Hello,
I know it causes problems, but I have noticed that the orbitals relate to unspecified locations with specific types of planetary orbiting around a star. For instance, there are orbitals that go like comets and some that seem to go like comets going through a couple of orbits to get back to the same trajectories. There are orbitals like a moon orbiting an earth that orbits a star. There can be an orbital where one particle orbits the main object while another object keeps meeting it at the same place and loops away from it.
I have also been able to generalize the orbitals to 2-D and 1-D. The 1-d 1s1 orbital is just a particle that appears on opposite sides of the main particle periodically (and the coupled electron can just be on the other side at a given time in the period). To me it represents the simplest thought; that of one particle relaying across another.
Let me get a feel for this board by seeing how you reply.
I know it causes problems, but I have noticed that the orbitals relate to unspecified locations with specific types of planetary orbiting around a star. For instance, there are orbitals that go like comets and some that seem to go like comets going through a couple of orbits to get back to the same trajectories. There are orbitals like a moon orbiting an earth that orbits a star. There can be an orbital where one particle orbits the main object while another object keeps meeting it at the same place and loops away from it.
I have also been able to generalize the orbitals to 2-D and 1-D. The 1-d 1s1 orbital is just a particle that appears on opposite sides of the main particle periodically (and the coupled electron can just be on the other side at a given time in the period). To me it represents the simplest thought; that of one particle relaying across another.
Let me get a feel for this board by seeing how you reply.