Thorium-230 is an alpha emitting radio-isotope.
The half-life is 75 380 years, the daughter isotope is radium-226.; the energy of alpha rays is
4,447 MeV.
The main isotopes of thorium are thorium-232, thorium-230, and thorium-229. Thorium-232 is the most abundant and stable isotope of thorium, while thorium-230 and thorium-229 are radioactive isotopes that undergo decay processes.
By alpha decay Th-230 is transformed in Ra-226.
Thorium-230 decays into radium-226 when it emits an alpha particle.
Thorium is not used in the human body. While thorium is a naturally occurring element, it is not essential for human health and can be harmful if ingested or inhaled, as it is radioactive. It is primarily used in industrial and energy applications.
Thorium is a natural chemical element, a radioactive metal.
Thorium-230 is radioactive because it undergoes alpha decay, turning into radium-226 with the release of an alpha particle. This decay process is characteristic of radioactive elements.
Thorium 230 has 90 electrons and 140 neutrons.
The upper limit of uranium-thorium-230 dating is 500 000 years.
The upper limit of uranium-thorium-230 dating is 500 000 years.
The upper limit of uranium-thorium-230 dating is 500 000 years.
Thorium 230 has 90 protons and 140 neutrons - the difference is 50.
The main isotopes of thorium are thorium-232, thorium-230, and thorium-229. Thorium-232 is the most abundant and stable isotope of thorium, while thorium-230 and thorium-229 are radioactive isotopes that undergo decay processes.
Thorium is a radioactive metal.
Thorium is a solid, natural, radioactive metal.
Thorium is a solid, natural, radioactive metal.
Thorium is a solid, natural, radioactive metal.
Thorium is a natural, radioactive, chemical element; chemically, thorium is homogeneous.