No one will read this, and i have no idea why i wrote it. That is about 49 400 000 000 kilowatt-hours, all released in the blink of an eye = one heck of an explosion.Īs a reference A house uses about 30 000 kilowatt-hours a YEAR. If regular matter and antimatter would collide both would be annihilated, and the energy released would be the strongest energy source that exist. What Jawbreaker33 described is, in fact, Antimatter. (Galaxies gravitational rotation, for example).Īs everything we can see, a comp, a chair, regular mass and matter is thought to be about 4% of the total mass of the universe, dark matter being nr 2 with about 22% of the total mass and nr 1 is dark energy with its wooping 74%. Dark matter is matter that cannot be detected by any means at this time, except from its gravitational pull. This fact allows dark matter to clump together throughout the universe, scaffolding up galaxies and clusters, without destroying itself every time two dark matter particles come near each other.Comment by warulkScience lesson everyone!ĭark matter, as you have described it, has nothing to do with energy conversion. Dark matter particles are thought to be extremely tiny, and the chances of them hitting each other perfectly square on, and under the right conditions for destruction, are very low. Luckily, this does not happen very often. Thus, when two dark matter particles collide, they can self-destruct like any other interaction of matter and anti-matter. Hypothetically, if dark matter interacts differently with matter and antimatter, it could produce the imbalance between the two, creating the right conditions. If dark matter is made up of neutralinos, then dark matter particles would be their own antimatter particles, because the anti-neutralino is simply a neutralino. "It does particularly well at producing positrons in the annihilation, and the positrons have energies that are about right for these results," Kane said in a phone interview. The wino is the supersymmetric partner of a particle called the W boson. Kane's personal bet for the particle behind dark matter in these findings is called a wino (pronounced WEE-no) - a specific type of neutralino, which is a theorized category of particles that could exist as "supersymmetric partners" for all the Standard Model particles such as electrons, quarks, etc. The finding, detailed in Thursday's issue of the journal Nature, is not a total surprise, but it could make a huge splash if confirmed. "Many think this could be a signal from dark matter, because for positrons this behavior fits very well with many theories of dark matter." "PAMELA found a number of positrons much higher than expected," the mission's principal investigator Piergiorgio Picozza told. It just happens to explode violently when it touches regular matter - like a positron (Positive Electron) and an electron (negative) will touch and evaporate into a pair of gamma rays. When two dark matter particles collide they can sometimes destroy each other and release a burst of energy that includes positrons. Anti Matter is really quite simple and very similar to regular matter. This positron signature could have a variety of causes, but a prime candidate is dark matter, the intangible stuff thought to make up about 98 percent of all matter in the universe. An Italian satellite called PAMELA (Payload for Antimatter Matter Exploration and Light nuclei Astrophysics), launched in 2006 to measure radiation in space, found an overabundance of particles called positrons, which are the antimatter counterpart to electrons ( matter and antimatter annihilate each other).
0 Comments
Leave a Reply. |