Beta emission is the equivalent of discharging an electctron.
204 0 204
Tl + e ----forms--- Pb
81 -1 82
Which is lead 204
Thorium-230 decays into radium-226 when it emits an alpha particle.
In alpha decay, the parent element (nucleus) emits an alpha particle consisting of 2 protons and 2 neutrons. The daughter element is formed by subtracting the alpha particle from the parent element's atomic number and mass number. The daughter element is often located two positions to the left on the periodic table compared to the parent element.
a new element is formed
When thorium-230 decays by emitting an alpha particle, it transforms into radium-226. This decay process reduces the mass number by 4 and the atomic number by 2.
Lead-209 will be left over after the isotope bismuth-213 undergoes alpha decay, as the emission of an alpha particle causes the atomic number of the element to decrease by 2. Bismuth-213 has an atomic number of 83, so after the emission of an alpha particle (which has an atomic number of 2), the resulting element will have an atomic number of 81, which corresponds to lead.
When bismuth-213 emits an alpha particle, it transforms into thallium-209. This process is known as alpha decay, where the atomic number decreases by 2 and the mass number decreases by 4 due to the emission of an alpha particle.
When 60Co decays by beta- decay it produces 60Ni.
When californium emits an alpha particle, it creates curium.
When an atom emits an alpha particle, it loses two protons and two neutrons from its nucleus. This results in a new element being formed with an atomic number that is two less than the original element.
When (^{222}Rn) emits a beta particle, it transforms into (^{222}Fr), which is Francium.
When radium (Ra) emits an alpha particle, it transforms into radon (Rn). This process is also known as alpha decay, where an alpha particle is released from the nucleus of the radium atom, resulting in the formation of a new element.
Thorium-230 decays into radium-226 when it emits an alpha particle.
If an element emits a beta particle, it results in the transformation of a neutron into a proton within the nucleus. This process changes the element to the one that is two elements higher in the periodic table.
The isotope formed when tritium (3H) emits a beta particle is helium-3 (3He). This process occurs when a neutron in the tritium nucleus converts to a proton, releasing a beta particle (electron) and an electron antineutrino.
When an element emits a beta particle, it transforms into an element that occupies the place immediately following it in the periodic table. This is because beta decay involves the transformation of a neutron into a proton, increasing the atomic number by one.
The nuclear reaction is: 232Th--------------- 228Ra + α
It drops 2