2006-06-08 19:16:09 · 8 answers · asked by wadapav_1205 1 in Science & Mathematics ➔ Astronomy & Space
The anti matter is actually very unstable. It all got anhilited after reacting with the matter particles. The probability of an antiparticle encountering a matter particle is very high because the matter is much much more compared to the antimatter, so probably most of the anti matter has already been 'burnt'.
2006-06-08 19:58:48 · answer #1 · answered by know it all 3 · 0⤊ 0⤋
There was no Big Bang and we still don't officially know that the Universe is run by electromagnetic forces.
You see, right now are solar system and all the electrons in it have a certain level of charge. We are able to manipulate the levels of this charge in labs with all the awesome machinery we've created, but any observations we make are relative to our planet and our planet only. There's no telling how that particle would act in a different area of the Universe or galaxy because the energy levels will be different.
To label something "antimatter" is stupid, because it could be a naturally occuring particle in another part of the Universe (where YOUR matter would not normally exist, and if placed there, would most likely fly apart). Until we completely understand the forces that are controlling the motion of the planets and stars and galaxies (electromagnetics) we won't make any real scientific advances. In short, it's not "black and white" or "matter and antimatter." There are different states of matter, and they depend on the electrons and their charge (which is not a fixed number like scientists currently believe) and all that other subatomic stuff.
Read up on the Electric Universe and plasma cosmology, it's the wave of the future. Here's a start:
http://www.thunderbolts.info
http://www.holoscience.com
2006-06-09 03:32:54 · answer #2 · answered by Tony, ya feel me? 3 · 0⤊ 0⤋
We think that there were almost but not exactly equal amounts of anti matter and matter produced. The anti-matter was annihilated into radiation and this is what we now see as the cosmic 'fireball' radiation today. The mathematics work like this:
For every 10 billion particles of anti-matter, there were 10 billion and one particles of matter. Eventually the temperatures fell so low that the reaction could not keep re-creating the matter and anti matter after they annihilated, and so after the final era of annihilation, all of the matter and antimatter annihilated leaving behind the 20 billion photons of radiation plus the one particle left over matter. On the cosmic scale, this arithmetic was replicated over and over again to leave behind enough matter 'ash' to form stars and galaxies.
The radiation is what we now see as the fireball cosmic background radiation, and the leftover matter went into the stars and galaxies and us! We know from lab experiments that the decay processes in nature do not favor matter and antimatter equally, so this is very good reason to expect that in the early universe, matter and antimatter were present, but processes favoring matter were slightly more abundant and common.
2006-06-09 03:37:41 · answer #3 · answered by Anonymous · 0⤊ 0⤋
It is supposed that the super symmetry at the time of the Big Bang broke down instantly and the skewed conditions led to the presence of a lot more matter than anti matter. Physicists are still discussing the mathematical framework.
2006-06-09 02:26:27 · answer #4 · answered by ag_iitkgp 7 · 0⤊ 0⤋
Anti Matter was placed in a nursing home where she now enjoys playing Mah Jong and watching Wheel of Fortune.
2006-06-15 00:54:26 · answer #5 · answered by Anonymous · 0⤊ 0⤋
It converted to dark matter and energy, but alot of it is still out there.
2006-06-15 14:41:46 · answer #6 · answered by Anonymous · 0⤊ 0⤋
It's still out there.
2006-06-09 02:21:00 · answer #7 · answered by Schlonger34 3 · 0⤊ 0⤋
it died
2006-06-15 19:46:35 · answer #8 · answered by Anonymous · 0⤊ 0⤋