Hubble unit
data derived with UnitSystems.jl
\[\text{T}^{-1}\]
\[\left[\hbar^{-1}\text{c}^{2}\text{m}_\text{e}\cdot \phi^{-1}\text{g}_0^{-1}\right]\]
| Quantity | Product | UnitSystem |
|---|---|---|
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Metric |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | SI2019 |
| $2.193(14) \times 10^{-18}$ $\left[\text{s}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | SI1976 |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | CODATA |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Conventional |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | International |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | InternationalMean |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MetricTurn |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MetricSpatian |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MetricGradian |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MetricDegree |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MetricArcminute |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MetricArcsecond |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Engineering |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Gravitational |
| $2.193(14) \times 10^{-18}$ $\left[\text{s}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | MTS |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | EMU |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | ESU |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Gauss |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | LorentzHeaviside |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | FPS |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | IPS |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | British |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | English |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Survey |
| $7.894(49) \times 10^{-15}$ $\left[\text{h}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-6}3^{-2}5^{-4}$ | MPH |
| $7.894(49) \times 10^{-15}$ $\left[\text{h}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-6}3^{-2}5^{-4}$ | KKH |
| $7.894(49) \times 10^{-15}$ $\left[\text{h}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-6}3^{-2}5^{-4}$ | Nautical |
| $2.193(14) \times 10^{-18}$ $\left[\text{Hz}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-10}3^{-4}5^{-6}$ | Meridian |
| $1.895(12) \times 10^{-13}$ $\left[\text{D}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-3}3^{-1}5^{-4}$ | IAU☉ |
| $1.895(12) \times 10^{-13}$ $\left[\text{D}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-3}3^{-1}5^{-4}1$ | IAUE |
| $1.895(12) \times 10^{-13}$ $\left[\text{D}^{-1}\right]$ | $\text{H}_0\cdot \text{au}^{-1}\tau\cdot 2^{-3}3^{-1}5^{-4}$ | IAUJ |
| $1.0$ $\left[\text{T}^{-1}\right]$ | $1$ | Hubble |
| $3.487(14)$ $\left[\text{T}^{-1}\right]$ | $\Omega_{\Lambda}^{-1/2}\tau^{1/2}2\cdot 3^{-1/2}$ | Cosmological |
| $6.421(24) \times 10^{-31}$ $\left[\text{M}\right]$ | $\hbar^{1/2}\text{c}^{-1}\Omega_{\Lambda}^{-1/4}\text{H}_0^{1/2}\text{au}^{-1/2}\text{m}_\text{P}^{-1/2}\tau^{1/4}2^{-9/2}3^{-9/4}5^{-3}$ | CosmologicalQuantum |
| $4.191(26) \times 10^{-61}$ $\left[\text{M}\right]$ | $\hbar\cdot \text{c}^{-2}\text{H}_0\cdot \text{au}^{-1}\text{m}_\text{P}^{-1}\tau^{1/2}2^{-19/2}3^{-4}5^{-6}$ | Planck |
| $1.1821(73) \times 10^{-61}$ $\left[\text{m}_\text{P}\right]$ | $\hbar\cdot \text{c}^{-2}\text{H}_0\cdot \text{au}^{-1}\text{m}_\text{P}^{-1}2^{-10}3^{-4}5^{-6}$ | PlanckGauss |
| $1.0098(63) \times 10^{-62}$ $\left[\text{T}^{-1}\right]$ | $\hbar\cdot \text{c}^{-2}\alpha^{1/2}\text{H}_0\cdot \text{au}^{-1}\text{m}_\text{P}^{-1}2^{-10}3^{-4}5^{-6}$ | Stoney |
| $5.304(33) \times 10^{-35}$ $\left[\text{a}_0^{-2}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | Hartree |
| $1.0608(66) \times 10^{-34}$ $\left[\text{T}^{-1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\text{H}_0\cdot \text{au}^{-1}2^{-10}3^{-4}5^{-6}$ | Rydberg |
| $2.599(16) \times 10^{-56}$ $\left[\text{T}^{-1}\right]$ | $\hbar\cdot \text{c}^{-2}\alpha^{-5/2}\text{H}_0\cdot \text{au}^{-1}\text{m}_\text{P}^{-1}2^{-10}3^{-4}5^{-6}$ | Schrodinger |
| $2.061(13) \times 10^{-41}$ $\left[\text{T}^{-1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{3}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | Electronic |
| $2.824(18) \times 10^{-39}$ $\left[\mathbb{1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | Natural |
| $2.824(18) \times 10^{-39}$ $\left[\mathbb{1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | NaturalGauss |
| $1.5382(95) \times 10^{-42}$ $\left[\text{m}_\text{p}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \mu_\text{pu}^{-1}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | QCD |
| $1.5382(95) \times 10^{-42}$ $\left[\text{m}_\text{p}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \mu_\text{pu}^{-1}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | QCDGauss |
| $1.5382(95) \times 10^{-42}$ $\left[\text{m}_\text{p}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \mu_\text{pu}^{-1}\text{H}_0\cdot \text{au}^{-1}2^{-11}3^{-4}5^{-6}$ | QCDoriginal |