@article{Guglinski_2018, title={On how Bohr model of hydrogen atom is connected to nuclear physics: Physics}, volume={8}, url={https://www.fundamentaljournals.org/index.php/ijfps/article/view/40}, DOI={10.14331/ijfps.2018.330113}, abstractNote={<p style="text-align: justify;">The atom model of Quantum Mechanics (QM) was conceived from an unsolved paradox. Indeed, Schrödinger’s equation has been deducted by considering a free electron, but it is applied for the atom, where the electron is inside a potential. In order to eliminate the nonsense, quantum theorists proposed a ridiculous postulate: they claim it makes sense to use the equation because it gives results in agreement to experimental data. The unsolved paradox evidences that Schrödinger’s equation cannot be applied to the physical conditions considered in the QM atom model, and that his equation actually requires some special conditions not considered in the theory (for instance, the electron helical trajectory, rejected by Heisenberg). The banishment of the aether has introduced several paradoxes in the development of Theoretical Physics. And because the theorists have neglected other paradox (from the mathematical probability the spectacular successes of Bohr’s hydrogen atom cannot be accidental), these two unsolved paradoxes introduced dramatic consequences in the development of Nuclear Physics.</p>}, number={2}, journal={International Journal of Fundamental Physical Sciences}, author={Guglinski, Wladimir}, year={2018}, month={Jun.}, pages={44-53} }