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Forms of Spacetime Curvature: Difference between revisions

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<td align="center" style="padding: 5px 5px 5px 5px">Click [http://www.visual-physics.com/wiki/Simulations/SpacetimeCurvature/SpacetimeCurvature3D.xml here] to download<br />the [http://fem.um.es/Ejs Ejs] xml source file for the applet.</td>
<td align="center" style="padding: 5px 5px 5px 5px">Click [http://www.visual-physics.com/vpwiki/Simulations/SpacetimeCurvature/SpacetimeCurvature3D.xml here] to download<br />the [http://fem.um.es/Ejs Ejs] xml source file for the applet.</td>
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==Introduction==
==Introduction==
An examination of the forms that spacetime curvature can take will prove useful for the description of the production of acceleration by gravitational spacetime curvature, and later, in our effort to use a similar mechanism to describe the production of acceleration by the electrostatic field.
An examination of the forms that spacetime curvature can take will prove useful for the description of the way that acceleration is produced by gravitational spacetime curvature, and later, in our effort to use a similar mechanism to describe the way that acceleration is produced by the electrostatic field.


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== Simulation ==
== Simulation ==
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<iframe width="100%" height="520px" align="left" scrolling="no" style="clear:all" src="/wiki/Simulations/SpacetimeCurvature/SpacetimeCurvature.html" frameborder="0" ></iframe>
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<iframe width="100%" height="520px" align="left" scrolling="no" style="clear:both" src="../vpwiki/Simulations/SpacetimeCurvature/SpacetimeCurvature.html" frameborder="0" ></iframe>
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==Remarks==
==Remarks==
This is just a sketchy exploration of spacetime curvature, aiming only to show its different possible forms and to give an idea of the relationship between them. No effort has been made to determine the equations that describe it. This will be done in [[Spacetime Curvature and Gravitation]] and in [[Electrostatic Forces as a Result of Spacetime Curvature]].
This is just a sketchy exploration of spacetime curvature, aiming only to show its different possible forms and to give an idea of the relationship between them. No effort has been made to determine the equations that describe it. This will be done in [[Spacetime Curvature and Gravitation]] and in [[Electrostatic Acceleration as the Result of Spacetime Curvature]].


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*[[Spacetime Curvature and Gravitation]]
*[[Spacetime Curvature and Gravitation]]
*[[Extrinsic Formulation of General Relativity]]
*[[Extrinsic Formulation of General Relativity]]
*[[Electrostatic Forces as a Result of Spacetime Curvature]]
*[[Electrostatic Acceleration as the Result of Spacetime Curvature]]


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[[Category:Gravitation]]
[[Category:Gravitation]]
[[Category:Electrostatic Forces and EM Waves]]
[[Category:Electrostatic Forces and EM Waves]]
[[Category:Simulations]]

Latest revision as of 23:26, 24 April 2022

Click here to download
the Ejs xml source file for the applet.

Introduction

An examination of the forms that spacetime curvature can take will prove useful for the description of the way that acceleration is produced by gravitational spacetime curvature, and later, in our effort to use a similar mechanism to describe the way that acceleration is produced by the electrostatic field.



Simulation



Remarks

This is just a sketchy exploration of spacetime curvature, aiming only to show its different possible forms and to give an idea of the relationship between them. No effort has been made to determine the equations that describe it. This will be done in Spacetime Curvature and Gravitation and in Electrostatic Acceleration as the Result of Spacetime Curvature.



See also