curie 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 |
|---|---|---|
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Metric |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | SI2019 |
| $3.7 \times 10^{10}$ $\left[\text{s}^{-1}\right]$ | $2^{9}5^{9}37$ | SI1976 |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | CODATA |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Conventional |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | International |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | InternationalMean |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | MetricTurn |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | MetricSpatian |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | MetricGradian |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | MetricDegree |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | MetricArcminute |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | MetricArcsecond |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Engineering |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Gravitational |
| $3.7 \times 10^{10}$ $\left[\text{s}^{-1}\right]$ | $2^{9}5^{9}37$ | MTS |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | EMU |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | ESU |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Gauss |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | LorentzHeaviside |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | FPS |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | IPS |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | British |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | English |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Survey |
| $1.332 \times 10^{14}$ $\left[\text{h}^{-1}\right]$ | $2^{13}3^{2}5^{11}37$ | MPH |
| $1.332 \times 10^{14}$ $\left[\text{h}^{-1}\right]$ | $2^{13}3^{2}5^{11}37$ | KKH |
| $1.332 \times 10^{14}$ $\left[\text{h}^{-1}\right]$ | $2^{13}3^{2}5^{11}37$ | Nautical |
| $3.7 \times 10^{10}$ $\left[\text{Hz}\right]$ | $2^{9}5^{9}37$ | Meridian |
| $3.1968 \times 10^{15}$ $\left[\text{D}^{-1}\right]$ | $2^{16}3^{3}5^{11}37$ | IAU☉ |
| $3.1968000000000005 \times 10^{15}$ $\left[\text{D}^{-1}\right]$ | $2^{16}3^{3}5^{11}37$ | IAUE |
| $3.1968 \times 10^{15}$ $\left[\text{D}^{-1}\right]$ | $2^{16}3^{3}5^{11}37$ | IAUJ |
| $1.687(10) \times 10^{28}$ $\left[\text{T}^{-1}\right]$ | $\text{H}_0^{-1}\text{au}\cdot \tau^{-1}2^{19}3^{4}5^{15}37$ | Hubble |
| $5.884(44) \times 10^{28}$ $\left[\text{T}^{-1}\right]$ | $\Omega_{\Lambda}^{-1/2}\text{H}_0^{-1}\text{au}\cdot \tau^{-1/2}2^{20}3^{7/2}5^{15}37$ | Cosmological |
| $0.010834(40)$ $\left[\text{M}\right]$ | $\hbar^{1/2}\text{c}^{-1}\Omega_{\Lambda}^{-1/4}\text{H}_0^{-1/2}\text{au}^{1/2}\text{m}_\text{P}^{-1/2}\tau^{-3/4}2^{29/2}3^{7/4}5^{12}37$ | CosmologicalQuantum |
| $7.071245(78) \times 10^{-33}$ $\left[\text{M}\right]$ | $\hbar\cdot \text{c}^{-2}\text{m}_\text{P}^{-1}\tau^{-1/2}2^{19/2}5^{9}37$ | Planck |
| $1.994761(22) \times 10^{-33}$ $\left[\text{m}_\text{P}\right]$ | $\hbar\cdot \text{c}^{-2}\text{m}_\text{P}^{-1}\tau^{-1}2^{9}5^{9}37$ | PlanckGauss |
| $1.704016(19) \times 10^{-34}$ $\left[\text{T}^{-1}\right]$ | $\hbar\cdot \text{c}^{-2}\alpha^{1/2}\text{m}_\text{P}^{-1}\tau^{-1}2^{9}5^{9}37$ | Stoney |
| $8.949872008367(17) \times 10^{-7}$ $\left[\text{a}_0^{-2}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\tau^{-1}2^{8}5^{9}37$ | Hartree |
| $1.7899744016734(34) \times 10^{-6}$ $\left[\text{T}^{-1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\tau^{-1}2^{9}5^{9}37$ | Rydberg |
| $4.385081(48) \times 10^{-28}$ $\left[\text{T}^{-1}\right]$ | $\hbar\cdot \text{c}^{-2}\alpha^{-5/2}\text{m}_\text{P}^{-1}\tau^{-1}2^{9}5^{9}37$ | Schrodinger |
| $3.4778657463(16) \times 10^{-13}$ $\left[\text{T}^{-1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{3}\tau^{-1}2^{8}5^{9}37$ | Electronic |
| $4.7659280723(15) \times 10^{-11}$ $\left[\mathbb{1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\tau^{-1}2^{8}5^{9}37$ | Natural |
| $4.7659280723(15) \times 10^{-11}$ $\left[\mathbb{1}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\tau^{-1}2^{8}5^{9}37$ | NaturalGauss |
| $2.59560555136(81) \times 10^{-14}$ $\left[\text{m}_\text{p}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \mu_\text{pu}^{-1}\tau^{-1}2^{8}5^{9}37$ | QCD |
| $2.59560555136(81) \times 10^{-14}$ $\left[\text{m}_\text{p}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \mu_\text{pu}^{-1}\tau^{-1}2^{8}5^{9}37$ | QCDGauss |
| $2.59560555136(81) \times 10^{-14}$ $\left[\text{m}_\text{p}\right]$ | $\text{c}^{-1}\text{R}_{\infty}^{-1}\alpha^{2}\mu_\text{eu}\cdot \mu_\text{pu}^{-1}\tau^{-1}2^{8}5^{9}37$ | QCDoriginal |