Since neutrons are made up of three quarks, it's very safe to say the neutron is bigger.
Neutron is bigger than a quark. A neutron is a composite particle made up of three quarks, while a quark is a fundamental particle that makes up protons and neutrons.
Yes, neutrons are bigger than quarks; it takes three quarks to make a neutron, and the whole is larger than the components. Based on the current understanding of the force between the quarks, we also have an idea of how far apart they are within the neutron.
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.
Yes, neutrons are bigger than quarks; it takes three quarks to make a neutron, and the whole is larger than the components. Based on the current understanding of the force between the quarks, we also have an idea of how far apart they are within the neutron.
Proton, neutron and electron At a lower level up quark, down quark, and electron
The elementary particle for a neutron is called a quark. Neutrons are made up of three quarks: two Down quarks and one Up quark.
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.
A neutron can be split up into 2 down quarks and an up quark.
A neutron.
No, protons and neutrons are in the nucleus and the electrons orbit around the nucleus. This all happens inside the atom.
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.
When a down quark changes into an up quark in the nucleus, a Nestor is changing into a proton. The particles released (for almost all neutron to proton transformations) are an electron and an electron anti-neutrino.