Rydberg's formula, " a mathematical formula used to predict the wavelength of light resulting from an electron moving between energy levels of an atom" (about.com), directly correlates with Bohr's developments with energy levels. For any mathematicians, the numeric formula is: 1/λ = RZ2(1/n12 - 1/n22). If an electron is to switch from one energy level (remainder: those rings that surround the nucleus), not only will their energy change, but a photon of light is created or absorbed by the atom.
Tuesday, January 7, 2014
Understanding Bohr's Model: Rydberg's Formula
Now, why exactly is Swedish physicist Johannes Rydberg included in this section about Niels Bohr? Rydberg's formula was actually combined with Bohr's model for some fascinating findings.
Rydberg's formula, " a mathematical formula used to predict the wavelength of light resulting from an electron moving between energy levels of an atom" (about.com), directly correlates with Bohr's developments with energy levels. For any mathematicians, the numeric formula is: 1/λ = RZ2(1/n12 - 1/n22). If an electron is to switch from one energy level (remainder: those rings that surround the nucleus), not only will their energy change, but a photon of light is created or absorbed by the atom.
Rydberg's formula, " a mathematical formula used to predict the wavelength of light resulting from an electron moving between energy levels of an atom" (about.com), directly correlates with Bohr's developments with energy levels. For any mathematicians, the numeric formula is: 1/λ = RZ2(1/n12 - 1/n22). If an electron is to switch from one energy level (remainder: those rings that surround the nucleus), not only will their energy change, but a photon of light is created or absorbed by the atom.
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