2. Noboru Kohiyama, Modification of the Schrödinger equation from Bohr’s theory

$25.00 each

All articles published since 1988 (over 1500 articles) can be accessed for only U.S.$139.99 with a special discounted personal online subscription to the journal. Please click here.

For purchase of this item, please read the instructions ACCESS TO THE JOURNAL CONTENT


Volume 34: Pages 261-264, 2021

Modification of the Schrödinger equation from Bohr’s theory

Noboru Kohiyamaa)

2-1-5-710 Shinmeidai, Hamura City, Tokyo 205-0023, Japan

The mass-energy equation ε = mc2 is obtained from Bohr’s theory. The Schrödinger equation (SE) is modified using this equation. In the hydrogenlike atom, the modified SE is solved for consistency with the eigenvalues of electron’s energy derived from the Dirac equation. Based on the consistency of their eigenvalues, the microwave emission (e.g., λ 21 cm radio wave) by the hydrogen atom is expressed.


L’équation masse-énergie ε = mc2 est obtenue à partir de la théorie d’Bohr. L’équation de Schrödinger est modifiée en utilisant cette équation. Dans l’atome dhydrogène, léquation de Schrödinger modifiée est résolue pour la consistance avec les valeurs propres de lénergie de lélectron dérivée de léquation de Dirac. En se basant sur la consistance de leurs valeurs propres, lémission de micro-onde (par exemple, λ ≈ 21 cm) par latome dhydrogène est exprimée.

Key words: Mass-Energy Equation; Hydrogenlike Atom; Schrödinger Equation; Dirac Equation; 21 cm Radio Wave; Cosmic Background Radiation.


Received: February 16, 2021; Accepted: May 16, 2021; Published Online: June 11, 2021


a) This email address is being protected from spambots. You need JavaScript enabled to view it.