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Three reasons:
1) Its large mass requires a LOT of kinetic energy in any collision to end up with enough energy to even possibly result in a Higgs Boson being created. That's why no particle accelerator prior to FermiLab or CERN had anywhere near enough energy to even hope to make a Higgs.
2) The Higgs is a VERY unstable particle -- once created, it breaks down into other particles in a time on the order of 10^-22 seconds. No device can possibly detect a particle in existence for that length of time, so we are left with looking for the decay products of a Higgs.
3) A LOT of other particles have decay products that very closely resemble that of the Higgs, so we can never be 100% certain that "these decay products are from Higgs Bosons, while these are not." All we can do is make a LOT of collisions, record the decay products of all of them, and then ask the question, "What is the probability that NONE of these decay products are a Higgs?" The most recent data from CERN have led scientists to state that the odds that zero Higgs were created is 1000 to 1 -- pretty good odds. However, particle science protocol requires that this probability must be reduced to a million to one before stating, "The particle that we were looking for was definitely created during these experiments." That announcement will probably occur in the next year or so.
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Is a quark the same as an energy level?
No, Higgs Boson is a theoretical particle yet to be observed directly or indirectly by humans. Quarks on the other hand have been observed directly and indirectly. Also, the Higgs boson is responsible for a field, however quarks are responsible for matter, and are the basic constituents of the nuclei in atoms.
Is particles Gravitons responsible for gravitational force?
Yes. It is commonly believed that the gravitational force is transferred through a particle called the graviton. This particle is hypothetical - it has not been observed yet.
Is God Particle the same as Dark Matter?
The Higgs Boson (nicknamed the "God Particle", in one of history's WORST choices for a popular name) is a particle predicted by the existence of the Higgs Field, a hypothesis created to explain why some particles have mass and some don't. If it turned out that the Higgs Boson did NOT exist, then a lot of science over the last forty years would have to be thrown out. However, that boson was found, fairly close to the mass predicted -- meaning the Higgs Field can continue to be used, and the Standard Model remains the basic idea of particle physics. However, the Higgs Field, and its accompanying boson, have nothing to do with dark matter. That latter stuff (whatever it happens to turn out to be) interact with baryonic matter (ie, the stuff we understand) through gravity, and not much else. Dark matter is out there, as we can clearly see its effects -- we just don't know what it IS. But it can't be the Higgs Field, or its boson, as the field has no mass and the boson is so unstable as to disappear in less than a billionth of a trillionth of a second. Dark matter, in contrast, has been unchanged over billions of years.
What are the chances of finding the Higgs boson?
A lot of high-power particle Physicists in the world believe that the chances are pretty good, otherwise CERN would not have pumped $10 billion and counting into the LHC so far. A great deal of money has been invested in making these experiments possible, chiefly in hopes of observing the elusive Higgs particle, so scientists are very hopeful about it. But as always with experimental science, we shall have to see what the actual results are.
What is the Higgs Boson god particle?
The Higg's Boson is a hypothetical particle, predicted by the Standard Model, that resolves inconsistencies in current theoretical particle physics. It has not yet been observed in experimental physics, but attempts to do so are ongoing at the Large Hadron Collider at CERN and the Tevetron at Fermilab. It explains how most of the elementary particles become massive. For instance, it would explain how the photon, which has a rest mass of zero, and which mediates the electromagnetic force, differs from the W and Z bosons, which are massive particles that mediate the weak interaction. For more information, please see the Related Link below.
What had not been observed by 1673?
The Higgs boson. In fact, it has not been observed by 2011.
What is Higgs Boss?
The Higgs Boson is a theoretical subatomic particle which is being sought in particle accelerator experiments and has recently been reported as having been proven to exist.
Is a quark the same as an energy level?
No, Higgs Boson is a theoretical particle yet to be observed directly or indirectly by humans. Quarks on the other hand have been observed directly and indirectly. Also, the Higgs boson is responsible for a field, however quarks are responsible for matter, and are the basic constituents of the nuclei in atoms.
What is bossing?
The Higgs Boson is a theoretical subatomic particle which is being sought in particle accelerator experiments and has recently been reported as having been proven to exist.
What type of physics is the higgs boson involved with?
Particle physics. Specifically, the Standard Model of Particle Physics was centered around the Higgs Boson- had the boson not been found to exist, then modern physics as we know it would be on very shaky ground.
What will happen if the Higgs boson is discovered?
It will prove the existence of the Higgs Boson. So far it is only theory. This is a groundbreaking result as particle physics has been without new data for over a decade to decide what theories are correct.
Who discovered higgs boson particle?
The Higgs boson has not yet been discovered. It has been predicted by numerous physicists (the best known is probably Peter Higgs, since the particle was named after him, but more people worked on it) and many think that it is required to explain certain features of the Standard Model, which is the model which describes particle interactions at a small scale. Recently FermiLab has published results which show they may have found the Higgs boson in their collider experiments, but the uncertainties are still too great to be able to claim with confidence that the particle has been found. If it exists, it will be found by the LHC-experiment at CERN.
What is god particles?
The so called god particle is the Higgs boson. The search and discovery of this particle would advance our knowledge of the universe and how it works. There is no relationship between a god or gods and the particle. This particle was named after the scientist who first theoretically proposed it. Note that "god particle" is a name used only by nonspecialists as journalists. The LHC in Switzerland at the nuclear research center CERN was meant to find this missing and mysterious particle. It is mean to give matter its mass and other properties. The Higgs boson was supposed to be found but the test are being carried out now. The first results are negative. Recent update: on 13th December 2011, CERN issued a press release describing the current status of the search for Higgs bosons (see related link). There still has not been a positive discovery, but the possible mass range has been restricted severely and we should know soon (at some point in 2012) whether the standard model version of the Higgs exists or not. Update: The Higgs boson was discovered on July 4, 2012.
What is the 'god particle'?
The so called god particle is the Higgs boson. The search and discovery of this particle would advance our knowledge of the universe and how it works. There is no relationship between a god or gods and the particle. This particle was named after the scientist who first theoretically proposed it. Note that "god particle" is a name used only by nonspecialists as journalists. The LHC in Switzerland at the nuclear research center CERN was meant to find this missing and mysterious particle. It is mean to give matter its mass and other properties. The Higgs boson was supposed to be found but the test are being carried out now. The first results are negative. Recent update: on 13th December 2011, CERN issued a press release describing the current status of the search for Higgs bosons (see related link). There still has not been a positive discovery, but the possible mass range has been restricted severely and we should know soon (at some point in 2012) whether the standard model version of the Higgs exists or not. Update: The Higgs boson was discovered on July 4, 2012.
What is the scientific principle of the god particle?
The Higgs Boson -- which was HORRIBLY nick-named the "God Particle" -- is a particle that SHOULD exist if Peter Higgs is correct in his explanation of why some particles have mass and others don't. The scientific paradigm called "The Standard Model" (TSM) has, for over forty years, been spectacularly successful in making predictions about particle interactions. One of its failures, however, was that there was no explanation why particles have mass. Higgs proposed an idea that was consistent with TSM and explained mass quite well. The problem is that, until the last few years, nobody could test whether Higgs' explanation was a correct one or just a mathematical "fix." Experiments at CERN are closing in on an answer to this question.
Why is the Higgs Messon Important?
I presume you mean the Higgs Boson. If it exists in the way as it is predicted to exist, then our over-all paradigm of particle physics -- called the "Standard Model", simply because it has proven itself to be SO good -- would continue to be the model that is followed for now. If the Higgs does NOT exist, then this model -- which has been proven correct in over forty years of experiment -- would have to be jettisoned or heavily modified. Either result would be a major achievement for particle physicists.
Is particles Gravitons responsible for gravitational force?
Yes. It is commonly believed that the gravitational force is transferred through a particle called the graviton. This particle is hypothetical - it has not been observed yet.
