coulomb unit
data derived with UnitSystems.jl
\[\text{Q}\]
\[\left[\hbar^{1/2}\text{c}^{-1/2}\mu_0^{-1/2}\phi^{1/2}\lambda^{-1/2}\alpha_\text{L}^{-1}\right]\]
| Quantity | Product | UnitSystem |
|---|---|---|
| $1.0$ $\left[\text{C}\right]$ | $1$ | Metric |
| $0.999999999727(77)$ $\left[\text{C}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\text{e}\cdot \alpha^{-1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | SI2019 |
| $1.0$ $\left[\text{C}\right]$ | $1$ | SI1976 |
| $0.9999999914(62)$ $\left[\text{C}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\text{R}_\text{K}^{-1}\text{K}_\text{J}^{-1}\tau^{1/2}2^{-5/2}5^{-7/2}$ | CODATA |
| $0.999999910856(77)$ $\left[\text{C}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}{\text{R}_\text{K}^{90}}^{-1}{\text{K}_\text{J}^{90}}^{-1}\tau^{1/2}2^{-5/2}5^{-7/2}$ | Conventional |
| $1.0001649455679626$ $\left[\text{C}\right]$ | $\Omega_\text{it}\cdot \text{V}_\text{it}^{-1}$ | International |
| $1.0001499490173342$ $\left[\text{C}\right]$ | $1.0001499490173342$ | InternationalMean |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MetricTurn |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MetricSpatian |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MetricGradian |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MetricDegree |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MetricArcminute |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MetricArcsecond |
| $1.0$ $\left[\text{C}\right]$ | $1$ | Engineering |
| $1.0$ $\left[\text{C}\right]$ | $1$ | Gravitational |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MTS |
| $0.1$ $\left[\text{g}^{1/2}\text{cm}^{1/2}\right]$ | $2^{-1}5^{-1}$ | EMU |
| $2.99792458 \times 10^{9}$ $\left[\text{g}^{1/2}\text{cm}^{3/2}\text{s}^{-1}\right]$ | $\text{c}\cdot 2\cdot 5$ | ESU |
| $2.99792458 \times 10^{9}$ $\left[\text{Mx}\right]$ | $\text{c}\cdot 2\cdot 5$ | Gauss |
| $1.0627365933090603 \times 10^{10}$ $\left[\text{g}^{1/2}\text{cm}^{3/2}\text{s}^{-1}\right]$ | $\text{c}\cdot \tau^{1/2}2^{3/2}5$ | LorentzHeaviside |
| $1.0$ $\left[\text{C}\right]$ | $1$ | FPS |
| $1.0$ $\left[\text{C}\right]$ | $1$ | IPS |
| $1.0$ $\left[\text{C}\right]$ | $1$ | British |
| $1.0$ $\left[\text{C}\right]$ | $1$ | English |
| $1.0$ $\left[\text{C}\right]$ | $1$ | Survey |
| $1.0$ $\left[\text{C}\right]$ | $1$ | MPH |
| $1.0$ $\left[\text{C}\right]$ | $1$ | KKH |
| $0.9971101699(20)$ $\left[\text{eC}\right]$ | $\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{18}5^{14}$ | Nautical |
| $0.9971101699(20)$ $\left[\text{eC}\right]$ | $\text{g}_0\cdot \text{GM}_\text{E}^{-1}\tau^{-2}2^{18}5^{14}$ | Meridian |
| $1.0$ $\left[\text{C}\right]$ | $1$ | IAU☉ |
| $1.0$ $\left[\text{C}\right]$ | $1$ | IAUE |
| $1.0000000000000002$ $\left[\text{C}\right]$ | $1$ | IAUJ |
| $0.028336(88)$ $\left[\text{Q}\right]$ | $\hbar^{-1/2}\text{R}_{\infty}^{-1/2}\alpha\cdot \text{H}_0^{1/2}\text{au}^{-1/2}\tau^{1/2}2^{-9}3^{-2}5^{-13/2}$ | Hubble |
| $9.061(67) \times 10^{-44}$ $\left[\text{Q}\right]$ | $\hbar^{1/2}\text{c}^{-3/2}\Omega_{\Lambda}^{1/2}\text{H}_0\cdot \text{au}^{-1}\text{m}_\text{P}^{-1}\tau^{1/2}2^{-27/2}3^{-7/2}5^{-19/2}$ | Cosmological |
| $5.3317806099370496 \times 10^{17}$ $\left[\text{e}_\text{n}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | CosmologicalQuantum |
| $1.890067014853257 \times 10^{18}$ $\left[\mathbb{1}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau\cdot 2^{-3}5^{-7/2}$ | Planck |
| $5.3317806099370496 \times 10^{17}$ $\left[\text{e}_\text{n}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | PlanckGauss |
| $6.24150907276(48) \times 10^{18}$ $\left[\text{e}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | Stoney |
| $6.24150907276(48) \times 10^{18}$ $\left[\text{e}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | Hartree |
| $8.82682678037(68) \times 10^{18}$ $\left[\text{Q}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\tau^{1/2}2^{-3}5^{-7/2}$ | Rydberg |
| $6.24150907276(48) \times 10^{18}$ $\left[\text{e}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | Schrodinger |
| $6.24150907276(48) \times 10^{18}$ $\left[\text{e}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | Electronic |
| $1.890067014853257 \times 10^{18}$ $\left[\mathbb{1}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau\cdot 2^{-3}5^{-7/2}$ | Natural |
| $5.3317806099370496 \times 10^{17}$ $\left[\text{e}_\text{n}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | NaturalGauss |
| $1.890067014853257 \times 10^{18}$ $\left[\mathbb{1}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau\cdot 2^{-3}5^{-7/2}$ | QCD |
| $5.3317806099370496 \times 10^{17}$ $\left[\text{e}_\text{n}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | QCDGauss |
| $6.24150907276(48) \times 10^{18}$ $\left[\text{e}\right]$ | $\hbar^{-1/2}\text{c}^{1/2}\alpha^{-1/2}\tau^{1/2}2^{-7/2}5^{-7/2}$ | QCDoriginal |