A quark is smaller than a proton.
No, a quark is a fundamental particle that makes up protons and neutrons. Sound waves are vibrations of particles in a medium, such as air or water. Quarks are part of the standard model of particle physics, while sound waves belong to the field of acoustics.
A quark is a tiny particle that is smaller than an atom. Its significance in particle physics is that it is a fundamental building block of matter, combining to form protons and neutrons. Quarks help scientists understand the structure of matter and the forces that hold it together.
There are two up quarks and one down quark in a proton.
Protons are made up of Subatomic Particles, in this case a Proton Atom is made up of two Up quarks, and one Down quark. The mass of an Up Quark is 2.4 MeV/c2 and the mass of a Down quark is 4.8 MeV/c2. Electrons are still in the Subatomic Particle Table, an Electron is a type of Lepton. An Electron's mass 0.511 MeV/c2 which is a lot less than a Proton, even less than a Up quark itself (the lightest quark). In most cases when talking about Atoms and their mass Electrons don't normally have an effect on their mass, only the Neutrons and Protons in the Atom. This should answer the Question.
An anti-charm quark is the antiparticle of the charm quark. Charm quarks are a type of elementary particle that is a building block of matter, as described in the Standard Model of particle physics. Anti-charm quarks have an electric charge of +2/3 and are involved in various particle interactions.
A quark is the smallest known particle, which makes up protons and neutrons found in the nucleus of atoms. This means that quarks are smaller than protons, neutrons, atoms, and molecules.
quark
The elementary particle for a proton is a combination of three quarks: two up quarks and one down quark. This combination forms a proton, which is a positively charged subatomic particle found in the nucleus of an atom.
The electron is considered a fundamental particle because it has no internal structure or substructure. On the other hand, the proton is composed of smaller particles called quarks (two up quarks and one down quark) bound together by the strong nuclear force. This internal structure of the proton categorizes it as a composite particle rather than fundamental.
The up quark, the down quark, and the electron. Two up quarks and a down quark form a proton, and two down quarks and an up quark form a neutron.
Beta decay involves changing an up quark into a down quark (Beta+) or a down quark into an up quark (Beta-). This causes a neutron to change into a proton (Beta-) and emit a W- boson which decays into a beta particle (electron and electron antineutrino), or, with extra energy, it causes a proton to change into a neutron (Beta+) which emits a beta particle (positron and electron neutrino). Quarks are involved because protons and neutrons are comprised of quarks in sets of three, two up quarks and one down quark to form a proton, and two down quarks and one up quark to form a neutron.
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.
A proton can be divided into 2 Ups and a Down quark, and a neutron into 2 Downs and an Up quark. In general the quark is the elementary particle from which protons and neutron are formed.
Electron!
Proton. The Proton is a Baryonic Hadron formed from 2 Up Quarks and 1 Down Quark, giving it a charge of +1.
The neutron, which is slightly more massive. The neutron is composed up two down quarks and one up quark (charges of -1/3 and 2/3 [in terms of proton charge], respectively) and the proton is composed of one down quark and two up quarks.
Yes, a proton is built from two up-quarks and one down-quark.