Quantum Wave Mechanics: The Schrodinger Wave Equations / Standing Wave Interactions (1928) Quantum theory was thus essentially founded on the experimental observations of frequency and wavelength for both light and matter. These empirical facts are o
Quantum Theory: The Compton Wavelength 2.43*10 -12 m of the Electron Y=h/mc (1923) As stated, in hindsight there were many clues as to the Wave Structure of the Electron. Another obvious clue being that the electron itself has a 'Compton' wavelength
1.2 Quantum Theory / Mechanics: de Broglie's Discovery of the Wave Properties of Electrons (1927) The next step was taken by de Broglie. He asked himself how the discrete states could be understood by the aid of current concepts, and hit on a paralle
Albert Einstein (1905) used Planck's relationship to explain the results of the photoelectric effect which showed that the energy E of ejected electrons was dependent upon the frequency f of incident light as described in the equation E=hf . It is ir
1.1 Quantum Physics Foundations: Max Planck's Discovery of Particle / Quantum Properties of Light (1900) In 1900 Max Planck made a profound discovery. He showed (from purely formal / mathematical foundations) that light must be emitted and absorbed i
Principle Two - On the Necessary Connections between What Exists i) Any Change in Velocity of the Spherical In-Waves from One Direction Changes where these In-Waves meet at their respective Wave-Center which we see as the Accelerated Motion of the 'P
Principle One - On What Exists and its Properties i) One Thing, Space (Infinite and Eternal) Exists as a Wave-Medium and contains Wave-Motions which Propagate at the Velocity of Light c. ii) Matter Exists as the Spherical Wave Motion of Space (which
What we observe as material bodies and forces are nothing but shapes and variations in the structure of space. Particles are just schaumkommen (appearances). The world is given to me only once, not one existing and one perceived. Subject and object a
