Beyond Einstein

By JOHN N. HAIT

Einstein spent the last 30 years of his life trying to find a way to explain the universe in an intuitive, easy-to-understand manner. His goal was a Unified Field Theory, or Theory of Everything. It would unify all physics, and reconcile his General Relativity with Quantum Mechanics—a task that seemed impossible. But, there were several obstacles in the way that have since been removed, leading to the discovery of the Resonant Field Theory, which achieves his goals and goes beyond.

First, we needed a clearer understanding of light, and how it really works. But in order to gain that, better tools were needed… namely the laser, which was not invented until five years after he died. By working with lasers, we have gained a much clearer understanding of how light works—inside. Working with some of the first lasers, Nobel laureate Harry Stover (whom I had the privilege to work with,) did some fine work on the “Capture Effect.” It demonstrated the need for field systems to wavelength-match within very narrow limits in order to exchange energy. It helped us to understand why the Sun, for example, produces a series of wavelength lines in its detailed spectrum rather than a continuous rainbow of color.

This explains why atoms don’t collapse in on themselves, but are self-organized into resonant atomic components with long waves on the outside, and short waves on the inside.

Stephen Hawking found “singularity” at the center of atoms. The Resonant Field Theory predicts it, explains what it is, and why some claim that the “laws of physics” break down there.

The next missing item was to simply ask the right question. Another Nobel laureate, Richard Feynman, asked, ‘What about the machinery of it? All we have done is to explain how the Earth moves around the Sun, but we have not said, what makes it go… no one has yet given us any machinery.’

Finding that machinery and how it works was a watershed event. It suddenly brought all the pieces of the puzzle together, and opened the door of understanding as we have been learning in this series. The Resonant Field Theory answers age-old questions like: What makes thing go in orbit? What generates Newton’s laws? What makes gravity work, and how about antigravity? Why does electricity flow in a circuit? What is magnetism? Why don’t things go faster than light?

One of the biggest obstacles was Heisenberg’s Uncertainty Principle. He imagined micro-field-effects to be random, and therefore impossible to examine by any method other than statistics gathered over time. The fallacy of his theory has been examined several times in this CoolScientist series.*

This is exceedingly important, because the micro-world is not as Heisenberg imagined, and therefore, his theory tends to direct researchers down one dead-end road after another.

To illustrate, when you burn hydrogen you always get warm water, you never get chocolate piggies or any other random result— for if the internal machinery of things were random, only random things could result. (A random number times anything always produces a random number.) It’s the definition of “random.”

Reality is pseudorandom. Because all field systems are resonant, they continually recalculate into themselves, repeating their field activities precisely and accurately. Thus, it is this very pseudorandom behavior that makes things reliable, consistent and repeatable. It manufactures the statistics of quantum mechanics. For without it, there would be no mechanism for generating the observed phenomena…there would be no quantum mechanics to study…indeed, no mathematical science at all.

Now you can go beyond Einstein and learn more about resonant fields by reading the easy-to-understand e-book, Resonant Fields: the Fundamental Mechanism of Physics, made easy to understand available at www.coolscience.info on the Internet.*

The first chapter of this 500 page illustrated book is free. © 2004 by CoolScience