QMW Hyperspace:
A set of hypertext based services for general relativity research
provided by the QMW Relativity group.
http://www.maths.qmw.ac.uk/hyperspace/
Relativity bookmarks:
Rob Salgado's bookmarks
http://physics.syr.edu/research/relativity/RELATIVITY.html
General Relativity Simulation Contest:
The purpose of this Contest is to prove General Relativity using a
(simple) algorithm.
http://users.pandora.be/nicvroom/contest.htm
Relativity Forum:
Forum devoted to discussing the Einstein's special and general
theories of relativity.
http://astronomyphysics.com/list.php?f=33
An introduction to the Yilmaz Theory of Gravity:
Yilmaz discovered an alternative theory of gravitation which
surmounts some of the defects of general relativity. The solutions
of the field equations contain neither space-time singularities, or,
equivalently, there are no black holes.
http://monet.physik.unibas.ch/~schatzer/ytg.html
Ricci:
A Mathematica package for doing tensor calculations in differential
geometry and general relativity.
http://www.math.washington.edu/~lee/Ricci/
NOVA Online/Einstein Revealed:
Profile of Albert Einstein, with additional teaching resources,
Shockwave demonstrations, and animations of relativity concepts.
http://www.pbs.org/wgbh/nova/einstein/
Gravitational Lensing:
A popular site with interactive demonstrations of gravitational
lensing. The background material is at a graduate level
http://www.iam.ubc.ca/~newbury/lenses/lenses.html
Shapiro Radar Bounce Test:
A two part overview of the Shapiro radar bounce test of general
relativity. (The two parts consist of a section for normal people,
and one for nerds)
http://world.std.com/~sweetser/PopScience/timeDelay/timeDelay.html
Hyperspace at the University of British Columbia:
Includes links to online journals, news and preprint archives, as
well as lists of faculty at this university.
http://axion.physics.ubc.ca/hyperspace/
Southampton GR Explorer:
An introduction to Einstein's theory of General Relativity and
related topics. These pages include informative text, pictures and
movies.
http://www.maths.soton.ac.uk/relativity/GRExplorer/
The Cosmological Constant:
An overview of why Einstein added an extra term in general
relativity, and why it is still examined.
http://rainbow.uchicago.edu/~carroll/encyc/
An Essay on General Relativity:
This site contains a comprehensive introduction to the basic ideas
and tests of general relativity
http://astro.physics.sc.edu/htmlpages/Astronomy/SelfPacedUnits/Unit57.html
Solving Einstein's Equations in Three Dimensions:
This is a Mathematica notebook showing how to plot light cones in
two plus one spacetime dimensions with a point mass.
http://www.theory.caltech.edu/people/patricia/test/Einstein3.html#Einstein31
Interactive Experiments in Gravity:
Try an experiment that illustrates the gravitational attraction
between two objects or use a Java applet to understand how orbits
work in strongly curved space-time.
http://www.fourmilab.ch/gravitation/
Gravity Probe B:
Gravity Probe B is the relativity gyroscope experiment being
developed by NASA and Stanford University to test two extraordinary,
unverified predictions of Albert Einstein's general theory of
relativity.
http://einstein.stanford.edu/
Physics Bookshelf - Relativity:
A collection of articles about relativity
http://www.upscale.utoronto.ca/GeneralInterest/Relativity.html
Gravity of Gravity:
An experiment at the University of Washington seeks to determine
whether the gravitational binding energy of an object generates
gravity of its own.
http://www.aip.org/enews/physnews/1999/split/pnu454-1.htm
Gravitational Waves: An Introduction:
This paper presents an elementary introduction to the theory of
gravitational waves. This article is meant for students who have had
an exposure to general relativity, but results from general
relativity have been derived in the appendices.
http://xxx.lanl.gov/abs/physics/9908041
Starlight and Mercury's orbit:
open.org/pitmandu For the junior student; an heuristic development
of the equations explaining the precession of the orbit of Mercury
and the deflection of light in a gravitational field without using
differential geometry. Includes a review of the development of
E=mc^2.
http://open.org/pitmandu
The 5D Spacetime Consortium:
We are a group of physicists and astronomers working on a
5-dimensional version of general relativity.
http://astro.uwaterloo.ca/~wesson/#PUB
