Rutherford discovered that the atom has a nucleus, bohr's discovery is found on the Wikipedia Link further down this page.
Few question and answers on Bohr's atomic model
The basic assumption in Bohr's model of an atom is that
The energy of electron is quantised
In Bohr's model of the hydrogen atom
the radius of the nth orbit is propotional to n² the angular momentum of the electron in an orbit is an integral multiple of h/2λ the magnitude of potential energy of the electron in any orbit is greater than its K.E.
atoms
The Bohr model!
the planetary model
No, Rutherford's model of the atom fails to explain the discrete spectral lines of elements. Bohr's model, which incorporates quantized energy levels and electrons moving in well-defined orbits, successfully explains the spectral lines of elements by linking them to the transitions between electron energy levels.
first the positive and negative charges are separated on the models and technically speaking, niels bohrs is more advanced and more accurate. Bohr's atomic model was based on quantisation of energy and angular momentum of the electron whereas Rutherford does not give an idea of permitted orbits.
cleveland calvilers
Niels Bohr's major discovery was his model of the atom, known as the Bohr model. This model introduced the idea of quantized energy levels for electrons in an atom, explaining the stability of certain orbits and the emission of electromagnetic radiation. Bohr's work laid the foundation for modern quantum theory.
Niels Bohr introduced the notion of electronic orbits.
It added on Niels Bohrs model and his research. And anika's cool :D
For a while, but eventually a new atomic model came out that we still use today.
Neil Bohrs atomic model is simply called Bohrs model. It states that electrons have a certain amount of energy, so they must follow certain orbits. This is different from the modern atomic model.
The Bohr model of the atom was the first to propose that electrons orbit the nucleus in fixed paths or energy levels. This model was proposed by Niels Bohr in 1913, and it helped to explain the stability of atoms and the emission of specific frequencies of light.