Andrew Michrowski (Abstracts)
Titles
- Scalars Waves Reviewed (1997) [Updated 1 decade ago]
- Brown's Gas - Current Research Report (1997) [Updated 1 decade ago]
- Free Energy in Self-Sustaining Home (1996) [Updated 8 years ago]
- Politics of Clean Energy (1994) [Updated 1 decade ago]
- The Denver Report (1994) [Updated 8 years ago]
- Tesla Engine Bulders Association (1994) [Updated 1 decade ago]
- Electrogravitics Developments (1994) [Updated 8 years ago]
- Vacuum Energy Developments: The Related Physics of Bioenergetic Phenomena (1993) [Updated 1 decade ago]
- Vacuum Energy Developments (1993) [Updated 8 years ago]
- Time and its Physical Relationships
- Scalars Waves Reviewed (1997) [Updated 1 decade ago]
- Brown's Gas - Current Research Report (1997) [Updated 1 decade ago]
- Free Energy in Self-Sustaining Home (1996) [Updated 8 years ago]
- Politics of Clean Energy (1994) [Updated 1 decade ago]
- The Denver Report (1994) [Updated 8 years ago]
Report on the International Symposium for New Energy
- Tesla Engine Bulders Association (1994) [Updated 1 decade ago]
- Electrogravitics Developments (1994) [Updated 8 years ago]
- Vacuum Energy Developments: The Related Physics of Bioenergetic Phenomena (1993) [Updated 1 decade ago]
- Vacuum Energy Developments (1993) [Updated 8 years ago]
- Time and its Physical Relationships
Time does not exist by itself. The phenomenon of time emerges in relationships ? as an expression of properties of physical bodies and changes that occur to them. Time is a factor of energy. Time has to do with the increase and decrease of energy. For example, as energy is brought down to a 'zero level', time is 'eliminated', so in a sense, time cannot be ?compressed? - only eliminated. In the zero-energy level, electrons occupying this level in unlimited numbers are available through state transitions for the building of matter and the vacuum. So it is the extent and the nature of energy flow that determines the characteristics of time.