Astronomy

The Reciprocal System of theory differs from conventional astronomy in one of its basic premises—that the stellar combustion process is fission, based on the atomic age limit, and not fusion of hydrogen to helium. Consideration of this single item alone, has some remarkable conclusions that are quite difficult for the modern astronomer to accept… namely, that the entire process of stellar and galactic evolution is backwards from the commonly accepted view!

"Ridiculous!", you say. Well, it just might be, but if you take the time to actually consider what Larson postulates, along with the extensions we have made in the re-evaluation of the Reciprocal System, you might come to the same conclusions that students of Larson have… it actually makes more sense, backwards!

At the heart of the matter, is the matter at the core of the sun—something very little is actually known about, through direct observation. Through Larsonian physics, one is able to logically deduce the mechanism of stellar combustion based what is termed the "age limit" of matter, which states that all atoms, like most living things, don't live forever in an active environment. They reach a point where, due to other particles they have absorbed, and the magnetic and thermal temperatures of the environment, simply explode by a process of fission.

This leads to the conclusion that a sufficient quantity of simply dust and debris, through the process of gravitation and compression, with become "hot". Initially, it will be through thermal interactions of physical impacts, but given time, the oldest atoms will reach their age limit, and explode, setting off nearby atoms. Since the process starts relatively early, we are not talking any type of nova, but simply a reddish glow, usually starting in the infrared band. These young, warm, and very large stars are the red giants of astronomy—the beginnings of a new star, not the end of an old one!

For details on this process, the sequence of stellar evolution, and the consequences that this evolutionary process has on galactic systems, please click on the links to the left. A good starting point would be Dewey Larson's The Mythical Universe of Modern Astronomy.