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Field Definitions |
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Prior to September 2002 I thought was alone in talking about the GravitoMagnetic Field. I had coined the term "SpinOrbital" thinking that I had discovered this entity. Henry W. Wallace used the term "kinnemassic" in describing this field in his anti-gravity device patent ("when bodies composed of certain material are placed in relative motion with respect to one another there is generated an energy field therein not heretofore observed. This field is not electromagnetic in nature; being by theoretical prediction related to the gravitational coupling of relatively moving bodies"). The current term commonly used in physics is "Gravitomagnetic" so I've modified my charts and drawings to reflect this. Predicting this field used to be one of the cornerstone discoveries of this theory, but now that I realize it is more commonly referred to, I feel confident that I'm on track with my conceptualizations. At this point, my key contribution is the discovery that the GravitoMagnetic Field is actually far more integrated into mainstream physics than anyone imagines. |
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Table #5 |
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The concept of field is used to explain how two poles can affect each other at a distance. There are four main forces (produced by various fields) that we know about (GravitoMagnetic, ElectroMagnetic, Strong, and Weak). Each force becomes dominant at the level of its own scale. The forces produced by gravitational fields are normally the weakest of all, but they are the dominant force at astronomical distances. Electromagnetic fields produce the dominant forces on electrons within the structure of the atom. Within the atomic nucleus the strong forces dominate and within fundamental particles the weak forces dominate. We'll limit our discussion to just the electromagnetic and gravity related fields within a quantum context. |