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Equation of Motion of a Particle in a Gravitation Field: Difference between revisions

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==== Intro ====
Hopefully, by comparing the classical and the "Special Relativistic" equation we will be able to derive the shape of spacetime curvature that produces gravitation.
==== Classical Equation of Motion of a Particle in Gravitation Field as a Function of Time ====
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==== "Special Relativistic" Equation of Motion of a Particle in Gravitation Field as a Function of Time ====
'''(Based on the definition of acceleration in Special Relativity)'''
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==== See also ====
* [[Extrinsic Formulation of General Relativity]]
<!-- * [[Forms of Spacetime Curvature]]
* [[Spacetime Curvature and Gravitation]] -->




[[Category:Open Questions]]
[[Category:Open Questions]]
[[Category:Stubs]]
[[Category:Stubs]]

Latest revision as of 23:45, 24 April 2022

Intro

Hopefully, by comparing the classical and the "Special Relativistic" equation we will be able to derive the shape of spacetime curvature that produces gravitation.


Classical Equation of Motion of a Particle in Gravitation Field as a Function of Time

     



"Special Relativistic" Equation of Motion of a Particle in Gravitation Field as a Function of Time

(Based on the definition of acceleration in Special Relativity)      



See also