An electron during beta decay.
A Beta- particle is an electron, which has negative charge.Here are some other types: Alpha is a helium nucleus, which is 2 protons and 2 neutrons (having positive charge). Positron is the antiparticle to electron. Positrons have positive charge. Gamma does not have charge. Neutrons do not have charge. Neutrinos do not have charge.
A beta particle is an electron or a positron emitted during radioactive decay. Electrons are negatively charged because they have an excess of electrons compared to protons. Positrons are positively charged because they have a deficiency of electrons compared to protons.
It produced a magnetic field. If it's charged, it can be negative OR positive. It's magnetic because if they're both alike signs (both positive or both negative) they repel like magnets. If one particle is positive and one is negative, they attract like magnets.
A positron is a particle with the same mass as an electron but a positive charge. It is the antimatter counterpart of an electron and can be emitted from the nucleus during some types of radioactive decay processes, such as beta plus decay.
0/-1 e
A beta particle is a negative electron. A positive electron is a Positron.
A Beta- particle is an electron, which has negative charge.Here are some other types: Alpha is a helium nucleus, which is 2 protons and 2 neutrons (having positive charge). Positron is the antiparticle to electron. Positrons have positive charge. Gamma does not have charge. Neutrons do not have charge. Neutrinos do not have charge.
Beta particles can be both positively AND negatively charged; theyare either high-energy, high-speed electrons (negative standard charge) or positrons (positive standard charge) emitted by certain types of radioactive nuclei such as potassium-40 ( 40K)
A beta particle is an electron or a positron emitted during radioactive decay. Electrons are negatively charged because they have an excess of electrons compared to protons. Positrons are positively charged because they have a deficiency of electrons compared to protons.
Plasma
It is negative beta particle emitted by a uranium nucleus and converting it to neptunium nucleus.
The particle emitted during beta- decay is an electron, therefore it has a negative charge.
It produced a magnetic field. If it's charged, it can be negative OR positive. It's magnetic because if they're both alike signs (both positive or both negative) they repel like magnets. If one particle is positive and one is negative, they attract like magnets.
beta particle
Beta particle electrons (as opposed to Beta particle positrons which have + charge)
When a hydrogen-3 nucleus undergoes radioactive decay, it emits a beta particle (specifically an electron) and an anti-neutrino to transform into helium-3.
No. Beta particles are electrons (sometimes positrons, the antiparticles of electrons, are referred to as betas also). "Negative meson" is not a specific particle. It would be a type of particle which is a) a meson, or two-quark hadron, and b) negatively charged. There are several particles which fit that description, but none of them are electrons (or positrons), which are not hadrons but leptons (a type of elementary particle, not made up of quarks at all). --------------------------------------------------------------- No, a beta particle is an electron or positron. Mesons are not produced by radioactive decay, but appear in nature only as short-lived products of very high-energy interactions in matter and are composed of one quark and one antiquark, bound together by the strong interaction. Charged mesons decay (sometimes through intermediate particles) to form electrons and neutrinos. Uncharged mesons may decay to photons.