Not necessarily. The fusion reactions in the sun produce primarily helium-4 which is stable.
The stable isotope formed by the breakdown of a radioactive isotope is called a daughter isotope. This process is known as radioactive decay, where a radioactive isotope transforms into a stable daughter isotope through the emission of particles or energy.
The daughter product of nuclear decay is a new element or isotope that is formed as a result of the original radioactive material decaying.
The parent isotope is the original radioactive isotope that undergoes decay to form the daughter isotope. The daughter isotope is the stable isotope that is formed as a result of the radioactive decay of the parent isotope.
A daughter isotope is identified by its distinct atomic number and mass number resulting from the decay of a parent isotope. The transition typically involves the parent isotope undergoing radioactive decay, which alters its nuclear structure. To identify the daughter isotope, one can analyze the decay chain and utilize techniques such as mass spectrometry or radioactive dating methods. Additionally, the half-life and decay products can help confirm the specific daughter isotope formed.
Unwanted radioactive products formed during nuclear reactions are called nuclear waste or radioactive waste. These byproducts are often harmful to the environment and can remain radioactive for long periods of time, presenting challenges for disposal and management.
A radioactive decay chain ends when a series of radioactive isotopes transforms into a stable isotope, which no longer undergoes further decay. Each isotope in the chain decays into another isotope or element until a stable state is reached. Once the final stable isotope is formed, the chain ceases, as there are no further radioactive transformations. This stable isotope can exist indefinitely without undergoing radioactive decay.
I suppose that the isotope formed is Am-245.
When an isotope in the rock decays, a new isotope or element is formed. This process is known as radioactive decay, where the original isotope changes into a different element or isotope through the emission of particles or energy.
Radio active parent elements decay to stable daughter elements i.e. the radio active parent Potassium 40 decays to Argon 40 Each radioactive isotope has it's own half life A half life is the time it takes for the parent radioactive element to decay to a daughter product, Potassium 40 decays to Argon 40 with a half life of 1 1/4 billion years. Therin lies the problem of storing nuclear waste
In radiometric dating, the amount of a certain radioactive isotope in an object is compared with a reference amount. This ratio can then be used to calculate how long this isotope has been decaying in the object since its formation. For example, if you find that the amount of radioactive isotope left is one half of the reference amount, then the amount of time since the formation of the object would be equal to that radioactive isotope's half-life.
Radon is a noble gas and is radioactive. All of the other noble gasses have at least some synthetic radioactive isotopes. Radioactive isotopes of both krypton and argon exist in nature in trace quantities.
Fission products