) \times 10^{30}$ $[\text{keg}]$ | $\hbar^{-1}\text{c}^{-1}\text{g}_0^{3/2}\text{au}^{3}\text{k}_\text{G}^{2}\text{m}_\text{P}^{2}\text{GM}_\text{E}^{-3/2}2^{-1}3^{-14}5^{11}$ |
| Jupiter mass | $1.889902(42) \times 10^{27}$ $[\text{keg}]$ | $\hbar^{-1}\text{c}^{-1}\text{g}_0^{3/2}\text{m}_\text{P}^{2}\text{GM}_\text{E}^{-3/2}\text{GM}_\text{J}\cdot \tau^{-2}2^{27}5^{21}$ |
| Earth mass | $5.94630(13) \times 10^{24}$ $[\text{keg}]$ | $\hbar^{-1}\text{c}^{-1}\text{g}_0^{3/2}\text{m}_\text{P}^{2}\text{GM}_\text{E}^{-1/2}\tau^{-2}2^{27}5^{21}$ |
| g-force | $9.7924699717(98)$ $[\text{em}\cdot \text{s}^{-2}]$ | $\text{g}_0^{3/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| Earth radius | $6.3661977236758135 \times 10^{6}$ $[\text{em}]$ | $\tau^{-1}2^{9}5^{7}$ |
| great circle | $4.0 \times 10^{7}$ $[\text{em}]$ | $2^{9}5^{7}$ |
| nautical mile | $1851.8518518518522$ $[\text{em}]$ | $2^{4}3^{-3}5^{5}$ |
| Hubble | $2.193(14) \times 10^{-18}$ $[\text{Hz}]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ |
| cosmological | $1.109(16) \times 10^{-52}$ $[\text{em}^{-2}]$ | $\text{c}^{-2}\Omega_{\Lambda}\cdot \text{H}_0^{2}\text{g}_0^{-1}\text{au}^{-2}\text{GM}_\text{E}\cdot \tau^{4}2^{-38}3^{-7}5^{-26}$ |
| Name | Quantity | Product |
|---|
| angstrom | $9.985540395(10) \times 10^{-11}$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{-1}5^{-3}$ |
| inch | $0.025363272604(25)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{7}3^{-1}5^{7}$ |
| foot | $0.30435927125(31)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| survey foot | $0.30435987997(31)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}_\text{US}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| yard | $0.91307781374(92)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}3\cdot 5^{7}$ |
| meter | $0.9985540395(10)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| Earth meter | $1.0$ $[\text{em}]$ | $1$ |
| mile | $1607.0169522(16)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{14}3\cdot 5^{8}11$ |
| statute mile | $1607.0201662(16)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}_\text{US}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{14}3\cdot 5^{8}11$ |
| meridian mile | $1849.1741473(19)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{13}3^{-3}5^{12}$ |
| admiralty mile | $1850.50436920(19)$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{ft}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{15}5^{8}19$ |
| nautical mile | $1851.8518518518522$ $[\text{em}]$ | $2^{4}3^{-3}5^{5}$ |
| lunar distance | $3.8384317424(39) \times 10^{8}$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{12}3^{3}5^{10}14237$ |
| astronomical unit | $1.4938155809(15) \times 10^{11}$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{au}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| Jupiter distance | $7.7735335014(78) \times 10^{11}$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{15}3\cdot 5^{13}259493$ |
| light-year | $9.4470506303(95) \times 10^{15}$ $[\text{em}]$ | $\text{c}\cdot \text{g}_0^{1/2}\text{a}_\text{j}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-1}2^{16}3^{3}5^{9}$ |
| parsec | $3.0812158137(31) \times 10^{16}$ $[\text{em}]$ | $\text{g}_0^{1/2}\text{au}\cdot \text{GM}_\text{E}^{-1/2}\tau^{-2}2^{16}3^{4}5^{10}$ |
| Name | Quantity | Product |
|---|
| hertz | $1.0$ $[\text{Hz}]$ | $1$ |
| actions per minute | $0.016666666666666666$ $[\text{Hz}]$ | $2^{-2}3^{-1}5^{-1}$ |
| revolutions per minute | $0.10471975511965977$ $[\text{Hz}]$ | $\tau\cdot 2^{-2}3^{-1}5^{-1}$ |
| kayser | $100.144805430(10)$ $[\text{em}^{-1}]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2^{-7}5^{-5}$ |
| diopter | $1.0014480543(10)$ $[\text{em}^{-1}]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2^{-9}5^{-7}$ |
| rayleigh | $1.0028982055(20) \times 10^{10}$ $[\text{Hz} \cdot \text{m}^{-2}]$ | $\text{g}_0^{-1}\text{GM}_\text{E}\cdot \tau^{2}2^{-8}5^{-4}$ |
| flick | $9.971101699(20) \times 10^{9}$ $[\text{eW} \cdot \text{m}^{-3}]$ | $\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{28}5^{24}$ |
| g-force | $9.7924699717(98)$ $[\text{em}\cdot \text{s}^{-2}]$ | $\text{g}_0^{3/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| galileo | $0.009985540395(10)$ $[\text{em}\cdot \text{s}^{-2}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{7}5^{5}$ |
| eotvos | $1.0 \times 10^{-9}$ $[\text{Hz} \cdot \text{s}^{-1}]$ | $2^{-9}5^{-9}$ |
| darcy | $9.840712261(20) \times 10^{-13}$ $[\text{em}^{2}]$ | $\text{g}_0\cdot \text{atm}^{-1}\text{GM}_\text{E}^{-1}\tau^{-2}2^{11}5^{7}$ |
| poise | $0.09971101699(20)$ $[\text{ePa} \cdot \text{s}]$ | $\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{17}5^{13}$ |
| reyn | $6874.832616(14)$ $[\text{ePa} \cdot \text{s}]$ | $\text{g}_0^{2}\text{ft}^{-2}\text{lb}\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{22}3^{2}5^{14}$ |
| stokes | $9.971101699(20) \times 10^{-5}$ $[\text{em}^{2}\text{s}^{-1}]$ | $\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{14}5^{10}$ |
| rayl | $0.9985540395(10)$ $[\text{keg}\cdot \text{em}^{-2}\text{s}^{-1}]$ | $\text{g}_0^{1/2}\text{GM}_\text{E}^{-1/2}\tau^{-1}2^{9}5^{7}$ |
| mpg equivalent | $1.3458256239(54) \times 10^{-5}$ $[\text{eN}^{-1}]$ | $\text{g}_0^{-2}\text{ft}\cdot \text{lb}^{-1}\Omega_\text{it}\cdot \text{V}_\text{it}^{-2}\text{GM}_\text{E}^{2}\tau^{4}2^{-40}5^{-35}11\cdot 19^{-1}43$ |
| langley | $41686.02001(13)$ $[\text{eN} \cdot \text{em}^{-1}]$ | $\text{g}_0^{3/2}\Omega_\text{it}^{-1}\text{V}_\text{it}^{2}\text{GM}_\text{E}^{-3/2}\tau^{-3}2^{33}3^{2}5^{26}43^{-1}$ |
| jansky | $9.956683880(30) \times 10^{-27}$ $[\text{eN} \cdot \text{em}^{-1}]$ | $\text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{-3}2\cdot 5^{-5}$ |
| solar flux | $9.956683880(30) \times 10^{-23}$ $[\text{eN} \cdot \text{em}^{-1}]$ | $\text{g}_0^{3/2}\text{GM}_\text{E}^{-3/2}\tau^{-3}2^{5}5^{-1}$ |
| curie | $3.7 \times 10^{10}$ $[\text{Hz}]$ | $2^{9}5^{9}37$ |
| gray | $0.9971101699(20)$ $[\text{eJ} \cdot \text{keg}^{-1}]$ | $\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{18}5^{14}$ |
| roentgen | $0.00025835043629(26)$ $[\text{keg}^{-1}\text{eC}]$ | $\text{c}^{-1}\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2^{-4}5^{-2}/1.293$ |
| Quantity | Equivalent Dimensions |
|---|
| $\mathbb{1}$ | dimensionless $[\mathbb{1}]$, angle $[A]$, solid angle $[A^{2}]$, gravity force $[F^{-1}MLT^{-2}]$, susceptibility $[R^{-1}]$, demagnetizing factor $[R]$ |
| $\text{s}$ | time $[T]$, angular time $[TA^{-1}]$ |
| $\text{em}$ | length $[L]$, angular length $[LA^{-1}]$ |
| $\text{em}^{2}$ | area $[L^{2}]$, angular area $[L^{2}A^{-2}]$, etendue $[L^{2}A^{2}]$ |
| $\text{em}^{3}$ | volume $[L^{3}]$, magnetic polarizability $[L^{3}A^{-1}R^{-1}]$ |
| $\text{em}^{-1}$ | wavenumber $[L^{-1}]$, angular wavenumber $[L^{-1}A]$ |
| $\text{em}^{-2}$ | fuel efficiency $[L^{-2}]$ |
| $\text{em}^{-3}$ | number density $[L^{-3}]$ |
| $\text{Hz}$ | frequency $[T^{-1}]$, angular frequency $[T^{-1}A]$, photon intensity $[T^{-1}A^{-2}]$ |
| $\text{Hz} \cdot \text{s}^{-1}$ | frequency drift $[T^{-2}]$ |
| $\text{em}^{-1}\text{s}$ | stagnance $[L^{-1}T]$ |
| $\text{em}\cdot \text{s}^{-1}$ | speed $[LT^{-1}]$ |
| $\text{em}\cdot \text{s}^{-2}$ | acceleration $[LT^{-2}]$, specific force $[FM^{-1}]$ |
| $\text{em}\cdot \text{s}^{-3}$ | jerk $[LT^{-3}]$ |
| $\text{em}\cdot \text{s}^{-4}$ | snap $[LT^{-4}]$ |
| $\text{em}\cdot \text{s}^{-5}$ | crackle $[LT^{-5}]$ |
| $\text{em}\cdot \text{s}^{-6}$ | pop $[LT^{-6}]$ |
| $\text{em}^{3}\text{s}^{-1}$ | volume flow $[L^{3}T^{-1}]$ |
| $\text{Hz} \cdot \text{m}^{-2}$ | photon irradiance $[L^{-2}T]$, photon radiance $[L^{-2}TA^{-2}]$ |
| $\text{keg}$ | inertia $[FL^{-1}T^{2}]$, mass $[M]$ |
| $\text{eJ} \cdot \text{em}^{-2} \cdot \text{Hz}^{-1}$ | mass flow $[MT^{-1}]$, spectral exposure $[FL^{-1}T]$ |
| $\text{keg}\cdot \text{em}^{-1}$ | linear density $[ML^{-1}]$ |
| $\text{keg}\cdot \text{em}^{-2}$ | area density $[ML^{-2}]$ |
| $\text{keg}\cdot \text{em}^{-3}$ | density $[ML^{-3}]$ |
| $\text{keg}\cdot \text{em}^{-2}\text{s}^{-2}$ | specific weight $[FL^{-3}]$ |
| $\text{keg}^{-1}\text{em}^{3}$ | specific volume $[M^{-1}L^{3}]$, specific susceptibility $[M^{-1}L^{3}A^{-1}R^{-1}]$ |
| $\text{eN}$ | force $[F]$ |
| $\text{ePa}$ | pressure $[FL^{-2}]$ |
| $\text{ePa}^{-1}$ | compressibility $[F^{-1}L^{2}]$ |
| $\text{ePa} \cdot \text{s}$ | viscosity $[FL^{-2}T]$ |
| $\text{em}^{2}\text{s}^{-1}$ | diffusivity $[L^{2}T^{-1}]$ |
| $\text{keg}\cdot \text{em}^{2}$ | rotational inertia $[ML^{2}]$ |
| $\text{eN} \cdot \text{s}$ | impulse $[FT]$, momentum $[MLT^{-1}]$ |
| $\text{eJ} \cdot \text{s}$ | angular momentum $[FLTA^{-1}]$, action $[FLT]$ |
| $\text{eN} \cdot \text{s}^{-1}$ | yank $[MLT^{-3}]$, spectral flux $[FT^{-1}]$ |
| $\text{eJ}$ | energy $[FL]$ |
| $\text{eJ} \cdot \text{keg}^{-1}$ | specific energy $[FM^{-1}L]$ |
| $\text{eN} \cdot \text{em}^{-1}$ | fluence $[FL^{-1}]$ |
| $\text{eW}$ | power $[FLT^{-1}]$, radiant intensity $[FLT^{-1}A^{-2}]$ |
| $\text{eW} \cdot \text{m}^{-3}$ | power density $[FL^{-2}T^{-1}]$ |
| $\text{eW} \cdot \text{em}^{-2}$ | irradiance $[FL^{-1}T^{-1}]$, radiance $[FL^{-1}T^{-1}A^{-2}]$ |
| $\text{keg}^{2}\text{em}^{-2}\text{s}^{-3}$ | sound exposure $[F^{2}L^{-4}T]$ |
| $\text{keg}\cdot \text{em}^{-4}\text{s}^{-1}$ | impedance $[FL^{-5}T]$ |
| $\text{keg}\cdot \text{em}^{-2}\text{s}^{-1}$ | specific impedance $[FL^{-3}T]$ |
| $\text{keg}^{-1}\text{em}^{4}\text{s}$ | admittance $[F^{-1}L^{5}T^{-1}]$ |
| $\text{em} \cdot \text{eN}^{-1}$ | compliance $[M^{-1}T^{2}]$ |
| $\text{keg}\cdot \text{em}^{-4}$ | inertance $[ML^{-4}]$ |
| $\text{eC}$ | charge $[Q]$ |
| $\text{em}^{-3}\text{eC}$ | charge density $[L^{-3}Q]$ |
| $\text{em}^{-1}\text{eC}$ | linear charge density $[L^{-1}Q]$ |
| $\text{keg}^{-1}\text{eC}$ | exposure $[M^{-1}Q]$ |
| $\text{em}^2 \text{s}^{-1} \text{eV}^{-1}$ | mobility $[FL^{3}T^{-1}Q^{-1}]$ |
| $\text{s}^{-1}\text{eC}$ | current $[T^{-1}Q]$, magnetic potential $[T^{-1}QRC^{-1}]$ |
| $\text{em}^{-2}\text{s}^{-1}\text{eC}$ | current density $[L^{-2}T^{-1}Q]$ |
| $\text{e}\Omega$ | resistance $[FLTQ^{-2}]$ |
| $\text{eS}$ | conductance $[F^{-1}L^{-1}T^{-1}Q^{2}]$ |
| $\text{e}\Omega \cdot \text{em}$ | resistivity $[FL^{2}TQ^{-2}]$ |
| $\text{eS} \cdot \text{em}^{-1}$ | conductivity $[F^{-1}L^{-2}T^{-1}Q^{2}]$ |
| $\text{eF}$ | capacitance $[F^{-1}L^{-1}Q^{2}]$ |
| $\text{eH}$ | inductance $[FLT^{2}Q^{-2}]$, permeance $[FLT^{2}Q^{-2}R^{-1}C^{2}]$ |
| $\text{eH}^{-1}$ | reluctance $[F^{-1}L^{-1}T^{-2}Q^{2}RC^{-2}]$ |
| $\text{eF} \cdot \text{em}^{-1}$ | permittivity $[F^{-1}L^{-2}Q^{2}R]$ |
| $\text{eH} \cdot \text{em}^{-1}$ | permeability $[FT^{2}Q^{-2}R^{-1}C^{2}]$ |
| $\text{eWb} \cdot \text{em}^{-1}$ | vector potential $[FTQ^{-1}C]$ |
| $\text{eV}$ | electric potential $[FLQ^{-1}]$ |
| $\text{eV} \cdot \text{em}^{-1}$ | electric field $[FQ^{-1}]$ |
| $\text{em}^{-1}\text{s}^{-1}\text{eC}$ | magnetic field $[L^{-1}T^{-1}QRC^{-1}]$ |
| $\text{eV} \cdot \text{em}$ | electric flux $[FL^{2}Q^{-1}]$ |
| $\text{eWb}$ | magnetic flux $[FLTQ^{-1}C]$ |
| $\text{em}^{-2}\text{eC}$ | electric displacement $[L^{-2}QR]$ |
| $\text{eT}$ | magnetic flux density $[FL^{-1}TQ^{-1}C]$ |
| $\text{em}\cdot \text{eC}$ | electric dipole moment $[LQ]$ |
| $\text{eJ} \cdot \text{eT}^{-1}$ | magnetic dipole moment $[L^{2}T^{-1}QA^{-1}C^{-1}]$ |
| $\text{keg}^{-1}\text{s}^{2}\text{eC}^{2}$ | electric polarizability $[F^{-1}LQ^{2}]$ |
| $\text{eWb} \cdot \text{em}$ | magnetic moment $[FL^{2}TQ^{-1}C]$ |
| $\text{em}^{-3}\text{s}\cdot \text{eC}$ | specific magnetization $[F^{-1}ML^{-2}T^{-1}QC^{-1}]$ |
| $\text{em}\cdot \text{s}^{-1}\text{eC}$ | pole strength $[LT^{-1}QA^{-1}C^{-1}]$ |
| $\text{K}$ | temperature $[Θ]$ |
| $\text{eJ} \cdot \text{K}^{-1}$ | entropy $[FLΘ^{-1}]$ |
| $\text{eJ} \cdot \text{K}^{-1} \text{keg}^{-1}$ | specific entropy $[FM^{-1}LΘ^{-1}]$ |
| $\text{keg}\cdot \text{em}^{-1}\text{s}^{-2}\text{K}^{-1}$ | volume heat capacity $[FL^{-2}Θ^{-1}]$ |
| $\text{eW} \cdot \text{em}^{-1} \text{K}^{-1}$ | thermal conductivity $[FT^{-1}Θ^{-1}]$ |
| $\text{keg}\cdot \text{em}^{2}\text{s}^{-3}\text{K}^{-1}$ | thermal conductance $[FLT^{-1}Θ^{-1}]$ |
| $\text{K} \cdot \text{em} \cdot \text{eW}^{-1}$ | thermal resistivity $[F^{-1}TΘ]$ |
| $\text{K} \cdot \text{eW}^{-1}$ | thermal resistance $[F^{-1}L^{-1}TΘ]$ |
| $\text{K}^{-1}$ | thermal expansion $[Θ^{-1}]$ |
| $\text{em}^{-1}\text{K}$ | lapse rate $[L^{-1}Θ]$ |
| $\text{keg}\cdot \text{eg-mol}^{-1}$ | molar mass $[MN^{-1}]$ |
| $\text{keg}^{-1}\text{eg-mol}$ | molality $[M^{-1}N]$ |
| $\text{eg-mol}$ | molar amount $[N]$ |
| $\text{em}^{-3}\text{eg-mol}$ | molarity $[L^{-3}N]$ |
| $\text{em}^{3}\text{eg-mol}^{-1}$ | molar volume $[L^{3}N^{-1}]$, molar susceptibility $[L^{3}N^{-1}A^{-1}R^{-1}]$ |
| $\text{eJ} \cdot \text{K}^{-1} \text{eg-mol}^{-1}$ | molar entropy $[FLΘ^{-1}N^{-1}]$ |
| $\text{eJ} \cdot \text{eg-mol}^{-1}$ | molar energy $[FLN^{-1}]$ |
| $\text{eS} \cdot \text{em}^2 \text{eg-mol}^{-1}$ | molar conductivity $[F^{-1}T^{-1}Q^{2}N^{-1}]$ |
| $\text{ekat}$ | catalysis $[T^{-1}N]$ |
| $\text{em}^{3}\text{s}^{-1}\text{eg-mol}^{-1}$ | specificity $[L^{3}T^{-1}N^{-1}]$ |
| $\text{em}^{-2}\text{s}\cdot \text{eg-mol}$ | diffusion flux $[L^{-2}TN]$ |
| $\text{cd}$ | luminous flux $[J]$, luminous intensity $[JA^{-2}]$ |
| $\text{elx}$ | luminance $[L^{-2}JA^{-2}]$, illuminance $[L^{-2}J]$ |
| $\text{s}\cdot \text{lm}$ | luminous energy $[TJ]$ |
| $\text{lx} \cdot \text{s}$ | luminous exposure $[L^{-2}TJ]$ |
| $\text{lm} \cdot \text{eW}^{-1}$ | luminous efficacy $[F^{-1}L^{-1}TJ]$ |