the bohr model for hydrogen is H
At the simplest level it was the Bohr model.
The current model of an atom is called the Bohr model.
The Bohr model of an atom was of planetary type.
Now, an advanced model derived from the Niels Bohr theory.
In Bohr's model there are stationary orbits in which though the electrons are subjected to centrifugal acceleration, they will not give out any kind radiation. But in Rutherford's model no such stationary orbits. In case Bohr's model, line spectrum is possible. But in Rutherford's model, continuous spectrum is expected. But no such spectrum emitted by atoms especially hydrogen atom
Bohr's model of the atom doesn't explain hydrogen's flammability.
The Bohr model for hydrogen is a proton orbited by an electron.
Bohr
At the simplest level it was the Bohr model.
Niels Bohr in fact based his model on the hydrogen atom. However, I wouldn't say that the Bohr Model can be correctly applied to ANY atom. Whilst it is an excellent approximation it is not truly accurate. Please don't forget that the Bohr Model is just that, a model, and a model is never as accurate as the real thing.
The Bohr model of the atom was a planetary model.
the differences between the modern model of hydrogen and bohr's model is that the modern version is much more advanced in what is known about the model, but bohr's model is very basic
in specific energy levels -will
The current model of an atom is called the Bohr model.
Bohr based his atomic model on the element hydrogen. He applied his model to the hydrogen atom and found that it provided an explanation for its line spectrum.
To explain atomic emission spectra. Using the Bohr Model of a hydrogen atom, deriving the frequency of these emission lines is almost trivial. Without the Bohr Model, deriving them is impossible. Also, the "classical" model of electrons in an atom, acting like planets around a nucleus, would result in complete collapse of such an atom in a small fraction of a second.
Bohr.