3 To the Field Theory of Electron

The theory of the molecular charge provides the method whereby a great number of electrolysis connected facts may be explained. It is extremely unbelievable that, having come to the understanding of the real electrolysis nature, we would keep the theory of the molecular charges in any form, for then we will get a safe basis for the correct description of electric current conduct, in the result of what the necessity for these temporary theories will drop out.

James Maxwell «Tract»

Hence the classical theory of electron tells that an electron itself is a heterogeneous solid, which can be entered into the theory by the means of non satisfactory added assumptions. To resume, we could, in the present moment, state a paradoxical assertion that the classical theory of electron crushed as a result of the electron existence.

Richard Becker «Electron theory»

ELECTRON was named by Johnston Stonay (1891) even before its official registration in experiments made by Joseph John Thomson (1897). Hendrik Antoon Lorentz modernized electrodynamics of Faraday–Maxwell–Hertz and developed Lorentz's electron theory and theory of electron. In his article, «On Dynamics of Electron», (1905), Henry Poincaré introduced in explicit form pressure of ether in an explicit form to compensate forces of mutual repulsion between electron parts with like charges.

The translation from Russian was made by Yuri Nezhentsev
Last modifications: November 22 2002

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3 To the Field Theory of Electron

3.0 Fundamentals of SubQuantum Physics

3.1 Maxwell Equations define Physics of Sources

3.2 Hyperbolic Current Threads

3.3 The Law of Motion for Sources

3.4 The New Momentum-Energy Tensor of Field. 6-Formalism