|
| Material discussing what is wrong with fundamental physics, and challenging the currently-accepted evidence for both quantum theory and Einstein's relativity theories.
| Introduction |
Annotated index to free software which simulates travel near the speed of light.
| Introduction |
Gravity Probe B is the relativity gyroscope experiment being developed by NASA and Stanford University to test two unverified predictions of Albert Einstein's general theory of relativity.
| Introduction |
Series of university-level lecture notes on special relativity, photons, atoms, particles and waves, Schrodinger's Equation, electron atoms and nuclear physics.
| Introduction |
Discussion of the philosophical foundations and interpretation of quantum mechanics and the Special Theory of Relativity.
| Introduction |
A refereed solely electronic journal offering reviews in all areas of relativity.
| Introduction |
Extensive collection of links to biographies, papers, quotations and pictures of Albert Einstein.
| Introduction |
Describes key concepts in relativity and gravitation in non-technical terms. Covers the big bang model of the universe's origin, galaxies and clusters, relic radiation, cosmic strings, and inflation.
| Introduction |
Descriptions and MPEG animations that simulate travel to black holes and neutron stars. These movies are scientifically accurate computer animations made with strict adherence to Einstein's General Theory of Relativity. The descriptions are written to be understandable on a variety of levels.
| Introduction |
Discusses the concept of general relativity. Assumes that the reader has an understanding of calculus and differential equations, and provides relevant calculus throughout as required.
| Introduction |
Resources organised by topic from actuarial mathematics to wavelets. Sections include links to journal, preprints, web sites and databases.
| Introduction |
Text of a public lecture by the physicist Stephen Hawking, in which he discusses predicting the future, whether this is arbitrary and random, and regularities in nature. He concludes that the future of the universe is not completely determined by the laws of science.
| Introduction |
Papers covering high-energy physics, astrophysics, general relativity, quantum cosmology, nuclear theory, computational and lattice physics.
| Introduction |
Presents a guide to special relativity, assuming knowledge of algebra, linear algebra, and calculus. Address topics such as the postulates of special relativity, mass-energy equivalence, the light speed barrier, and non-linear velocity addition.
| Introduction |
|
|
