APS Excellence in Physics Education Award
November 2019

Science SPORE Prize
November 2011

The Open Source Physics Project is supported by NSF DUE-0442581.
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The Kepler problem: The Newtonian and the relativistic (Special Theory) Comparison Documents
This material has 3 associated documents. Select a document title to view a document's information.
Main Document
written by
Kostas Papamichalis
In this simulation, we solve the Kepler problem in the context of two theories: a) the Special Theory of Relativity and b) the Newtonian Mechanics. We simulate the motion of a particle according to the predictions of each model, for the same initial conditions. We observe and calculate the precession of the perihelion and the aphelion of the orbit for the case of the relativistic model and the closed-elliptic path in the Newtonian model. We check our calculations and the virtual measurements, by implementing several activities in the environment of the simulation.
Released under a Creative Commons Attribution-Share Alike 4.0 license.
Last Modified September 28, 2021
Supplemental Documents
This simulation describes the Kepler problem in the context of two theories: a) the Special Theory of Relativity and b) the Newtonian Mechanics. We simulate the motion of a particle according to the predictions of each model, for the same initial conditions. We observe and calculate the precession of the perihelion of the orbit for the case of the relativistic model and the closed-elliptic path in the Newtonian model. We check our calculations and the virtual measurements, by implementing several activities in the environment of the simulation.
Last Modified September 28, 2021
Source Code Documents
The EJS JavaScript source code for the Newtonian and Relativistic Kepler Problem simulation.
Last Modified September 28, 2021
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