ABSTRACT
Many breakthrough experimental discoveries in the realm of physics are described, notable among them being Young’s double-slit experiment, Davisson and Germer experiment on electron diffraction, and Crompton scattering of X-rays or γ-rays. Also explained are revolutionary theories such as Planck’s quantum hypothesis, Bohr’s model of atomic structure, and Einstein’s interpretation of photoelectric effect, which laid down the foundations of quantum theory. Wave-particle dualism is epitomized in cornerstone theories namely de Broglie’s hypothesis and Heisenberg’s uncertainty principle.
Surprisingly, the old notion of treating electrons as particles moving in an electric field works satisfactorily in many everyday-life applications but leads to serious errors at the nanoscale where the wave picture of electrons salvages our understanding of matter and energy. Electrons can act as particles or waves. The wave picture has its origins in the quantum theory.
