The Rydberg formula (Rydberg-Ritz formula) is used in atomic physics for determining the full spectrum of light emission from hydrogen, later extended to be useful with any element.

A piece of the original document detailing the Rydberg formula in 1888.

The spectrum are the wavelengths of photons emitted when electrons jump between discrete energy levels, "shells" around the atom of a certain chemical element.

The fomula was invented by the Swedish physicist Janne Rydberg and presented on November 5, 1888.

Rydberg formula for hydrogen

Where

• λ_vac is the wavelength of the light emitted in vacuum.
• R_H is the Rydberg constant for hydrogen.
• n₁ and n₂ are integers such that n₁ < n₂.

By setting n₁ to 1 and letting n₂ run from 2 to infinity, the spectral lines known as the Lyman series converging to 91nm are obtained, in the same manner:

n1	n2	Name	Converge toward
1		Lyman series	91nm
2		Balmer series	365nm
3		Paschen series	821nm

Rydberg formula for any hydrogen-like element

The formula above can be extended for use with any hydrogen-like chemical elements.

where

• λ_vac is the wavelength of the light emitted in vacuum;
• R is the Rydberg constant for this element;
• Z is the atomic number, i.e. the number of protons in the atomic nucleus of this element;
• n₁ and n₂ are integers such that n₁ < n₂.

It's important to notice that this formula can be applied only to hydrogen-like, also called hydrogenic atoms chemical elements, i.e. atoms with only one electron on external system of orbitals. Examples would include He⁺, Li²⁺, Be³⁺ etc.