An electron has a mass of 1/1840 of an Atomic Mass unit, carries a charge of -1 and is found in one of a series of energy levels outside the nucleus of an atom. A neutron has a mass of 1 a.m.u., carries no charge and is found in the nucleus of atoms.
An electron has a negative charge to it, whilst a neutron has a neutral charge to it.
The charge on an electron is never equal to the charge on a neutron. An electron carries one negative charge and a neutron has no net charge.
An electron has approximately 1/1840th the mass of a neutron.
Electron capture is the absorption of an electron by an atomic nucleus if that nucleus is neutron poor. An electron is captured, usually from an inner electron shell of that atom, and it will convert a proton in the nucleus into a neutron. We know that a neutron is converted into a proton and an electron in neutron decay, so it might be looked at as something of an opposite nuclear reaction where a proton and an electron combine to form a neutron.
neutron
A proton is positively charged; a neutron has no charge and an electron is negatively charged, that is why it is attracted to the atom, which consists of protons.
a proton is a positively charged particle that is found in the nucleus of an atom, a neutron is a particle that has no charge and is also found in the nucleus of an atom, an electron is a negatively charged atom that is constantly circling the nucleus of an atom.
A nuetron has no charge and resides in the nucleus of an atom along with protons that have a positive charge. Electrons have a negative charge and are in the electron shells around the nucleus.
The difference between neutron are neutral, and electrons have a negative change too them. Neutron is a neutral particle that exists in the nucleus of an atom. The year when the neutron was founded was 1932.
Electron capture and beta decay are both processes by which an atom can undergo nuclear transformation. In electron capture, an inner electron is absorbed by the nucleus, causing a proton to convert into a neutron. This results in the emission of a neutrino. In beta decay, a neutron in the nucleus is converted into a proton, releasing a beta particle (electron) and an antineutrino. The key difference is that electron capture involves the absorption of an electron, while beta decay involves the emission of an electron.
No, a positron cannot react with a neutron in any kind of annihilation reaction. An electron and a positron can, and the same with a neutron and an anti-neutron, but it does not occur between a positron and a neutron.
Subatomic particles are: neutron, proton, electron.
Subatomic particles are proton, neutron, electron; these particle are some examples of the large group of elementary particles.
A hydrogen atom is only a proton and an electron. Beyond that the neutron seems to keep the nucleus together and stable. Maybe a better question is, "What is the difference between a hydrogen atom without an electron and a proton?"
No, a neutron is about 1836 times the mass of an electron
An electron has a negative charge to it, whilst a neutron has a neutral charge to it.
Both an electron and a neutron are subatomic particles found in an atom. They both have a negative charge, but a neutron has no charge.