What makes things move?

By John N. Hait

About 99 years ago, Einstein published his first paper on relativity. For 10 years he was ignored, primarily because he was “just a patent clerk” in the Swiss patent office. But what a revolution in science he started. We stand at a similar juncture today.

Since 1905, many experiments have verified his theories. His postulate that nothing moves faster than light turned the world of physics on its ear. However, what he was unable to tell us was, What is it about nature that prevents things from going faster than the speed of light?

Over the course of the century, many experiments were conducted. And a considerable amount of evidence has been documented, so that we now know the answer, which was explained in CoolScientist Lesson 10.*

The Resonant Field Theory, which was built by standing on the shoulders of many giants like Einstein, brings together those pieces of the puzzle to answer many such age-old questions.

Since everything in the universe is made of resonant fields, we have also discovered, in that lesson, how it is that things made of energy, (which is constantly moving at the speed of light,) are able to stand still. It’s because they resonant in a spherical shape. Like a dog chasing his tail, no matter how fast he runs, he never gets anywhere. And as long as he chases his tail, he will never catch another dog that runs past him in a straight line.

This week we will discover the mechanism that makes things move.

From light, we learn that whenever two field systems having matching wavelengths (circular or in a straight line) overlap, they will combine producing constructive interference. That is, the energy is relocated within each overlapping wavelength, headed in a direction, which is determined by the relative phase of the fields as they overlap. (That is, the timing of when the energy from each direction arrives.) The process is extremely precise and repeatable. If they overlap with exactly the same timing, on each revolution around the atom, the energy will be directed to the exact same location in space each time. Thus, like the dog, it stands still, circulating in place.

But if one part has its phase changed by some outside field system, then the combined energy will show up in a slightly different place. This causes the whole atom to re-resonate into a new location… that is…it moves itself!

There are two ways to make things move. Gravity, (which we will discuss in a future lesson) and by pushing (or pulling) it.

Now let’s put a radio-controlled rudder on the dog’s tail, so that we can make his tail move closer to the center of the dog’s circle, or further away. If we make the tail move out on the left side of his circle, and in on the right side, the dog will follow his tail, and his circle will move left.

But if we make his tail move in on the left side of his circle, and out on the right side of his circle, the dog will move to the right. Thus, we can move the dog in any direction we like.

When we push on an atom, energy enters it from the thing pushing it. This energy warps the atomic energy-flow pattern, changing the phase relationships inside the atom, causing its energy to show up in a slightly different place in space on each revolution as it re-resonates. Thus, it moves itself.

Just as Newton observed, once you impart energy to it, it will keep re-resonating at a pre-determined distance on each revolution. That is, it will move with constant speed in a straight line, until you change its internal flow pattern by either adding or taking away energy using some other resonant field system, such as when a cue stick strikes a pool ball.

And that is the machinery, which causes dynamic energy systems, like atoms to move. Simple, huh!

You can learn more about resonant fields by reading the easy-to-understand e-book, Resonant Fields: the Fundamental Mechanism of Physics, available at www.coolscience.info on the Internet.* © 2004 by CoolScience

(Hait is a theoretical physicist, inventor, author, and lecturer. He is the founder and president of the CoolScience Center of the Pacific and Rocky Mountain Research Center, and founding Scientist of Cyber Dyne Computer Corp. and All Optical Networks, Inc.)