CERN is the largest particle physics research laboratory in the world. People can arrange a visit to CERN. The particle accelerator is included in the itinerary.
The Large Hadron Collider at CERN is an experimental piece of equipment which is providing data on the beginning of the universe and how atoms are made. It simulates what happened at the Big Bang. The ultimate aim is to find the God Particle, which was needed for the Big Bang to occur.
There are several places one can acquire information about a SSL accelerator. One can find articles online on Wikipedia, Symantec, Kemp or SS Acceleration.
The neutrino is a subatomic particle in Quantum Physics. I think the machine you may be thinking of is the Large Hadron Collider (LHC), which is the world's largest, most complicated and highest-energy particle accelerator. Although it is massive (17 miles around), I don't believe it is the biggest machinein the world and I could find no evidence of it online.
1) The position vector of a particle is r= (a cosώt) i+ (a sinώt) j. The velocity of the particle is and find the parallel position vector.
Physicists are currently trying to find proof of the Higgs-Boson particle, also known as the God Particle. This particle is the fundamental unit of everything that contains mass in the universe.
The Large Hadron Collider at CERN is an experimental piece of equipment which is providing data on the beginning of the universe and how atoms are made. It simulates what happened at the Big Bang. The ultimate aim is to find the God Particle, which was needed for the Big Bang to occur.
particle accelerator
to find scientific discoveries, such as creation of black holes and the "god particle", (google it) amongst other things.
Cern in Sweden made a humongous particle accelerator which accelerates sub-atomic particles and smashes them together to get an accurate model of the Big bang 13.7 billion years ago. The energy released and the particles which are made from nothing interests the scientist. It was the experiment to find the origins of the universe and the Big Bang. They replicated the Big Bang at a tiny scale.
Your misunderstanding of the Higgs Boson, and its relationship to CERN, is appalling. The Higgs Boson has nothing whatsoever to do with the creation of our Universe. The Higgs Field is a hypothetical field (like a magnetic field) that explains why some particles have mass and others don't (it's complicated). This field is mediated by the Higgs Boson, in the same way that the strong nuclear field is mediated by the meson. The Higgs Boson is an essential part of a theoretical framework called The Standard Model, a framework that has matched experimental results with astonishing precision, and has done so for over forty years -- hence its name. Problem is, nobody has been able to see this hypothetical particle, simply because it requires a REALLY big particle accelerator to make it see-able. CERN could be that particle accelerator, and the hope is that it will either find it (thus giving more support for TSM) or fail to find it (thus calling TSM into question). The nicknames for the Higgs Boson -- the "God Particle" or "the particle that gives all other particles their existence" is unfortunate, as these names cause uninformed people to give it more importance than it actually deserves. The reason why any intelligent person would realize that CERN is no threat to anything is because all that CERN will be doing is taking particles and smashing them into other particles. The only difference is that it will doing it at a a higher energy than any other human machine has done. "Isn't that dangerous?" is a question only for the ignorant. Our Universe has been sending particles of FAR more energy than CERN could possibly do so into our Earth, and has been doing so for billions of years. Asking if CERN could be dangerous is like asking if an electric spark could cause the atmosphere to ignite -- only a REALLY ignorant person would be unaware that far larger electrical discharges have been occurring in our atmosphere for billions of years, a process we call "lightning."
Tauons are not stable particles, as such they are very difficult to find as they decay quite rapidly. To find them you would have to be (very!) close to the location of their creation, such as an supernova or a particle collider here on Earth (such as the one in CERN or the one at FermiLab).
There are several places one can acquire information about a SSL accelerator. One can find articles online on Wikipedia, Symantec, Kemp or SS Acceleration.
You probably mean Large Hadron Collider. It is a particle accelerator (biggest in the world) at CERN in Switzerland. It is designed to accelerate nuclei of heavy atoms and collide them to study high energy reactions and see if new unknown subatomic particles can be discovered. Hadrons are the class of particles including protons, neutrons, and mesons. Large refers to the size of the machine, not the size of the hadrons. The first particle they hope to find is the "Higgs Boson", which according to some new theories determines the mass of all other subatomic particles.
As time has gone on many theories have come to terms with the atom. And as technology has improved we have looked further into the atom. Scientists are now using the LHC to see if they can create a explosion with the atom by smashing particles together to see what happened when the universe began such as the big bang theory. Using this they are looking to find out the answer to what is matter? Using the LHC they are trying to create anti-matter, this anti-matter may be the size of a golf ball and could destroy everything, but if they can create this matter it may just give the answers to what is matter and how the universe begun.
Google CERN or Large Hadron Collider.
You don't need uranium, tellurium, astatine, helium, a particle accelerator, or pretty much anything else you won't find in a normal chemistry lab.
cat!