Final answer:
The statement 'Electrons move in circular orbits around the nucleus' does not accurately represent the Bohr model, as modern understanding depicts electron movements as probabilistic rather than defined circular paths.
Step-by-step explanation:
The statement that does not follow the Bohr model is "Electrons move in circular orbits around the nucleus." While Bohr initially proposed that electrons move in circular orbits, this is a simplification and modern quantum mechanics has shown that electron movement is more accurately depicted as a probabilistic cloud rather than a defined circular path.
According to the Bohr model, electrons can only exist in certain energy levels. The model suggests that the energy of an electron is quantized, and electrons can transition between energy levels by absorbing or emitting precise amounts of energy. These energy levels are indexed by a quantum number (n) and are analogous to rungs on a ladder, with no allowable energy states between them.
The Bohr model particularly accurately predicts the emission spectra of single-electron atoms like hydrogen, but it has limitations when applied to more complex atoms. However, it was a key step towards the development of quantum mechanics.