226Ra
When thorium-234 undergoes beta decay, a neutron in the nucleus is converted into a proton, resulting in the formation of protactinium-234, with atomic number 91.
When a hydrogen-3 nucleus undergoes radioactive decay, it emits a beta particle (specifically an electron) and an anti-neutrino to transform into helium-3.
The resulting nuclei are typically two smaller nuclei, known as fission fragments, along with several neutrons and a release of energy. The fission process releases a significant amount of energy due to the conversion of mass into energy as predicted by Einstein's equation E=mc^2.
Particles or electromagnetic radiation are emitted.
It is the nucleus of the atom that undergoes change during radioactive decay.
It is the nucleus. It is the control center.
If Sulfur-34 undergoes alpha decay, it will become silicon-30. This is because in alpha decay, the parent nucleus loses an alpha particle (which is a helium nucleus composed of 2 protons and 2 neutrons), resulting in a new nucleus with an atomic number reduced by 2 and a mass number reduced by 4.
When 195Au undergoes electron capture, a proton in the nucleus is converted into a neutron. This results in the production of 195Pt as the daughter nucleus.
The daughter nucleus produced from the β decay of Carbon-14 (14C) is Nitrogen-14 (14N). During β decay, a neutron in the nucleus of the Carbon-14 is converted into a proton, resulting in the formation of Nitrogen-14.
When an unstable magnesium nucleus undergoes gamma decay, it remains as a magnesium nucleus. Gamma decay does not change the atomic number or mass number of the nucleus, only releasing a gamma photon to reduce excess energy.
Robert Hooke was the first to identify the cell of a nucleus.
When an oxygen-19 nucleus undergoes beta decay, a nitrogen-19 nucleus is formed. In beta decay, a neutron is converted into a proton, causing the atomic number to increase by one while keeping the mass number the same.
The main product of 23191Pa undergoing alpha decay is 22789Ac (Actinium-227). This occurs when a helium nucleus (an alpha particle) is emitted from the nucleus of 23191Pa, resulting in a decrease in atomic number by 2 and a decrease in mass number by 4.
The charge of an oxygen ion is 2-. The oxygen nucleus itself is neutral unless it undergoes a reaction.
nucleus
When thorium-234 undergoes beta decay, a neutron in the nucleus is converted into a proton, resulting in the formation of protactinium-234, with atomic number 91.
Molybdenum mainly undergoes beta decay. This decay process involves the emission of beta particles (electrons or positrons) from the nucleus, resulting in the transformation of a neutron into a proton.