"Aleksandr Timofeev" wrote in message
om...
"George Dishman" wrote in message
...
"Aleksandr Timofeev" wrote in message
om...

snip to relevant text

1. A capacitive parametric resonance.
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The electron, proton and space between them is the condenser.
Thus at each complete turnover of an electron, the exterior
electric field of a wave renders parametric change of a capacitor
CAPACITANCE of Atom.

Please show your calculation for the capacitance for
an isolated atom. Please then show how you derive your
equation for the dependence of the capacitance on the
strength of the electric field.

It can be made by a rather refined method in zero approach.
You evaluate capacity of a spatial figure of the relevant
geometry of allocation of a density of charge of electron cloud
of a concrete electron concerning a core.
Evaluation of differential capacity in first and other
orders I abandon on your discretion. ;-)

Now Aleksandr, I answered your questions on RC oscillators.
This is your analogy so it is up to you to present it. You
of all people should realise that without the maths to back
them up, words carry little substance in scientific circles.

2. Inductive parametric resonance.
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In system an electron and core, the motion of an electron is
the loop of an electric current.
Thus, the electron, moving on a closed path, can be submitted
as INDUCTANCE. Thus at each complete turnover of an electron,
the exterior magnetic field of a wave renders parametric change
of INDUCTANCE of Atom.

Please show your calculation for the inductance for
an isolated atom. Please then show how you derive your
equation for the dependence of the inductance on the
strength of the magnetic field.

It can be made by a rather refined method in zero approach.
You evaluate inductance of a spatial figure of the relevant
geometry of allocation of a current density for electron cloud
of a concrete electron concerning a core.
Evaluation differential inductance in first and other orders
I abandon on your discretion. ;-)

Again, this is your idea, you can't expect others
to create it for you.

3. Complex parametric resonance of Atom.
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The integrated Inductive parametric resonance and Capacitive
parametric resonance is the mechanism of a complex parametric
resonance of Atom.

Inductive component of a complex parametric resonance and
Capacitive component of a complex parametric resonance can be
in "phase", in "antiphase" or disbalanced state.

Please demonstrate how this is derived from your results
for points 1. and 2.

At first we should complete arguing 1. and 2.,
and then we can advance further. :-(

Agreed, but to do that you will need to present
something that can be argued.

George