- Radiation, Quantization, & Temperature (2005) [Updated 8 years ago]
- Eliminating Fallacies on Gravitational Effect (2005) [Updated 8 years ago]
- Temperature (2005) [Updated 8 years ago]
- Time (2005) [Updated 8 years ago]
- Quantum-Quanta Theory: The Theory of the Universe (2001) [Updated 8 years ago]
- Spark Experiments (1997) [Updated 8 years ago]
- Calculating the Newtonian Constant of Gravitation (G) (1997) [Updated 3 years ago]
- Simultaneity and Relativity (1997) [Updated 3 years ago]
- Physics and Cosmology (1995) [Updated 8 years ago]

- Radiation, Quantization, & Temperature (2005) [Updated 8 years ago]
Originally presented as three spearate papers:

**1. Time**

The problem of determining what ?time? is has occupied the best minds since antiquity. It all boiled down to per Pythagoras: Is time and/or length bits (finite) of time/length (granular now called a quantum) or continuous? Unfortunately, the later scientists had a 50-50 chance and chose the wrong one, or continuous. This then resulted in that the current fundamental physical constants were or could be infinitely small to infinitely large. All past and current theories prohibit any quantization of the constants, as that would com-pletely destroy them 100%. Not only that, the current dimensionless point and pi geometry could no longer be used. Therefore, the current establishment suppresses any heresy that the fundamental constants can be and are a quantum for starters. The current establishment?s concept of time is the interval between two events, or the measurement, clock time or elapsed time.**2. Physical Constants Quantized**Beliefs promulgated by the current establishment are that 1) the physical constants can have values from infinitely small to infinitely large, and 2) they have no relationships to one another. This is especially so as to time, which must be continuous if all current theories are to be promulgated. Anything to the contrary is suppressed at any cost. The physical constants can be and are quantum and quanta values. The current belief that Planck?s Constant can only be found from experiment is likewise shown to be false. Extensions of these multiple proofs then permit the fundamental physical constants and their combinations to be defined and derived by mechanical calculations to an infinite degree of digital accuracy.**3. Temperature**Exactly what is meant by the word ?temperature? is subject to human interpretation. This paper will attempt to clarify its meaning and how it is defined etc. in physical terms. A brief history is included. This discourse requires the discoveries of the author who quantized the physical constants and defined and derived their numerical values. [1] It would be a waste of time to use the current SI values of the physical constants, and then have to do it all over again. When the readers reach the end, then they should understand why the author did not use current theory and beliefs. However, if any care to use the current SI values, you will get the identical physical end results that are herein, although they are very upsetting. A table showing the current and new values of the fundamental physical constants is at the end of this paper, and a proof of same. - Eliminating Fallacies on Gravitational Effect (2005) [Updated 8 years ago]
There is only one force effect for gravity, pull. The source of this force is mass. Many current false beliefs, now promulgated as facts, will be eliminated. There is the singular static force for a mass. To measure or apply the effect takes two masses. The Gravitational Constant is an artifact and never should have come into existence in the first place. There are two systems that operate in the Universe; the Mass Energy System and the Mass Gravity System. The effect of inertia, and when it can be overcome, is shown. For mass, gravity end effects, Newton?s Third Law of Force and Motion, can be violated. This sets a limit to the Equivalence Principle (Feather-apple Paradox) and destroys the Strong Equivalence Principle.

- Temperature (2005) [Updated 8 years ago]
Exactly what is meant by the word ?temperature? is subject to human interpretation. This paper will attempt to clarify its meaning and how it is defined etc. in physical terms. A brief history is included. This discourse requires the discoveries of the author who quantized the physical constants and defined and derived their numerical values. [1] It would be a waste of time to use the current SI values of the physical constants, and then have to do it all over again. When the readers reach the end, then they should understand why the author did not use current theory and beliefs. However, if any care to use the current SI values, you will get the identical physical end results that are herein, although they are very upsetting. A table showing the current and new values of the fundamental physical constants is at the end of this paper, and a proof of same.

- Time (2005) [Updated 8 years ago]
The problem of determining what ?time? is has occupied the best minds since antiquity. It all boiled down to per Pythagoras: Is time and/or length bits (finite) of time/length (granular now called a quantum) or continuous? Unfortunately, the later scientists had a 50-50 chance and chose the wrong one, or continuous. This then resulted in that the current fundamental physical constants were or could be infinitely small to infinitely large. All past and current theories prohibit any quantization of the constants, as that would com-pletely destroy them 100%. Not only that, the current dimensionless point and pi geometry could no longer be used. Therefore, the current establishment suppresses any heresy that the fundamental constants can be and are a quantum for starters. The current establishment?s concept of time is the interval between two events, or the measurement, clock time or elapsed time.

- Quantum-Quanta Theory: The Theory of the Universe (2001) [Updated 8 years ago]
*Matrix3000*, pp. 32-35 (2001). In German. - Spark Experiments (1997) [Updated 8 years ago]
Bert Schreiber subjected Mylar? (aluminum-coated plastic) strips to various forms of electrical stresses and observed the outcomes. Some patterns occurred repeatedly, others could not he duplicated, but all supply insight into the curious nature of electricity Sending a spark through the material blew the aluminum film off the plastic in a variety of intriguing patterns that raise more questions than answers about electricity.

- Calculating the Newtonian Constant of Gravitation (G) (1997) [Updated 3 years ago]
- Simultaneity and Relativity (1997) [Updated 3 years ago]
- Physics and Cosmology (1995) [Updated 8 years ago]