Quantum standing wave energy storage theory

Why is quantum theory based on spherical standing wave structure?

Quantum theory was essentially founded on the experimental observations of frequency and wavelength for both light and matter. These empirical facts are consistent with the Spherical Standing Wave structure of matter. Quantum theory was founded on Planck's discovery that energy is related to frequency in the equation E=hf.

Why are waves significant in quantum physics?

Waves are central to Quantum Physics and our understanding of the structure and discrete energy states of Matter (which is why Quantum Theory is also called Quantum Wave Mechanics).

Is matter a spherical standing wave?

In quantum theory, the solution of realizing that matter behaves as a spherical standing wave causing the point particle effect at the Wave-Center remained unknown and ignored. Instead, the concept of particle / wave duality was retained, which is considered confusing and paradoxical.

What is Schrodinger's standing wave equation?

Schrodinger's Standing Wave equations can be used to describe the allowed discrete energy states for electrons (Wave-Centers) in atoms or molecules. (Planck, de Broglie)

What is a standing wave?

It's bit like a wave in a closed string. But it isn't a wave on a string, it's an electromagnetic wave that's configured as a standing wave. A field variation that's configured as a standing field. It has a Compton wavelength of 2.426 x 10⁻¹² m.

Why are quantum obejcts discrete?

The discreteness of the orbitals has nothing to do with "stability of the particle" (however, with stability in time, see below), they are simply the only states that appear as solutions to the time-independent Schrödinger equation. Quantum objects are not waves. Quantum obejcts are not classical point-like particles.