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Hydrogen has a single electron. Two forces may be associated with the electron of hydrogen. The forces act simultaneously.

Force may be represented as a vector. The vectors of force may have a “radiant state” and a “steady state”.  The states may be defined by “conditions” imposed upon the vectors.

The steady state will return the binding energy of the electron, and the radiant state will give the Stephan-Boltzmann constant.

Do conditions imposed upon the vectors represent different states of the electron?

Reference;         URL deleted              04 The States of Hydrogen  

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32 minutes ago, chemguy said:

Hydrogen has a single electron. Two forces may be associated with the electron of hydrogen. The forces act simultaneously.

Force may be represented as a vector. The vectors of force may have a “radiant state” and a “steady state”.  The states may be defined by “conditions” imposed upon the vectors.

Forces do not have radiant states

Vectors are irrelevant here, as the electron does not have a defined position 

Hydrogen has a ground state and excited states; any state above the lowest one may radiate (whether they do is subject to other conservation laws)
 

32 minutes ago, chemguy said:

The steady state will return the binding energy of the electron, and the radiant state will give the Stephan-Boltzmann constant.

Nonsensical.

 

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