With 'Gill's Electronic Theory of Magnetism 1964' | Book Publisher International

 Discussion of the merits of Gill's electronic theory of magnetism (1964) over Maxwell's dipole theory of magnetism (1873) in Chapter 1. The asymmetry problem is resolved and Faraday's iron ring experiment from 1831 is once again explained. The cross-products of Henrik Lorentz 1893 are not necessary for any computations; merely dot-products can be used instead.

Meissner experiment from 1933 is revisited in Chapter 2. According to "Gill's electronic theory of magnetism 1964," when a magnet is cooled, the magnetic force/flux can only be discharged laterally from the magnet's two ends. The temperature-dependent phases of magnetization are a product of Pierre Curies' high temperature experiments and the extremely cold Meissner experiment.

Chapter 3: Bullet train physics in might be clarified and made more practical.

Chapter 4: The Sun's Message In order to decrease the usage of petroleum products, it is time to double the mild electrical energy that already reaches the Earth through the "coil effect" as described in 1859.

Chapter 5: "Gill's electronic theory of magnetism 1964" is used to determine "Hypothesis non-fingo 1713." Mathematical explanations are provided for why objects lose mass with height to become satellites and why the pendulum accelerates most near the Earth's magnetic poles and least at its equator.

As stated in the "Message from the SUN" essay, we must harness a tremendous quantity of solar electric energy via the "coil effect" in order to satisfy our planet's needs.

With "Gill's electronic theory of magnetism 1964," bullet train physics is made simpler, more practical, and easier to operate satellites.

Maxwell's dipole theory of magnetism from 1873 should be replaced with Gill's electronic theory of magnetism from 1964. The computations in all the relevant chapters can be completed using only dot products. No need for the cross products from 1893 by Henrik Lorentz.

Author(s) Details:

Avtar Singh Gill MD,
Maimonides Medical Center, Brooklyn, New York,USA.

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