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work function of rubidium

Input interpretation

rubidium | work function
rubidium | work function

Results

2.26 eV
2.26 eV
polycrystalline | 2.26 eV
polycrystalline | 2.26 eV

Threshold frequency

5.467×10^14 Hz (hertz)
5.467×10^14 Hz (hertz)

Electromagnetic frequency range

visible light
visible light

Unit conversion

3.62×10^-19 J (joules)
3.62×10^-19 J (joules)

Comparisons as energy

≈ (0.2 to 1.2) × energy of a covalent bond ( 3×10^-19 to 1×10^-18 J )
≈ (0.2 to 1.2) × energy of a covalent bond ( 3×10^-19 to 1×10^-18 J )
≈ (0.9 to 1) × energy of a photon of green light ( 2.2 to 2.5 eV )
≈ (0.9 to 1) × energy of a photon of green light ( 2.2 to 2.5 eV )
≈ (1.2 to 1.8) × energy of an infrared light photon ( 2×10^-19 to 3×10^-19 J )
≈ (1.2 to 1.8) × energy of an infrared light photon ( 2×10^-19 to 3×10^-19 J )

Corresponding quantities

Electromagnetic wave frequency ν from E = hν: | 547 THz (terahertz) | 5.467×10^14 Hz (hertz)
Electromagnetic wave frequency ν from E = hν: | 547 THz (terahertz) | 5.467×10^14 Hz (hertz)
Thermodynamic temperature T from E = kT: | 26238 K (kelvins)
Thermodynamic temperature T from E = kT: | 26238 K (kelvins)
Photon wavelength λ from E = hc/λ: | 548 nm (nanometers)
Photon wavelength λ from E = hc/λ: | 548 nm (nanometers)
Spectroscopic wavenumber ν^~ from ν^~ = E/(hc): | 1.824×10^6 m^(-1) (reciprocal meters) | 18236 cm^(-1) (reciprocal centimeters)
Spectroscopic wavenumber ν^~ from ν^~ = E/(hc): | 1.824×10^6 m^(-1) (reciprocal meters) | 18236 cm^(-1) (reciprocal centimeters)

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