A beta particle is either an electron or an anti-electron (aka positron).
A beta particle is either an electron or an anti-electron (a.k.a. positron).
e-1. It is symbolised by an electron.
When a nucleus emits a beta particle, it loses one of its neutrons and gains one proton. Hence, it's mass and atomic number remain the same but its charge and What_happens_to_a_nucleus_when_it_emits_a_beta_particlenumber is increased by +1.
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.
A beta particle is an electron (or positron) with high energy and speed.
The beta particle is an electron.
because the total enegy of the decay is carried by beta particle and the nutrino.
The strength of a beta particle is its ability to cross the absorber to reach the detector.Now the strength of a beta particle depends upon the energy of the beta particle and thickness of the absorber.
When a nucleus emits a beta particle, it loses one of its neutrons and gains one proton. Hence, it's mass and atomic number remain the same but its charge and What_happens_to_a_nucleus_when_it_emits_a_beta_particlenumber is increased by +1.
A positively charged particle that is also a beta particle is a Positron.
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.
negative, -1 to be precise since a beta particle is an electron
A beta particle is an electron (or positron) with high energy and speed.
The beta particle is an electron.
A beta particle is either an electron, or a positron (aka "anti-electron").
None. A beta particle consists of a single electrons or positron.
because the total enegy of the decay is carried by beta particle and the nutrino.
A beta particle is produced in a process called beta decay, in which a neutron becomes a proton or vise versa. There are two forms of beta decay:normal beta decay - a neutron becomes a proton, a beta particle (i.e. electron) and an antineutrinoantibeta decay - a proton becomes a neutron, an antibeta particle (i.e. positron) and a neutrino
aplha, beta, gamma