A beta particle is an electron, and electrons are negative. You're probably thinking of a positron, which has the same mass as an electron but the opposite charge.
A beta particle is essentially an electron. Electrons have a negative charge and as such, they are attracted to positively charged objects and fields.
The difference between a beta plus and beta minus particle is the electrical charge. The charges are equal, but opposite. The beta minus particle is an electron with a negative charge, while the beta plus particle is an anti-electron or positron with a positive charge.
Beta rays have negative electrical charge.
That may refer to the electric charge.
From Physics Forums The alpha particle has a 2+ charge, beta has 1- charge, and the gamma is neutral (no charge). The beta particle could also have a 1+ charge if it undergoes positron emission [a proton turns into a neutron and a positron (the "anti-electron")]
positive charge A beta particle is formed when a neutron decays into a proton and electron. So the extra proton will increase the nuclear charge.
A beta particle is an electron, and electrons are negative. You're probably thinking of a positron, which has the same mass as an electron but the opposite charge.
Beta is a particle. In beta- it is an electron and an electron antineutrino. In beta+ it is a positron and an electron neutrino.
The sign of the charge depends if it's a beta-minus particle (an electron) or a beta-plus particle (a positron, or anti-electron). The former is negative, but the latter is positive. Generally, when we say "beta particle," we mean "beta-minus particle," but this is not always the case! For an element that decays via beta, check the locations on the Periodic Table (or better yet, the table of nuclides!) of the parent and daughter atoms. If the atomic number of a nucleus increased by one when undergoing beta decay (it now has an extra proton), it underwent beta-minus decay. If the atomic number decreased by one, it underwent beta-plus decay. Important note: we have just discussed the sign of the beta particle's charge, not the charge itself. The charge, in SI units, is 1.6022 x 10^-19 Coulombs. This quantity is, again, negative or positive depending on whether the particle in question is a beta-minus or beta-plus.
Beta particle electrons (as opposed to Beta particle positrons which have + charge)
A alpha particle is a helium-4, written 24He, nucleus, and it is composed of a pair of protons and a pair of neutrons fused together. It's charge is +2. A beta particle could be either a beta + particle, which is a positron, or a beta - particle, which is an electron. The electron (beta -) has a charge of -1, and the positron (beta +) has a charge of +1. In summary, the alpha is +2, the beta minus is -1, and the beta plus is +1.
An alpha particle has a charge of +2 (elementary charges). A beta particle has a charge of -1 (electron) or +1 (positron).An alpha particle has a charge of +2 (elementary charges). A beta particle has a charge of -1 (electron) or +1 (positron).An alpha particle has a charge of +2 (elementary charges). A beta particle has a charge of -1 (electron) or +1 (positron).An alpha particle has a charge of +2 (elementary charges). A beta particle has a charge of -1 (electron) or +1 (positron).