by Chris Halsall
This article and accompanying program are dedicated to Stephen Hawking, one of the greatest explorers of our time. His book A Brief History of Time is a must read for anyone interested in the universe in which we find ourselves.
Black holes might be considered the ultimate heroes of gravity. They have incredible density and generate such powerful gravitational fields that not even light can escape their proximity. Black holes were first suggested as early as the late 1700s and were made famous with Einstein's law of general relativity.
A black hole is so compressed that it folds space and time around itself. To the outside observer, it no longer has size and becomes a zero-dimensional singularity. If any physical size is at all meaningful when speaking about a black hole, it would be its event horizon -- the sphere around the singularity from which nothing will ever been seen again.
Invite 1000 particles to play around a black hole, and you just know things are going to get crazy.
Only as recently as the mid-1970s were the effects best explained by black holes first observed, thus providing direct physical evidence of their existence. But they have been generally accepted by both the public at large and by scientific communities for decades, thereby becoming a favorite resource for both sci-fi story teller and theoretical physicist. Black holes are just so extreme -- literal points of no return.
Because of the incredible gravitational field a black hole generates, the space around it tends to be a very dynamic place. Any particle with mass that enters the orbit of the black hole will quickly accelerate as its orbit decays and the particle moves closer to the black hole itself. The gravity shear, or gradient, is also unique in that the force of gravity exists at different strengths at only slightly different distances from the black hole. Objects are either torn apart immediately, or end up spinning at high speeds and are ripped apart because of centripetal forces.
Even light particles (photons) that pass near the black hole, but outside its event horizon, will still be affected. Light bends around the singularity as a function of the inverse of its distance -- or -- the closer it is, the more it bends. Black holes can be thought of as gigantic lenses. There have been recent astronomical observations of distant starlight bending around what is assumed to be a black hole that happens to be in between ourselves and the more distant star.
You can build a black hole with OpenGL
It has been estimated that a hydrogen bomb made with all the water on the planet would likely cause the matter in the center of the bomb to be compressed into a black hole. While we wait for the accounting department to reject our request, we might as well look for another way to have some fun with black holes that might cause less of a stir.
Drawing the axis lines.
Program and Makefile
bhole.c - The OpenGL Black Hole simulator.
Makefile - Simple Makefile.
We'll use OpenGL as the 3D API in order to leverage any 3D hardware that might be available on the machine. Some basic understanding of OpenGL is assumed in this article. For an OpenGL refresher, please see these articles. The accompanying program is similarly structured as well.