Earth radius unit
data derived with UnitSystems.jl
\[\text{L}\]
\[\left[\hbar\cdot \text{c}^{-1}\text{m}_\text{e}^{-1}\phi\cdot \text{g}_0\right]\]
| Quantity | Product | UnitSystem |
|---|---|---|
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | Metric |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | SI2019 |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | SI1976 |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | CODATA |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | Conventional |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | International |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | InternationalMean |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MetricTurn |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MetricSpatian |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MetricGradian |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MetricDegree |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MetricArcminute |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MetricArcsecond |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | Engineering |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | Gravitational |
| $6.3754163237(64) \times 10^{6}$ $\left[\text{m}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}$ | MTS |
| $6.3754163237(64) \times 10^{8}$ $\left[\text{cm}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{2}5^{2}$ | EMU |
| $6.3754163237(64) \times 10^{8}$ $\left[\text{cm}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{2}5^{2}$ | ESU |
| $6.3754163237(64) \times 10^{8}$ $\left[\text{cm}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{2}5^{2}$ | Gauss |
| $6.3754163237(64) \times 10^{8}$ $\left[\text{cm}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{2}5^{2}$ | LorentzHeaviside |
| $2.0916720222(21) \times 10^{7}$ $\left[\text{ft}\right]$ | $\text{g}_0^{-1/2}\text{ft}^{-1}\text{GM}_\text{E}^{1/2}$ | FPS |
| $2.5100064266(25) \times 10^{8}$ $\left[\text{in}\right]$ | $\text{g}_0^{-1/2}\text{ft}^{-1}\text{GM}_\text{E}^{1/2}2^{2}3$ | IPS |
| $2.0916720222(21) \times 10^{7}$ $\left[\text{ft}\right]$ | $\text{g}_0^{-1/2}\text{ft}^{-1}\text{GM}_\text{E}^{1/2}$ | British |
| $2.0916720222(21) \times 10^{7}$ $\left[\text{ft}\right]$ | $\text{g}_0^{-1/2}\text{ft}^{-1}\text{GM}_\text{E}^{1/2}$ | English |
| $2.0916678389(21) \times 10^{7}$ $\left[\text{ft}\right]$ | $\text{g}_0^{-1/2}\text{ft}_\text{US}^{-1}\text{GM}_\text{E}^{1/2}$ | Survey |
| $3961.5000421(40)$ $\left[\text{mi}\right]$ | $\text{g}_0^{-1/2}\text{ft}^{-1}\text{GM}_\text{E}^{1/2}2^{-5}3^{-1}5^{-1}11^{-1}$ | MPH |
| $6375.4163237(64)$ $\left[\text{km}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{-3}5^{-3}$ | KKH |
| $3437.7467707849396$ $\left[\text{nm}\right]$ | $\tau^{-1}2^{5}3^{3}5^{2}$ | Nautical |
| $6.3661977236758135 \times 10^{6}$ $\left[\text{em}\right]$ | $\tau^{-1}2^{9}5^{7}$ | Meridian |
| $4.2617025856(43) \times 10^{-5}$ $\left[\text{au}\right]$ | $\text{g}_0^{-1/2}\text{au}^{-1}\text{GM}_\text{E}^{1/2}$ | IAU☉ |
| $0.016585413395(17)$ $\left[\text{LD}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{-3}3^{-3}5^{-3}/14237$ | IAUE |
| $8.1895803531(82) \times 10^{-6}$ $\left[\text{JD}\right]$ | $\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}2^{-6}3^{-1}5^{-6}/259493$ | IAUJ |
| $4.663(29) \times 10^{-20}$ $\left[\text{T}\right]$ | $\text{c}^{-1}\text{H}_0\cdot \text{g}_0^{-1/2}\text{au}^{-1}\text{GM}_\text{E}^{1/2}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Hubble |
| $1.3372(99) \times 10^{-20}$ $\left[\text{T}\right]$ | $\text{c}^{-1}\Omega_{\Lambda}^{1/2}\text{H}_0\cdot \text{g}_0^{-1/2}\text{au}^{-1}\text{GM}_\text{E}^{1/2}\tau^{1/2}2^{-11}3^{-7/2}5^{-6}$ | Cosmological |
| $7.263(27) \times 10^{10}$ $\left[\text{M}^{-1}\right]$ | $\hbar^{-1/2}\Omega_{\Lambda}^{1/4}\text{H}_0^{1/2}\text{g}_0^{-1/2}\text{au}^{-1/2}\text{m}_\text{P}^{1/2}\text{GM}_\text{E}^{1/2}\tau^{3/4}2^{-11/2}3^{-7/4}5^{-3}$ | CosmologicalQuantum |
| $1.112740(12) \times 10^{41}$ $\left[\text{M}^{-1}\right]$ | $\hbar^{-1}\text{c}\cdot \text{g}_0^{-1/2}\text{m}_\text{P}\cdot \text{GM}_\text{E}^{1/2}\tau^{1/2}2^{-1/2}$ | Planck |
| $3.944560(43) \times 10^{41}$ $\left[\text{m}_\text{P}^{-1}\right]$ | $\hbar^{-1}\text{c}\cdot \text{g}_0^{-1/2}\text{m}_\text{P}\cdot \text{GM}_\text{E}^{1/2}\tau$ | PlanckGauss |
| $4.617596(51) \times 10^{42}$ $\left[\text{T}\right]$ | $\hbar^{-1}\text{c}\cdot \alpha^{-1/2}\text{g}_0^{-1/2}\text{m}_\text{P}\cdot \text{GM}_\text{E}^{1/2}\tau$ | Stoney |
| $1.2047790782(12) \times 10^{17}$ $\left[\text{a}_0\right]$ | $\text{R}_{\infty}\cdot \alpha^{-1}\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | Hartree |
| $1.2047790782(12) \times 10^{17}$ $\left[\text{a}_0\right]$ | $\text{R}_{\infty}\cdot \alpha^{-1}\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | Rydberg |
| $2.458932(27) \times 10^{38}$ $\left[\text{L}\right]$ | $\hbar^{-1}\text{c}\cdot \alpha^{3/2}\text{g}_0^{-1/2}\text{m}_\text{P}\cdot \text{GM}_\text{E}^{1/2}\tau$ | Schrodinger |
| $2.2624383719(25) \times 10^{21}$ $\left[\text{T}\right]$ | $\text{R}_{\infty}\cdot \alpha^{-3}\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | Electronic |
| $1.6509810466(17) \times 10^{19}$ $\left[\mathbb{1}\right]$ | $\text{R}_{\infty}\cdot \alpha^{-2}\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | Natural |
| $1.6509810466(17) \times 10^{19}$ $\left[\mathbb{1}\right]$ | $\text{R}_{\infty}\cdot \alpha^{-2}\text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | NaturalGauss |
| $3.0314532625(32) \times 10^{22}$ $\left[\text{m}_\text{p}^{-1}\right]$ | $\text{R}_{\infty}\cdot \alpha^{-2}\mu_\text{eu}^{-1}\mu_\text{pu}\cdot \text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | QCD |
| $3.0314532625(32) \times 10^{22}$ $\left[\text{m}_\text{p}^{-1}\right]$ | $\text{R}_{\infty}\cdot \alpha^{-2}\mu_\text{eu}^{-1}\mu_\text{pu}\cdot \text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | QCDGauss |
| $3.0314532625(32) \times 10^{22}$ $\left[\text{m}_\text{p}^{-1}\right]$ | $\text{R}_{\infty}\cdot \alpha^{-2}\mu_\text{eu}^{-1}\mu_\text{pu}\cdot \text{g}_0^{-1/2}\text{GM}_\text{E}^{1/2}\tau\cdot 2$ | QCDoriginal |