You'd have to specify the isotope of thorium for us to definitively identify the isotope produced. A thorium atom that undergoes alpha decay will become a radium atom. However, we can't identify the specific isotope of radium without knowing the number of neutrons in the original thorium atom.
231Th-------------231Pa + ?-
234Th-------------234Pa + ?-
A thorium-234 atom has 90 protons and 144 neutrons. It has a half-life of 24.5 days. When it decays it emits a beta particle and a gamma ray, leaving behind a protactinium-234 atom.
Thorium-234 decays via beta- decay to protactinium-234, releasing a W- boson, which then decays to an electron and an electron antineutrino.
90234Th -> 91234Pa + (W- -> e- + v-e)
Thorium-225 decays (90% of it, that is) via alpha decay to radium-221.
Beta decay of uranium produces neptunium element and the beta decay of neptunium produces plutonium.
Thorium-234 is transformed in protactinium-234 by beta decay.
231Th-------------231Pa + β-
234Th-------------234Pa + β-
For example: 231Th---------β---→231Pa 234Th---------β---→234Pa
Thorium 234: Beta decay. Atomic number increases by 1.
Protactinium 234 is a decay product of thorium 234; the nuclear reaction is: 23490Th-----------beta rays-------------23491Pa
Phosphorus-32 produces sulfur-32 by negative beta decay.
Protactinium 234 is a decay product of thorium 234; the nuclear reaction is: 23490Th---------------23491Pa + beta rays (e-)
Naturally occurring scandium 45Sc is stable. However synthetic isotopes of scandium can have 36 to 60 nucleons. Isotopes with masses above the stable isotope decay through beta emission into isotopes of titanium. Isotopes below the stable variety decay, mainly by electron capture, into isotopes of calcium.
Thorium 234: Beta decay. Atomic number increases by 1.
Protactinium 234 is a decay product of thorium 234; the nuclear reaction is: 23490Th-----------beta rays-------------23491Pa
An example of beta decay for a thorium isotope: Th-231(beta)Pa-231.
Thorium-232 is an alpha emitter; rarely decay by spontaneous fission or double beta decay are possible.
nothing, but another isotope with the same atomic mass is formed
The beta decay is: 234Th--------beta--------234Pa.
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
Fluorine
Beta Particle
Phosphorus-32 produces sulfur-32 by negative beta decay.
6C14 ---------> 7N14 + -1 e0 Beta particle is emitted and carbon changes into nitrogen
Nope, Neodymium-144 undergoes Alpha decay to Cerium-140.