Heisenberg's uncertainty principle, Bohr's complementarity principle, and the Copenhagen interpretation
Emory Taylor, Rajan Iyer- General Physics and Astronomy
The atomic absorption and emission process that uses noninstantaneous electronic transitions of the atomic electron (i.e., electric charge), the tangent reference system, the property of speed instantaneity, and the conservation laws leads to a violation of Heisenberg's uncertainty principle, and it is maintained in the atomic absorption and emission process discontinuity that is conserved as the emitted photon's (i.e., electromagnetic radiation's) discontinuity. This leads to a falsification of Bohr's complementary principle that aligns with Einstein's 1909 falsification of it. The violation of Heisenberg's uncertainty principle and falsification of Bohr's complementarity principle falsify the Copenhagen interpretation, because it requires Heisenberg's uncertainty principle not to be violated and Bohr's complementarity principle not to be falsified.