Flying a kite is not the same as the wind blowing, but you need one for the other.
Radioactive decay is not the same as radioactive dating, but you need the decay to get the date.
Radioactive isotopes each of a characteristic decay rate and if one knows the amount of such an isotope in an object when it was created, the level of radioactivity decreases predictably with age and one can calculate the age by knowing the decrease.
Radioactive decay is good for a lot of other things too, just like the wind.
The aesthenosphere is kept deformable largely through heat generated by radioactive decay
This all depends on the situation and context. In particle physics, proton decay is hypothetical. It is a type of radioactive decay where protons decay into lighter subatomic particles.
From the inside of the Earth, which is fairly hot. The Earth gets its heat from radioactive decay.
Helium is generated as a decay product of some radioactive materials and tends to collect in the same type of geological structures that trap natural gas, so methane might be a possible answer.
mostly alpha, the others contribute a little too but not much.
Carbon dating
Scientists used radioactive decay to measure the age of rocks, artifacts, and archaeological materials. By measuring the amount of radioactive isotopes present in a sample and comparing it to the known half-life of the isotope, scientists can determine how long ago the material formed. This technique is known as radiometric dating and allows researchers to establish the age of objects thousands to billions of years old.
plants
Archaeology
yep, sure are
Radioactive dating of rock samples determines the age of rocks from the time it was formed. Geologist determine the age of rocks using radioactive dating. The radioactive dating relies on spontaneous decomposition into other element. The spontaneous decomposition is called radioactive decay.
Alpha decay involves the emission of an alpha particle (two protons and two neutrons) from the nucleus, resulting in a decrease in atomic number by 2 and mass number by 4. In beta decay, a neutron is transformed into a proton and an electron (beta particle) is emitted from the nucleus, resulting in an increase in atomic number by 1 while the mass number remains the same.
Both are based on radioactive decay.
Are constant
similar because they both depend on spontaneous radioactive decay
The decay of radioactive isotopes.The decay of radioactive isotopes.The decay of radioactive isotopes.The decay of radioactive isotopes.
radioactive decay