Radiative and Dynamical Implications of Electrogravity: Difference between revisions
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The term electrogravity (EG) is suggested for the force acting in processes such as the edshift, QSOs, the CBR and processes that resolve the background paradoxes, where gravitation and electromagnetic radiation are both strongly present and affect each other. Radiation due to EG is denoted by EGR, and parallels between EGR in QSOs (and to a lesser extent in galaxies) and EGR in the form of the CBR are pointed out. Electrogravitational dynamics (EGD) gives a theoretical unification of gravitational phenomena on various scales. Until now, several ad hoc forces or other additional hypotheses have been needed to explain these effects.[[Category:Scientific Paper]] | The term electrogravity (EG) is suggested for the force acting in processes such as the edshift, QSOs, the CBR and processes that resolve the background paradoxes, where gravitation and electromagnetic radiation are both strongly present and affect each other. Radiation due to EG is denoted by EGR, and parallels between EGR in QSOs (and to a lesser extent in galaxies) and EGR in the form of the CBR are pointed out. Electrogravitational dynamics (EGD) gives a theoretical unification of gravitational phenomena on various scales. Until now, several ad hoc forces or other additional hypotheses have been needed to explain these effects. | ||
[[Category:Scientific Paper|radiative dynamical implications electrogravity]] | |||
[[Category:Gravity]] | [[Category:Gravity]] | ||
Revision as of 12:58, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Radiative and Dynamical Implications of Electrogravity |
| Read in full | Link to paper |
| Author(s) | Toivo Jaakkola |
| Keywords | Radiative, Dynamical, Electrogravity |
| Published | 1994 |
| Journal | Apeiron |
| Volume | 1 |
| Number | 18 |
| No. of pages | 5 |
| Pages | 1-5 |
Read the full paper here
Abstract
The term electrogravity (EG) is suggested for the force acting in processes such as the edshift, QSOs, the CBR and processes that resolve the background paradoxes, where gravitation and electromagnetic radiation are both strongly present and affect each other. Radiation due to EG is denoted by EGR, and parallels between EGR in QSOs (and to a lesser extent in galaxies) and EGR in the form of the CBR are pointed out. Electrogravitational dynamics (EGD) gives a theoretical unification of gravitational phenomena on various scales. Until now, several ad hoc forces or other additional hypotheses have been needed to explain these effects.