The quarks are all named the way they are as some physicist thought it was cute. No reason.
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.
A Helium Nucleus so 2 protons and 2 neutrons Quarks are contained within the neutrons & protons and there are many types
It depends on what type of phone you have. Some cell phones have little plastic holes, for lack of better words, that you can fit a cell phone charm's string through. Then you would take the string and put the charm through it so it would stay attached to the phone.
He was tall and skinny he had a very strange mustache.
The two Subatomic particles which are in the Nucleus of an Atom is the Up and Down quark. When we think about the Nucleus of an Atom it is made up with Neutrons and Protons. Both Neutrons and Protons are made up with Quarks (a type of Subatomic Particle) Neutrons have to Down quarks and one Up quark. Whilst Protons have two Up quarks and one Down quark. So we can see that the Nucleus of an Atom is not only made up but dependent on Up and Down quarks.This should answer the Question.
There are six types of quarks, with three "color charges" each. There are the up, the down, the charm, the strange, the top, and the bottom quarks, each with a "red" charge, a "blue" charge, or a "green" charge. If you want to count antimatter, then there are six antiquarks, each with "anticolor charges." The anticolors are Antigreen, antired, and antiblue. These are each represented by cyan, yellow, and magenta. So, counting antimatter and color charge, there are 36 quarks.
either 3 or 6 depending on how you look at it, neutrons protons and electrons make up an atom, so there are 3. However these particles are divisible into quarks that make them up, there are 6 quarks, up, down, top, bottom, strange and charm, these combine in different ways to give the subatomic particles mentioned in the first part.
It’s just tradition. There is no real reason except that as knowledge expanded we needed ways to identify, define, and communicate – and so many arbitrary designations were assigned to physical entities. Look at the nomenclature of quarks for example – we call the six “flavours” of quarks “up,” “down,” “charm,” “strange,” “top,” and “bottom;” how silly is that?
The Omega-minus particle is composed of three strange quarks, so it has a strangeness of -3.
6 Quarks (Up, Down, Charm, Strange, Top, Bottom) 6 Leptons (Electron, Muon, Tau, Electron Neutrino, Muon Neutrino, Tau Neutrino) 5 Bosons (Photon, W+,W- & Z Bosons, Gluon) Overall 17
well, a quark makes up protons, nutrons and electrons. there are some therios: but no awnser, quarks are basic things. but they make up this whole universe. it is not yet discoverd what makes up quarks.
Protons are made up of subatomic particles, called quarks. In a proton, there are three quarks: two up quarks, and one down quark (basically positive and negative quarks, but there is a fine difference between up and positive, and down and negative quarks, so down and up are used when referring to types of quarks). So, a proton isn't just a positively charged, solid particle - it is made up of smaller particles. Though, protons aren't broken down any further than quarks, because quarks are elementary particles. Elementary particles are particles that aren't made up of anything smaller than itself.
Strangeness is a number tacked on to hadrons which allows certain decay predictions. To calculate the strangeness of a particle you take the negative of the quantity of the number of strange quarks minus the number of anti strange quarks. If we take a sigma 0 baryon (up+down+strange) we can run the particle through the equation -((1 strange)-(0 anti-strange))=-1. So, a Sigma 0 baryon has -1 strangeness. The only real significance of this is the fact that we can predict the decay products. High strangeness implies a high likelihood of decaying into a bottomed or charmed hadron. However, when considering the other quantum numbers there are various other things it implies in quantum flavourdynamics.
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.
Most of the times, quarks are described like point-like particles. So small, they're nearly just points in space
I'm not 100% shore but i think the fairy charm is a very special charm fairy's use it to help them. And they take it with them. So they use it for a very lucky charm.
After completing the lighthouse requests, you receive a golden charm that helps you with the monster fish, so complete the quest first