Gravitation - A New Theory: Difference between revisions
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<span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"><span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"> This paper presents a new relativistic theory of gravitation as an alternative to that represented in Albert Einstein?s General Theory of Relativity. Initially, a new representation of the space-time continuum, designated the Relativistic Domain <span style="FONT-SIZE: x-small; FONT-FAMILY: Arial"><span style="FONT-SIZE: x-small; FONT-FAMILY: Arial">D</span></span><span style="FONT-SIZE: xx-small; FONT-FAMILY: Arial"><span style="FONT-SIZE: xx-small; FONT-FAMILY: Arial">1</span></span><span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"><span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"><span style="FONT-FAMILY: Times New Roman">, is created utilising a system of complex linear coordinates. </span>This Domain is subsequently shown to possess all the gravitational characteristics of the General Theory, and as observed in the Solar System and beyond. A new interpretation of the gravitational phenomenon is thus made, avoiding the problems associated with an induced curvature of the space-time continuum as is required in the General Theory.</span></span><b><span style="FONT-SIZE: medium; FONT-FAMILY: Arial,Bold"> </span></b> | <span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"><span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"> This paper presents a new relativistic theory of gravitation as an alternative to that represented in Albert Einstein?s General Theory of Relativity. Initially, a new representation of the space-time continuum, designated the Relativistic Domain <span style="FONT-SIZE: x-small; FONT-FAMILY: Arial"><span style="FONT-SIZE: x-small; FONT-FAMILY: Arial">D</span></span><span style="FONT-SIZE: xx-small; FONT-FAMILY: Arial"><span style="FONT-SIZE: xx-small; FONT-FAMILY: Arial">1</span></span><span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"><span style="FONT-SIZE: x-small; FONT-FAMILY: TimesNewRoman"><span style="FONT-FAMILY: Times New Roman">, is created utilising a system of complex linear coordinates. </span>This Domain is subsequently shown to possess all the gravitational characteristics of the General Theory, and as observed in the Solar System and beyond. A new interpretation of the gravitational phenomenon is thus made, avoiding the problems associated with an induced curvature of the space-time continuum as is required in the General Theory.</span></span><b><span style="FONT-SIZE: medium; FONT-FAMILY: Arial,Bold"> </span></b> | ||
</span></span>[[Category:Scientific Paper]] | </span></span> | ||
[[Category:Scientific Paper|gravitation - new theory]] | |||
[[Category:Relativity]] | [[Category:Relativity]] | ||
Revision as of 12:29, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Gravitation - A New Theory |
| Read in full | Link to paper |
| Author(s) | Peter G Bass |
| Keywords | Gravitation, Relativity, Special, General, Minkowski, Space-Time, Temporal, Acceleration, otential, Time, Dilatation. |
| Published | 2003 |
| Journal | Apeiron |
| Volume | 10 |
| Number | 4 |
| No. of pages | 6 |
Read the full paper here
Abstract
This paper presents a new relativistic theory of gravitation as an alternative to that represented in Albert Einstein?s General Theory of Relativity. Initially, a new representation of the space-time continuum, designated the Relativistic Domain D1, is created utilising a system of complex linear coordinates. This Domain is subsequently shown to possess all the gravitational characteristics of the General Theory, and as observed in the Solar System and beyond. A new interpretation of the gravitational phenomenon is thus made, avoiding the problems associated with an induced curvature of the space-time continuum as is required in the General Theory.