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Gravitation — a Pushing and Pulling Force
(Continued — Page 3)

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An even greater revolution insofar as our knowledge on the gravitational wave is concerned was provided by the following picture, courtesy of the Hubble Telescope. This picture, which in my estimation is the photo of the century, documents exactly what a gravitational wave looks like.

It is worth reiterating the fact that energetic matter is a living and mercurial creation. Therefore, one requires a considerable amount of common sense to categorize energetic formations in their proper group.

Description of the Gravitational Wave
1. An energetic swirl (the foundation of the wave) resembles the black spots on the sun, which are so energetic that they swallow light.
2. The stream of the energetic path departs from an energetic source in a rigid manner that resembles the string of a violin.
3. A gravitational (magnetic) energetic path runs perpendicular to the electric strings. The magnetic path does not come to an end on the left-hand side of the wave, but returns back down to the energetic swirl, its source, like a broom: pushing and pulling everything in its way (like a broom sweeping leaves that have been scattered about by the wind).

These two forces—energetic and gravitational—act in tandem.

These gravitational waves contain different wave lengths inside, and each wave reacts to similar wave lengths.

The picture above shows that condensed gravitational waves are limited in scope, but nevertheless lack clear borders. Based on the information stated above, I have drawn up the following equation:

Gravity =
Condensed Energetic Matter
Its Space

Accordingly, the more condensed the matter is in a particular amount of space, the greater the force of gravity; in other words, the more energy in a given area, the stronger the force of gravitation. The density and exertion of gravity increases the closer the wave is to the energetic source of its wave formation. Therefore, the gravitation on Earth is greater than the Sun's because the energy of the Earth's gravitational loop is more condensed than the Sun's, where the energy is dispersed over a much larger area. In the gravitational wave (quant), there are different areas of gravitation. For example, in our solar system (quant) there are different planets with different degrees of gravity, and every gravitational wave contains a vast array of smaller quants.

Due to its living and mercurial appearance, a gravitational wave can assume an endless array of forms, none of which are identical to any of the others. These various forms of gravitational waves will be illustrated in the article Gravity Wave Formation.

The pictures from space offer cutting evidence of the existence and importance of the wave formation and the behavior of energetic matter. Furthermore, only Wave Theory with its two semi-loops can explain the phenomenon known as gravity.

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I wish to thank those of you who have provided me with the support I need to continue my work, via your letters and important comments.

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Dr. Chaim Tejman, Copyright© 2005. All rights reserved.

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