FROM The Universal Theory of Contiguity

The Universal Theory Of Contiguity: A Unified Field Theory

(c)1998 By Judith S. Stone

The Universal Theory Of Contiguity (c)1998, is a Unified Field Theory and Cosmology, pinpointing the flaws that have prohibited the establishment of a completed Unified Field Theory. This theory gives a perspective of the energy field as it was relayed by Michael Faraday through his experimental researches in electricity and magnetism.



Montage of Jupiter and the Galilean
satellites, Io, Europa, Ganymede, and Callisto
(with added animation).
Credit:  Jet Propulsion Laboratory, Nasa;
Voyager I photo (P-21631C, 79-HC-256)

FROM The Universal Theory of ContiguityThe Milky Way's Center Credit: NASA, Cosmic Background Explorer (COBE) Project



Highlights and Features

A Complete Theorem As Presented At The Annual Convention of The American Association For The Advancement of Science(AAAS) in Washington, DC, 2000:

A Unified Field Theory

A New Theory On Magnetic Fields and Their Relation To Gravity

A Cosmology Of The Solar System

A Theory Of Zero-point Energy

An Atmospheric Cold Fusion Theory

Radioactive Decay Theory

Hyperfine States And Coherent Radiation

An Extension of Planck's Theory Of Blackbody Radiation

The ‘Ideal Blackbody'(Hypothesized, But Never Found--supposedly different from ideal gases)

Theorem Of Cosmic Ray Events

An Ultraviolet Theory


 

 


 

 

 

 


 

 jsstone05@yahoo.com




MICHAEL FARADAY (1791-1867)

Michael Faraday (1791-1867), British physicist and chemist, was born on September 22, 1791, in Newington, Surrey, England. He was employed at the Royal Institute, London, England, where he performed experimental researches in electricity, magnetism and chemistry for nearly fifty years. Among his discoveries were electro-magnetic induction (1831), diamagnetism and the chemical element benzene. He was the first to liquefy chlorine, and his study of chlorine led to the discovery of two new chlorides of carbon, when in 1820 he produced the first known compounds of Chlorines of carbon by substituting Chlorine for Hydrogen in olefiant gas (ethylene). These were the first substitution reactions ever induced. In a series of experiments, he was successful in liquefying a number of common gases. He formulated the second law of electrolysis, "the amounts of bodies which are equivalent to each other in their ordinary chemical action have equal quantities of electricity naturally associated with them." His experimental findings in chemistry contributed to the establishment of many other new laws in electrolysis. He devised the laws of chemical electro-decomposition of metals from solutions in 1857, and he investigated a number of new varieties of optical glass. Faraday invented the 'dynamo,' which later became the premise behind the electric generator that is used today to generate electricity around the world. He, also, invented the first electric motor, the fundamental properties of which was later used by Henry Ford in his 'motor car.' Through his analogies of 'convertible' forces, Faraday changed scientific concepts of the energy field, showing that forces were interchangeable into one another. He, in actuality, was the first to devise and present a 'Unified Field Theory' entitled, 'Thoughts On Ray Vibrations,' published in 1846. His thesis, which describes the functioning of forces and energies in an electromagnetic field, proposes that 'radiant' matter, or light, replace the aether hypothesis long before Einstein's proposal of same. In 1852, Faraday expounded upon this original thesis with regard to 'magnetic lines of force' in his published work, 'On The Physical Character Of The Lines Of Force, as well as through experimental researches 3266, 3267 and 3268. Faraday's experimental researches 3266 and 3268 were the ones used, in part, in the formulation of Maxwell's Equations.

MAXWELL'S EQUATIONS

Michael Faraday's analogies regarding 'lines of force,'  as they can be seen in the iron filings that surround a bar magnet, were mathematized by William Thomson and included, 'in part,' in Maxwell's equations.  Thomson's mathematization, however, was for electrostatic induction, only, and did not portray the whole of Faraday's analogies for 'magnetic lines of force,' which Maxwell, in his 'Treatises on Electricity & Magnetism, Vol. 2, Art. 645, states the mathematization relays. Faraday had spent most of his life researching the magnetic lines of force, as they may be seen in the iron filings surrounding a bar magnet, and relateded their functioning to the effect that they exhibit within the medium, or the 'space' surrounding the magnet.

Faraday's 'magnetic lines of force'


HISTORICAL BREAKTHROUGH

Many of Faraday's experimental research notes are shown in this book in chronological order, in order to demonstrate his quest for the 'discovery' of the medium, or space.   The historical thesis in this book is followed by an astrophysical theorem that is founded on Faraday's true hypothesis of the energy field, and relates his experimental findings to the behavior of 'magnetic lines of force'as they function within the atmospheric medium and interstellar space.

MyCn18: An Hourglass Nebula
Credit: R. Sahai and J. Trauger (JPL),WFPC2,HST, NASA
(JPL), WFPC2 Science Team, Nasa

Symbiotic Star Bubbles
Credit: R. Corradi (Instituto de Astrofisica de Canarias) et al., NASA



THE UNIVERSAL THEORY OF CONTIGUITY *(c) 1998:  
A Unified Field Theory and Cosmology. 

"The Universal Theory of Contiguity" (c) copyright l998 by Judith S. Stone, Cosmogony Publications, Dallas, Texas  75205,  ISBN#0-9646619-9-1-8.
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