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General Relativity is the classical theory that describes the evolution of systems under the e ect of gravity. Its history goes back to 1915 when Einstein postulated that the laws of gravity can be expressed as a system of equations, the so-called Einstein equations. In order
These lectures represent an introductory graduate course in general relativity, both its foun-dations and applications. They are a lightly edited version of notes I handed out while teaching Physics 8.962, the graduate course in GR at MIT, during the Spring of 1996. Al-
Part II General Relativity Lecture Notes Abstract These notes represent the material covered in the Part II lecture General Relativity (GR). While the course is largely self-contained and some aspects of Newtonian Gravity and Special Relativity will be reviewed, it assumed that readers will already be famil-iar with these topics.
Lecture Notes on General Relativity Matthias Blau Albert Einstein Center for Fundamental Physics Institut fur¨ Theoretische Physik Universit¨at Bern CH-3012 Bern, Switzerland The latest version of these notes is available from http://www.blau.itp.unibe.ch/GRLecturenotes.html Last update August 27, 2024
Lecture Notes on General Relativity [newlecturesGR.pdf] Size: ca 6 MB, 990+ Pages. Latest Minor Update: November 2022. Remarks. This is a significantly expanded and revised version of the (ca 550 page) lecture notes that were available until end of 2012.
These lecture notes on General Relativity intend to give an introduction to all aspects of Einstein’s theory: ranging form the conceptual via the math-ematical to the physical. In the rst part we discuss Special Relativity, focusing on the re-examination of the structure of time and space. In the
General Relativity and Black Holes (cont.) Derive Analytic Results for Radial Motion Compare Speeds and Energies for Bookkeeper and Shell Observers; Equations of Motion for a General Orbit Explain How these can be Numerically Integrated; Expand the Effective Potential in the Weak-Field Limit (PDF - 1.1 MB) 25: General Relativity and Black Holes ...
