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.
No, a delta particle is not a fast-moving electron. A delta particle is actually a high-energy nucleon (proton or neutron) emitted from an unstable atomic nucleus during certain types of nuclear reactions. It is different from an electron, which is a beta particle often emitted during radioactive decay.
A beta particle.
A beta particle resembles an electron. It is a high-energy, high-speed electron emitted from the nucleus during beta decay.
The particle that has the same mass as an electron (9.11 x 10^-31 kg) but a positive charge and is sometimes emitted from the nucleus during radioactive decay is a positron. A positron is the antimatter counterpart to an electron and has a charge of +1.
Another name for a beta particle is an electron. It is a high-energy, high-speed particle that is emitted during the radioactive decay of certain elements.
An alpha particle has the same structure as a helium nucleus, consisting of two protons and two neutrons.
the nucleus of an atom undergoing radioactive decay, typically from elements that are not stable due to an imbalance of protons and neutrons. This emission helps the atom achieve a more stable nuclear configuration by transforming a neutron into a proton, electron, and antineutrino.
its called a beta particle, but its an electron
One part of a beta- particle. The other part is an electron antineutrino
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.
The negative charged particle emitted during radioactive decay is called a beta particle. It is essentially an electron that is released from the nucleus of the atom undergoing decay in order to conserve charge. Beta decay occurs when a neutron in the nucleus is transformed into a proton, releasing a beta particle and an antineutrino.
In unstable neuclei where there are 'too many' neutrons, a neutron will convert to a proton and an electron - that electron is ejected from the nucleus and is called a beta particle. It is important that we call this electron a beta particle because it is derived by radioactive disintegration in the nucleus and not an 'orbital' electron.
A beta particle resembles an electron. It is a high-energy, high-speed electron emitted from the nucleus during beta decay.
An alpha particle has the same structure as a helium nucleus, consisting of two protons and two neutrons.
The nucleus of an atom is the part responsible for radioactivity. Unstable nuclei undergo radioactive decay by emitting particles or energy in the form of radiation.
That depends on the specific radioisotope. For instance, uranium 238 emits an alpha particle during radioactive decay, reducing the number of protons and neutrons in the nucleus by 2 each and producing thorium 234. On the other hand, carbon 14 emits a beta particle (an electron) during radioactive decay, decreasing the number of neutrons and increasing the number of protons by 1 each and producing nitrogen 14. There are quite a few other examples with different changes depending on the type of radioactive decay.
That depends on the specific radioisotope. For instance, uranium 238 emits an alpha particle during radioactive decay, reducing the number of protons and neutrons in the nucleus by 2 each and producing thorium 234. On the other hand, carbon 14 emits a beta particle (an electron) during radioactive decay, decreasing the number of neutrons and increasing the number of protons by 1 each and producing nitrogen 14. There are quite a few other examples with different changes depending on the type of radioactive decay.
The particle that has the same mass as an electron (9.11 x 10^-31 kg) but a positive charge and is sometimes emitted from the nucleus during radioactive decay is a positron. A positron is the antimatter counterpart to an electron and has a charge of +1.
the nucleus of an atom undergoing radioactive decay, typically from elements that are not stable due to an imbalance of protons and neutrons. This emission helps the atom achieve a more stable nuclear configuration by transforming a neutron into a proton, electron, and antineutrino.