92Au 282Xe +13S
This isotope is transformed in another isotope of another element.
radioactive decay
Radioactive decay is the process in which one isotope is changed into another isotope.
nuclear decay
The ticking of a clock is constant, occurring at a steady rhythm/frequency. While the decay of radioactive elements cannot be determined at a particular point in time, they do decay at a fairly steady rate over time. This allows you to statistically determine the rate at which a mass of radioactive material will steadily decay. So, the decay rate is steady, predictable, and follows a sort of rhythm over time just like the ticking of a clock.
The ticking of a clock is constant, occurring at a steady rhythm/frequency. While the decay of radioactive elements cannot be determined at a particular point in time, they do decay at a fairly steady rate over time. This allows you to statistically determine the rate at which a mass of radioactive material will steadily decay. So, the decay rate is steady, predictable, and follows a sort of rhythm over time just like the ticking of a clock.
The ticking of a clock is constant, occurring at a steady rhythm/frequency. While the decay of radioactive elements cannot be determined at a particular point in time, they do decay at a fairly steady rate over time. This allows you to statistically determine the rate at which a mass of radioactive material will steadily decay. So, the decay rate is steady, predictable, and follows a sort of rhythm over time just like the ticking of a clock.
The ticking of a clock is constant, occurring at a steady rhythm/frequency. While the decay of radioactive elements cannot be determined at a particular point in time, they do decay at a fairly steady rate over time. This allows you to statistically determine the rate at which a mass of radioactive material will steadily decay. So, the decay rate is steady, predictable, and follows a sort of rhythm over time just like the ticking of a clock.
The ticking of a clock is constant, occurring at a steady rhythm/frequency. While the decay of radioactive elements cannot be determined at a particular point in time, they do decay at a fairly steady rate over time. This allows you to statistically determine the rate at which a mass of radioactive material will steadily decay. So, the decay rate is steady, predictable, and follows a sort of rhythm over time just like the ticking of a clock.
Francium-223 decay to radium-223; each isotope have another type of decay.
92Au 282Xe +13S
Transmutation, which is the change of atoms from one element to another.
That would be radioactive decay.
rot
One element decaying into another, which decays into another
Rot and decomposition are words for decay. Another word for tooth decay is cavity. Cavities happen as a result of the production of acid by bacterial fermentation of food debris accumulated on the tooth surface.