What are the frequency spectra of particles with mass? Do they vary or does a neutron always have the same spectrum? If a photon or an electron interacts with the energy dense nucleus of an atom then surely the innermost portion of the wave will slow causing refraction towards the dense nucleus.
The idea of a magnetic field is an interesting one. Electrons take a certain path at a fraction of the speed of light the magnetic field may just be a good way of tracking ionic change properties in air and in a more dense medium.
When an electomagnetic wave travels past a more dense medium there is a propensity for more Bragg type effects. Is there more noise created at other Fourier components? The main wave slows and continues at the same frequency. Does the wave lose energy and give the energy up to a different wavelength?
Wednesday 23 December 2015
Saturday 12 December 2015
Statistical push from above and pull from below.
Statistical push of electrons tending to escape overwhelmed by the geometry of imbalanced charge and the push of returning electrons.
That is to say an object at the surface of the earth will tend to get pulled into the earth because there will be a tendency for a slight imbalance between electrons and protons at the center of the Earth. This imbalance between the number of electrons and protons that fit in the orbitals that would ideally be explained by a chemistry teacher is responsible for a push-pull whose net effect is gravity. The Earth could actually be any sphere of any size. There will be a deficit of electrons at the center of the sphere and a surplus of electrons outside the center of the sphere. In between the center and the periphery we experience gravity.
The electrons at the top of the sphere will have a tendency to launch themselves out into space. After being launched the electron will be attracted by the charge imbalance and will want to return back to earth.
Statistically the object on the surface of the Earth will experience a weak force at the top due to electron return. The bottom of the object will have a net negative charge and be attracted to the imbalance between the electrons tending outwards and the protons which stand still.
That is to say an object at the surface of the earth will tend to get pulled into the earth because there will be a tendency for a slight imbalance between electrons and protons at the center of the Earth. This imbalance between the number of electrons and protons that fit in the orbitals that would ideally be explained by a chemistry teacher is responsible for a push-pull whose net effect is gravity. The Earth could actually be any sphere of any size. There will be a deficit of electrons at the center of the sphere and a surplus of electrons outside the center of the sphere. In between the center and the periphery we experience gravity.
The electrons at the top of the sphere will have a tendency to launch themselves out into space. After being launched the electron will be attracted by the charge imbalance and will want to return back to earth.
Statistically the object on the surface of the Earth will experience a weak force at the top due to electron return. The bottom of the object will have a net negative charge and be attracted to the imbalance between the electrons tending outwards and the protons which stand still.
Subscribe to:
Posts (Atom)