The decay chain of Th-232 contain Rn, Ra, Ac, Po, Bi, Po, Tl; the last isotope in the series is Pb-208 - stable.
Thorium-232 is appearing in the thorium series.
Thorium-232 is an alpha emitter; rarely decay by spontaneous fission or double beta decay are possible.
It is thorium 234.
Radon is a natural chemical element; it can be found inthe radioactive decay series of uranium, thorium.
Thorium-234 is not changed in uranium-234.- Th-234 is a decay product of U-238- By beta decay Th-234 is transformed in Pa-234
Thorium-232 is appearing in the thorium series.
Protactinium 234 is a decay product of thorium 234; the nuclear reaction is: 23490Th-----------beta rays-------------23491Pa
Thorium-232 is an alpha emitter; rarely decay by spontaneous fission or double beta decay are possible.
The decay of thorium by alpha decay the resultant nuclide is the element radium. The specific nuclide of radium cannot be determined unless we know which specific nuclide of thorium underwent alpha decay.
It is thorium 234.
Alpha decay
Radon is a natural chemical element; it can be found inthe radioactive decay series of uranium, thorium.
Thorium-234 is not changed in uranium-234.- Th-234 is a decay product of U-238- By beta decay Th-234 is transformed in Pa-234
Thorium 231
This process is called alpha decay.
By alpha decay Th-230 is transformed in Ra-226.
Alpha decay