Beta Decay is a 3d FPS/strategy game modeled after tower defense. Basically you build a number of towers/buildings to defend your building from the waves of oncoming enemies. It uses allegro and allegro GL and supports Windows and Linux. Written in C++.
Radioactive decay in which a beta particle (negative or positive electron) is emitted.
The decay process where an isotope emits an electron (called a beta particle), converting one neutron into a proton to conserve electrical charge. This causes the isotope to become a different element, for example, the beta decay of tritium 3H, with one proton and two neutrons, produces helium 3He, with two protons and one neutron.
Radioactive decay in which the nucleus releases either a negatively or a positively charged electron (positron).
A nuclear reaction in which beta particles (electrons, -, or positrons, +) are absorbed by or emitted from the nucleus of an atom.
type of radioactive decay in which an electron or positron is emitted from the nucleus of an atom. The emission of an electron results in an increase by 1 of the atomic number; emission of a positron results in the atomic number decreasing by 1.
The emission of electrons or positrons (particles identical to electrons, but with a positive electrical charge) from the nucleus of an element in the process of radioactive decay of the element.
radioactive decay of an atomic nucleus that is accompanied by the emission of a beta particle
(click here for animation) Nuclear decay by emission of an electron or a positron. Positron decay is always accompanied by electron capture decay.
The radioactive decay process which occurs via the transmission of a beta particle (or high speed electron). See; Beta Particle, Electron.
A form of radioactive decay where a heavy element ejects a beta particle and a neutrino, becoming a lighter element in the process.
In nuclear physics, beta decay is a type of radioactive decay in which a beta particle (an electron or a positron) is emitted. In the case of electron emission, it is referred to as "beta minus" (β−), while in the case of a positron emission as "beta plus" (β+).