Fundamental Properties of Electromagnetic Energy

Overview of the Book

I have devoted much of my time to solving the mysteries of electromagnetic energy. I have studied the facts, considered the possibilities, and put the pieces together in a cohesive form.

The result is a completely new understanding of electromagnetic energy. For the first time, the majority of mysteries of electromagnetic energy have now been solved. We now have detailed physical structures, sophisticated understanding of EM motion, and many other solutions.

The first book in the series is “Fundamental Properties of Electromagnetic Energy”. This book gives you a starting point for how we should look at electromagnetic energy.

Prior to this book electromagnetic energy was somewhat mysterious. What is its physical structure? How should we think of it? Those answers are provided in this book.

Discoveries Presented in the Book

In this book you will learn discoveries such as:

• What is the basic structure of electromagnetic energy?
• What are the basic properties?
• What are the main types of motion?

These questions are answered in book 1.

I use many illustrations, and some fun analogies, to explain these properties. The analogies are perhaps the most fun aspect of the book. (Readers have told me that they like the analogies, which pleases me very much).

Particle-Wave Duality Solved for the First Time

The book finishes with something incredibly significant: the basic solution to particle-wave duality of electromagnetic energy.

This is extremely significant, and very historic. For over 100 years scientists have known that light acts as both particle and wave. Yet nobody could figure out the physical structure for how light could be both at the same time.

Einstein and Bohr both tried. They worked on the problem for years. Neither one was able to solve it. I am the first person to solve this mystery.

In this first book, I provide the solution. After discussing the basic properties and motions of electromagnetic energy throughout the book, I then provide the solution for particle wave duality. This is illustrated very simply.

Note that this book provides the first solution, and the most basic illustration. In my third book “Photons in Motion” I provide a much more detailed description of the physical structure of the electromagnetic energy, which also leads to a more detailed physical picture of the particle-wave duality.

Hidden Variables Discovered

Another important discovery is the “hidden variables”. Einstein believed there would be hidden variables which would finally make sense of the quantum world. These hidden variables would turn the randomness of the quantum world into the predictability known in the classical world.

For years people debated these hidden variables – not only what they could be, but whether or not such things could exist.

I have discovered these hidden variables. These hidden variables are first hinted at in this book. A later article I wrote develops these hidden variables further. (This article is also included in my book on Gravity Strings, in the Appendix).

Historic Significance

It is not exaggeration to say that many of the discoveries presented in this book are historic. Providing a solution to the particle-wave duality alone is significant.

For over 100 years, light was known to be both particle and a wave, yet nobody could put the two together.

Going back further, between the times of Newton and Einstein, light was known to be sometimes a particle, sometimes a wave, with continuing debate on which “one” it actually is. The wave theory prevailed with Maxwell and Hertz, until Einstein came back with the particle theory (the photon) for which he won the Nobel Prize.

Then Bohr and Einstein, at approximately the same time, said that both particle and wave characteristics are aspects of the same entity. Thus, the concept of “particle-wave duality” was presented.

From that moment onwards, both Bohr and Einstein tried to solve this particle-wave duality. Yet they could not. For example, here are some things Bohr and Einstein said about the subject, as they tried to solve the mystery.

Einstein said in a speech (1909): “The next stage in the development of theoretical physics will bring us a theory of light that may be conceived as a sort of fusion of the wave and of the emission theory (photons) of light”.

Indeed, I have developed such a theory!

Einstein also wrote in 1924: “There are therefore now two theories of light, both indispensable and – as one must admit today despite twenty years of tremendous effort on the part of theoretical physicists – without any logical connection.”

Notice that Einstein says that many theoretical physicists have worked on the puzzle, yet none of them have been able to solve it. Therefore the fact that I have discovered a solution is, again, significant.

And science author Manjit Kumar (in his book “Quantum”) had this to say about discussions between Bohr and Heisenberg: “Nothing caused them more pain than wave-particle duality”. Kumar said later: “the harder Bohr and Heisenberg thought about wave-particle duality, the worse things seemed to become.”

Therefore, being able to solve particle-wave duality for electromagnetic energy is of great significance!

The solution is first presented in this book – “FundamentalProperties of Electromagnetic Energy”. The physical structure and process is then developed, and illustrated, in greater detail, in the book “Photons in Motion.”

EM Book #1 Available for Purchase

This first book in the series: “Fundamental Properties of Electromagnetic Energy” will give a broad overview of the physical structures and physical properties of electromagnetic energy. In the next books in the series, the concepts are more fully developed, and additional processes are discussed.

As with all of my books, this book is written in very simple language. There are numerous illustrations, and several helpful analogies.

This book can be obtained as either an e-book or a printedbook. (The e-book is readable on your computer, yet the pictures may come out more clearly in the printed book).

I hope you enjoy, and learn from it easily.