Using his model, Bohr was able to calculate the spectral lines — the lines in the continuous spectrum of light — that the hydrogen atoms would absorb. The Bohr model seemed to work pretty well ...

Niels Bohr's model of the hydrogen atom—first published 100 years ago and commemorated in a special issue of Nature—is simple, elegant, revolutionary, and wrong. Well, "wrong" isn't exactly ...

NCERT has explained how Bohr’s model was too simple to account for the following points- It fails to account for the finer details (doublet, that is two closely spaced lines) of the hydrogen ...

But there was good evidence he was right: the electrons in his model lined up with the regular patterns (spectral series) of light emitted by real hydrogen atoms. Bohr's theory that electrons ...

With this, Bohr explained the emission spectrum of hydrogen, a triumph of his hybrid model. Even if incomplete, Bohr's theory captured the essence of the bizarre quantum behavior of atoms ...

In Bohr’s model of the hydrogen atom, one electron, carrying a negative electrical charge, circles a nucleus consisting of a single proton, which has a positive charge. Unlike a planet around a ...

Just as the Bohr model failed to reproduce the hydrogen atom's energy levels properly, so did the Schrödinger equation. It was quickly discovered that there were three reasons for this.

Five years later, scientists were able to peer inside a hydrogen atom using a "quantum ... much-maligned Bohr model of the atom. That's the one where electrons move about the atomic nucleus ...

Bohr's atomic model was utterly revolutionary when it was presented in 1913 but, although it is still taught in schools, it became obsolete decades ago. However, its creator also developed a much ...

In 1912, Bohr was working for the Nobel laureate J.J. Thompson in England when he was introduced to Ernest Rutherford, whose discovery of the nucleus and development of an atomic model had earned ...