β0/-1e
A positively charged particle that is also a beta particle is a Positron.
Beta particle electrons (as opposed to Beta particle positrons which have + charge)
The atomic nucleus can emit beta particles (beta radiation). A neutron emits a beta particle when it decays into a proton, and anti-neutrino, and an electron (which becomes the beta particle).
No, a delta particle is not a fast moving electron given off by a nucleus during radioactive decay. The electron described here is a beta particle, and specifically a beta minus particle. It is given off in (no surprise) beta minus decay. A link to a related question can be found below.
If you think to a beta particle the symbol is β.
β0/-1e
e- is the symbol for an electron, aka a beta particle. It has a unit negative charge.
a slanted P that looks like a B but is thinner and has a longer "leg"
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.
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.