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Presentazione in italiano dell'originale lavoro di J.C.Maxwell del 1848 sulla Teoria EM e descrizione della riduzione da parte di Lorenz dall'originaria algebra non-euclidea, non-commutativa dei Quaternoni scelta da Maxwell in algebra euclidea e commutativa dei vettori con relativa semplificazione per l'insegnamento ma perdita di suggestività applicative. Descrizione delle successive peripezie di Nikola Tesla contrastato dal mondo accademico culminate nel suo rifiuto di ben due Premi Nobel. Presentation of the original Maxwell paper that converted the Faraday's suggestive perception of field of energy into the first historical mathematical model in quaternion-algebra, anticipatory of the Einstein's description of general relativity in tensor-algebra: a non-eucledian, non commutative set of equations.
The Maxwell, Einstein, Schrödinger and Dirac equations are considered the most important equations in all of physics. This volume aims to provide new eight- and twelve-dimensional complex solutions to these equations for the first time in order to reveal their richness and continued importance for advancing fundamental Physics. If M-Theory is to keep its promise of defining the ultimate structure of matter and spacetime, it is only through the topological configurations of additional dimensionality (or degrees of freedom) that this will be possible. Stretching the exploration of complex space through all of the main equations of Physics should help tighten the noose on “the” fundamental theory. This kind of exploration of higher dimensional spacetime has for the most part been neglected by M-theorists and physicists in general and is taken to its penultimate form here.
This exciting essay focuses on the explanation and analysis of Nikola Tesla's The Problem of Increasing Human Energy, one the most influential works in history and whose understanding, due to its complexity and depth, escapes comprehension on a first reading. Whether you have already read The Problem of Increasing Human Energy or not, this essay will allow you to immerse yourself in each and every one of its meanings, opening a window to Tesla's visionary thought and his true intention when he created this immortal work.
NIKOLA TESLA was a gifted electrical and mechanical engineer, and was one of the most influential inventors of the last century. Eventually holding over 700 patents, Tesla worked in a number of fields, including electricity, robotics, radar, and the wireless transmission of energy. His discoveries laid the groundwork for many of the twentieth century’s greatest technological advances. This book contains Tesla’s thoughts on humanity’s relationship with the universe, and also his explanation and scientific extrapolation on the technological advancements embodied in his work. This text, first published in Century Illustrated Magazine in June 1900, is yet another example of the genius of Nikola Tesla. CONTENTS Introduction • The onward movement of humanity• The energy of the movement• The three ways of increasing human energy 1 • The first problem: how to increase human mass• The burning of atmospheric nitrogen 2 • The second problem: how to reduce the force retarding the human mass• The art of telautomatics 3 • The third problem: how to increase the force accelerating the human mass• The harnessing of the Sun’s energy 4 • The source of human energy• The three ways of drawing energy from the Sun 5 • Great possibilities offered by iron for increasing human performance• Enormous waste in iron manufacture 6 • Economical production of iron by a new process 7• The coming of age of aluminium• The doom of the copper industry• The great civilizing potency of the new metal 8 • Efforts toward obtaining more energy from coal• Electric transmission• The gas engine• The cold-coal battery 9 • Energy from the medium• The windmill and the solar engine• Motive power from terrestrial heat• Electricity from natural sources 10 • A departure from known methods• The possibility of a ‘self-acting’ engine or machine• The ideal way of obtaining motive power 11 • First efforts to produce the self-acting engine• The mechanical oscillator• The work of Dewar and Linde• Liquid air 12 • Discovery of unexpected properties of the atmosphere• Strange experiments• Transmission of electrical energy through one wire without return• Transmission through the Earth without any wire 13 • Wireless telegraphy• The secret of tuning• Errors in the Hertzian investigations• A receiver of wonderful sensitivity 14• Development of a new principle• The electrical oscillator• Production of immense electrical movements• The Earth responds to man• Interplanetary communication now probable 15 • Transmission of electrical energy to any distance without wires now possible• The best means of increasing the force accelerating the human mass
The immense genius of Tesla resulted from a mind that could see an invention in 3-D, from every angle, within his mind before it was easily built. Tesla’s inventions were complete down to dimensions and part sizes in his visionary process. Tesla would envision his electromagnetic devices as he stared into the sky, or into a corner of his laboratory. His inventions on rotating magnetic fields creating AC current as we know it today, have changed the world—yet most people have never heard of this great inventor Is he a suppressed inventor, as many historians contend? Many of Tesla’s concepts and inventions are still thought of as science fiction today—over 60 years later! Includes: Tesla’s fantastic vision of the future, his wireless transmission of power, Tesla’s Magnifying Transmitter, the testing and building of his towers for wireless power, tons more. The genius of Nikola Tesla is being realized by millions all over the world!
James Clerk Maxwell published the Treatise on Electricity and Magnetism in 1873. At his death, six years later, his theory of the electromagnetic field was neither well understood nor widely accepted. By the mid-1890s, however, it was regarded as one of the most fundamental and fruitful of all physical theories. Bruce J. Hunt examines the joint work of a group of young British physicists--G. F. FitzGerald, Oliver Heaviside, and Oliver Lodge--along with a key German contributor, Heinrich Hertz. It was these "Maxwellians" who transformed the fertile but half-finished ideas presented in the Treatise into the concise and powerful system now known as "Maxwell's theory."
Serbian inventor Nikola Tesla (1857-1943), was a revolutionary scientist who forever changed the scientific fields of electricity and magnetism. This book is part philosophy and part scientific exploration of humanity's interaction with the universe.
Wireless communications have become invaluable in the modern world. The market is going through a revolutionary transformation as new technologies and standards endeavor to keep up with demand for integrated and low-cost mobile and wireless devices. Due to their ubiquity, there is also a need for a simplification of the design of wireless systems and networks. The Handbook of Research on Advanced Trends in Microwave and Communication Engineering showcases the current trends and approaches in the design and analysis of reconfigurable microwave devices, antennas for wireless applications, and wireless communication technologies. Outlining both theoretical and experimental approaches, this publication brings to light the unique design issues of this emerging research, making it an ideal reference source for engineers, researchers, graduate students, and IT professionals.
An authoritative view of Maxwell's Equations that takes theory to practice Maxwell's Equations is a practical guide to one of the most remarkable sets of equations ever devised. Professor Paul Huray presents techniques that show the reader how to obtain analytic solutions for Maxwell's equations for ideal materials and boundary conditions. These solutions are then used as a benchmark for solving real-world problems. Coverage includes: An historical overview of electromagnetic concepts before Maxwell and how we define fundamental units and universal constants today A review of vector analysis and vector operations of scalar, vector, and tensor products Electrostatic fields and the interaction of those fields with dielectric materials and good conductors A method for solving electrostatic problems through the use of Poisson's and Laplace's equations and Green's function Electrical resistance and power dissipation; superconductivity from an experimental perspective; and the equation of continuity An introduction to magnetism from the experimental inverse square of the Biot-Savart law so that Maxwell's magnetic flux equations can be deduced Maxwell's Equations serves as an ideal textbook for undergraduate students in junior/senior electromagnetics courses and graduate students, as well as a resource for electrical engineers.