they usually have annihilated into energy, which can spawn more hadrons
No, a quark is not a soundwave. A quark is an elementary particle which combines with other quarks to make hadrons, and the proton and neutron are examples of a hadron. Use the link below to the related question to discover what the quark is.
The quark, which is a fundamental particle, makes up a composite particle called a hadron. The hadron could be considered the "home" of the quark. There are two types of hadrons, and they are the baryon and the meson. The two best know hadrons are probably protons and neutrons. Protons and neutrons, the "building blocks" of the atomic nucleus, are types of baryons.Atom
The quarks which determine the quantum numbersof hadrons are called valence quarks; apart from these, any hadron may contain an indefinite number of virtual (or sea) quarks, antiquarks, and gluons which do not influence its quantum numbers.[11]There are two families of hadrons: baryons, with three valence quarks, and mesons, with a valence quark and an antiquark.[12]The most common baryons are the proton and the neutron, the building blocks of the atomic nucleus
Well, the up and down Quark make Protons and Neutrons. Protons and Neutrons make atoms. Atoms make matter. Almost everything we see is made out of matter. If there where no quarks those things woudn't have been here.
A neutron has 3 valence quarks. An up quark, and two down quarks. An up quark has a charge of 2/3 and a down quark has a charge of -1/3.Since 2/3 - 1/3 - 1/3 = 0, neutrons have a neutral charge.Besides valence quarks, supposedly a hadron can contain an infinite sea of quarks that don't affect the properties of the hadron.
No, a quark is not a soundwave. A quark is an elementary particle which combines with other quarks to make hadrons, and the proton and neutron are examples of a hadron. Use the link below to the related question to discover what the quark is.
The quark, which is a fundamental particle, makes up a composite particle called a hadron. The hadron could be considered the "home" of the quark. There are two types of hadrons, and they are the baryon and the meson. The two best know hadrons are probably protons and neutrons. Protons and neutrons, the "building blocks" of the atomic nucleus, are types of baryons.Atom
Hadrons are composed of 3 quarks. Protons and neutrons are hadrons. The 2 types of quarks used in this instance are up quarks and down quarks. Yes, there are quarks in a nucleus.
I am sure there are hadrons containing top quark(s), but they have not been observed. The things preventing the observation of such hadrons are:one top quark by itself has roughly the mass of an entire tungsten atom, this means it takes an enormous amount of energy just to create just one top quarkthe top quark is very unstable with a halflife of about 5E-25 seconds, this means that for all practical purposes all top quarks created will be gone within only about 25E-25 seconds so they are very unlikely to even have a chance to find other quarks to form hadrons with and if they did form a hadron it would decay rapidly
The quarks which determine the quantum numbersof hadrons are called valence quarks; apart from these, any hadron may contain an indefinite number of virtual (or sea) quarks, antiquarks, and gluons which do not influence its quantum numbers.[11]There are two families of hadrons: baryons, with three valence quarks, and mesons, with a valence quark and an antiquark.[12]The most common baryons are the proton and the neutron, the building blocks of the atomic nucleus
Quarks, which are fundamental particles, make up a composite particles called a hadron. The hadrons come in two types, and they are the baryon and the meson. The two best known hadrons are protons and neutrons, which are made up of three quarks each. The fact that the proton and neutron are made up of three quarks makes them baryons. Mesons are made up of two quarks. Use the link below for more information on quarks.
Protons and neutrons are both hadrons, and any hadron is comprised of three of six quarks. A hadron must have an integer charge in terms of a proton's charge (+1), with quarks having a charge of either +2/3 or -1/3.
Hadrons are particles composed of quarks. There are two (known) types of hadrons: mesons, which consist of a quark and an antiquark, and baryons, which consist of three quarks (or three antiquarks). Leptons are a separate type of particles. They are not composed of quarks, but are elementary particles in their own right.
A xi baryon is a subatomic hadron particle comprising three quarks, one up or down quark, and two heavier quarks.
Well, the up and down Quark make Protons and Neutrons. Protons and Neutrons make atoms. Atoms make matter. Almost everything we see is made out of matter. If there where no quarks those things woudn't have been here.
Protons are made up of small particles called quarks. More specificly, a proton is made up of 2 "up" quarks and 1 "down" quark. (note: 'up' and 'down' classify what kind of quark it is. Some other quarks are top, bottom, charm, and strange)
Protons and neutrons are hadrons; they are made of quarks. Protons are composed of two up quarks and a down quark, while neutrons are composed of one up quark and two down quarks. The quarks are held together by gluons. Electrons are not composed of more fundamental particles; they are categorized as leptons.they are made up of quarks