How discovery of radio proves physical existence of invisible dimensions.

The digital detour and the alchemy of quantum mechanics of the 20th century have alienated us from the inventions of true radio in line with the original intent of the pioneers, and from the intuitive, natural, and beneficial applications of analog equipment.

In this simple, descriptive treatment of Tesla's work:

- We start with the analysis of Tesla's experiment in his US patent 787412, providing explanations for his lower bounds, requirements, and superluminal speeds. Modes of operation of Tesla transformer are analyzed, and the true nature of the so-called Tesla-wave explained, considering what renders it to be the most significant technological discovery to date.

- We recognize that the very discovery of radio is a witness to the physical existence of invisible, exclusively 3-dimensional worlds, and spherical potential waves in a fully three-dimensional imaginary space are a fundamental phenomenon and physical reality.

- We progress to discuss implications and applications, and claim that properly constructed radio waves do not travel through our visible domain, allowing for efficient wireless energy transfer irrespective of distance.

- Finally, concentrated in one of the last of the 12 chapters, we present a concise mathematical treatment based on Maxwell's equations in characterizing the Tesla effect.

Redefining the thinking outside-the-box and challenging the state of the art in modern physics, I submit this innovation to your careful scrutiny. This descriptive work is accessible to any reader, including physics and mathematics scholars skilled in the art. The combined experience in the above treatment yields a novel, simple, yet comprehensive view of the spatial construction of the universe, above and beyond the everyday three-dimensional reality experienced by physical senses.

No sensationalist descriptions involving time travel, weapons of global destruction, Soviet military research, mind alteration, age reversal, UFOs, aliens, and a myriad of other manufactured and unrelated topics, are contained in this text. No strings, tensors, elementary particles, or any of the traditional special relativity effects are associated with Tesla waves, and are not mentioned in this text. The most significant problem in theoretical interpretation of Tesla's ideas to date - was the avoidance of the most obvious solution.

Read this flagship book, and discover that the universe is so small that we are all intimately connected through a countably infinite set of pathways of ever decreasing length, and that it is yet so large, that it escapes our senses.

Universe is a lattice of countably infinitely many, mutually embedded, distinct, experientially equivalent, fully-fledged three-dimensional worlds, with all corresponding lengths ratio of Pi/2. Illustrated in C^3, universe is simply a sphere of radius zero.

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About the Author: Vladimir Dimitrijevic was born in Kragujevac, Serbia. He earned his Bachelor of Science degree with a double major in Mathematics and Computer Science and a minor in Physics at Youngstown State University, Youngstown, Ohio, USA, in 1992; the Master of Science in Mathematics at Youngstown State University, Youngstown, Ohio, USA, in 1994; and the Master of Arts degree in Computer Science at Kent State University, Kent, Ohio, USA, in 1995. He is a ISTQB Certified Software Tester by the Swiss Association for Quality.

He assumed a series of contractual positions for a number of financial institutions and IT firms in the U.S., Canada and Switzerland, in a capacity of an associate director, line manager, test and team leader, senior QA analyst, professional services consultant, senior programmer / analyst, and scientific researcher. Some of the clients include the Ohio Supercomputer Center, Petnica Scientific Research Center, Keane Inc., Manulife Financial, American Family Insurance, Compuware Corporation, Zurich Insurance, Credit Suisse First Boston, and the Zurich stock exchange. Research interests include various topics in fuzzy sets and categories, iterative matrix analysis, finite elements methodology applied to physics, visualization, parallel computing, symbolic computing, computational complexity of algorithms, membership problems, models of computation, polynomial representations, optics, thermodynamics and electromagnetics.

Vladimir is a recipient of corporate teamwork recognition awards, and the 1st prize award at the Mathematical Association of America / Canadian Mathematical Society Annual Conference, University of British Columbia, Vancouver, BC, Canada, 1993.