- A Dynamical Origin for the Gravitational Constant that Explains Gravitational and Inertial Mass Equality and Rejects Dark Matter and Dark Energy (2003) [Updated 1 decade ago]
by Lawrence M. Stephenson read the paper:
- The Relevance of Advanced Potential Solutions of Maxwells Equations for Special and General Relativity (2000) [Updated 6 years ago]
- The Significance of Precursor Electromagnetic Waves in Special and General Relativity (1998) [Updated 6 years ago]
by Lawrence M. Stephenson read the paper:
- A Dynamical Origin for the Gravitational Constant that Explains Gravitational and Inertial Mass Equality and Rejects Dark Matter and Dark Energy (2003) [Updated 1 decade ago]
by Lawrence M. Stephenson read the paper:
There is no accepted theory that explains why the gravitational mass and the inertial mass of a given body are equal. Any new theory that predicted a dynamical origin for the gravitational constant should also predict that the gravitational mass of a body is equal to its inertial mass. Two dynamical theories are outlined. One of these theories does not require the assumptions of dark matter and dark energy to explain cosmological observations.
- The Relevance of Advanced Potential Solutions of Maxwells Equations for Special and General Relativity (2000) [Updated 6 years ago]
Physics Essays, V13, N1 (2000). Although the mathematics of special relativity is not open to question, the interpretation of the mathematics, especially regarding its relationship with quantum theory, is far from complete. A study of advanced potentials offers a new insight into special and general relativity.
- The Significance of Precursor Electromagnetic Waves in Special and General Relativity (1998) [Updated 6 years ago]
by Lawrence M. Stephenson read the paper:
Although the mathematics of special relativity is not open to question, the interpretation of the mathematics, especially regarding its relationship with quantum theory, is far from complete. A study of precursor electromagnetic waves, which are closely associated with quantum effects, offers a new insight into special and general relativity.