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What does a Quark make?
Quarks are constituents of a family of composite particles - hadrons, which includes baryons with three quarks (like nucleons like the proton familiar to atomic theory); or mesons made up of two quarks. So, if you were to pick any member of these groups it would be safe to say, it's made of quarks. One curiosity about quarks is that they aren't found alone. If you were able to pull a pair of quarks apart, the amount of energy it would take to do so would create another one.
How many quarks are in molybdenum?
The count of quarks in an atom of molybdenum would depend on the nuclide's mass number (A), or in other words, on which isotope. 3 * A = (quark count) since both neutrons and protons have 3 quarks each. The lowest we know about (Mo-83) would have 249 quarks, the highest (Mo-115) would have 345. Molybdenum-98 is the commonest isotope with (3 * 98) quarks.
What is the quark gluon phase?
A theoretical new state of matter. Quarks and gluons are components of atoms. When you heat certain atoms to around 4 trillion degrees Celsius, the atoms stop behaving as atoms and start behaving as something completely different.A quark-gluon plasma behaves as a near-ideal Fermi liquid.In normal matter, quarks are confined, in a Quark Gluon plasma, the quarks are not confined (read more on deconfinement).At such temperatures, you would think that the quark gluon plasma would behave as free roaming objects, as people normally experience a gas, but it behaves more like a liquid instead.More experiments are required to explore the nature of these subatomic particles.
What does a elementary particles do?
What elementary particles do would depend on what type of particle they are. For example, there are antimatter particles, force particles, and matter particles.
What are the loads that would affect the structure of a sail boat?
Stupid loads would affect a structure!
How many quark does fluorine have?
Fluorine has nine protons in its nucleus, which means it has nine electrons surrounding it to maintain a neutral charge. Each proton and neutron is made up of three quarks, so fluorine would have a total of 27 quarks in its nucleus (3 quarks per proton/neutron x 9 protons = 27 quarks).
What does a Quark make?
Quarks are constituents of a family of composite particles - hadrons, which includes baryons with three quarks (like nucleons like the proton familiar to atomic theory); or mesons made up of two quarks. So, if you were to pick any member of these groups it would be safe to say, it's made of quarks. One curiosity about quarks is that they aren't found alone. If you were able to pull a pair of quarks apart, the amount of energy it would take to do so would create another one.
Which structure would contain chromosomes?
Nucleus
If you broke a piece of matter in to its smallest components you would be left with what?
Atoms... ---> protons, nuetrons, electrons ----> up and down quirks, subatomic particles and if you believe in string theory----. quarks are made up of vibrating springs.
What physical part makes an antiparticle anti?
It depends on the exact antiparticle you are talking about. When a particle has an electric charge, its antiparticle would have an equal, but opposite charge. For example, protons have a charge of +1, while antiprotons have a charge of -1. This applies to all electrically charged particles, including quarks (particles that make up hadrons) When a particle is a hadron (composite particle), then usually the quarks inside them are antiquarks. For example, the quark structure of a neutron is udd (up up down) while the quark structure of an antineutron is antiup, antidown, antidown. The charges cancel each other out, and antineutrons are left with no charge, just like neutrons. If the particle had charge, then the combination of charges of its antiparticle's quarks would be equal, but of opposite. In addition, some other properties are also the same, but opposite, Some particles (eg. photons, Z bosons) are their own antiparticles.
Which subatomic particle is present in the nucleus of an atom?
The atomic particles that make up an alpha are two protons and two neutrons. The subatomic particles are contained within the neutrons & protons and there are too many to list here, plus I don't know all of them.
Why subatomic particles are called fundamental particles?
A positron is a fundamental particle because it does not consist of smaller particles, which would make it a composite particle. Fundamental particles can still decay or change identity however, but they have no (at least at this point) discernible internal structure. A proton on the other hand is a composite particle; it has an internal structure and consists of a mixture of gluons and quarks (which both are fundamental particles).
How would the particles of air affect your daily living?
Particles in the air contain oxygen, which enable us to breathe.
What structure would contain chromosomes?
puang ina myu
Is the charge of a proton due to periodic pulsation of the surface of the proton?
No. The charge of a proton (or an anti-proton) comes from the three quarks within it, quarks whose charge add up to plus one (or, in the case of anti-proton, minus one). Which leads to the obvious question: where does the charge of the QUARKS come from? The answer is simple, but frustrating: in our Universe, charge just IS. Quarks and leptons have a quality we refer to as "charge," a quality that causes a force to exist between any two particles that both have charge. We have no further understanding beyond that: charge just exists. Note, however, that, in any Universe that did not have charge, there would be no life noting that charge did not exist in that Universe -- which would make such a Universe a very un-interesting place.
Why breakdown subatomic particles?
It would be easier to accurately answer this question if you gave a specific particle but in general, we gain a greater understanding of particles as we examine the structure the the mass consist of. For example, we have matter and matter is made of atoms or molecules. At higher magnifications, atoms and molecules start to manifest, arrange in a certain order, which defines the shape of a solid. When we go deeper, we see the atomic structure, such as a proton, that is made up of even more subatomic particles like quarks that are held together by gluons. So, we breakdown subatomic particles and examine their structure to gain a deeper understanding of what the particle consist of, how it reacts to different environments and conditions, and with the greatest hope, to learn what could have and how they were first created.
What holds together a quark?
Nothing, an individual quark is a point particle and cannot come apart. Now if your question was what holds quarks together inside particles like protons and neutrons, that would be the strong force, which at the range inside a proton or neutron is so strong that a quark can never escape unless enough energy is applied that a shower of quarks and antiquarks are created in the escape and before any independent quarks can be detected they have already all recombined into doublets and triplets that are already known particles.
