The stable isotope produced by radioactive decay is called a daughter isotope.
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.
Argon-40 is the most commonly found isotope of argon on Earth, with a natural abundance of about 99.6%. This isotope is stable and is produced from the radioactive decay of potassium-40 in the Earth's crust.
An isotope is considered stable if it does not undergo radioactive decay over time. This means that the nucleus of the isotope is not prone to breaking down and releasing radiation. Stable isotopes have a balance of protons and neutrons that make them resistant to spontaneous changes.
No, iodine-127 is not radioactive. It is a stable isotope of iodine, which means it does not undergo radioactive decay and does not emit harmful radiation.
No, deuterium is stable. It is Tritium that is radioactive.
daughter isotope
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 process where an unstable parent isotope becomes a stable daughter isotope is called radioactive decay. During this process, the parent isotope undergoes a series of transformations, such as alpha or beta decay, emitting particles or energy until it reaches a stable state as a daughter isotope.
The radioactive isotope is disintegrated in time and emit radiations.
The radioactive isotope is disintegrated in time and emit radiations.
Radioactive elements break down in to stable isotopes through nuclear decay. The list of isotopes from a nuclear isotope to a stable isotope is called its decay chain.
The time it takes for 50 percent of the nuclei in a radioactive sample to decay to its stable isotope is called the half-life of the radioactive element. It is a characteristic property of each radioactive isotope and can vary greatly among different elements.
it must eject the extra nucleons and should be conveted into a stable isotope.
Yes, that is correct. Radioactive decay involves the transformation of an unstable parent isotope into a more stable daughter product through the emission of particles or energy. This process continues until the parent isotope reaches a stable configuration.
When an isotope is stable, it does not undergo radioactive decay. Stable isotopes have a balanced number of protons and neutrons in the nucleus, which prevents them from spontaneously changing into another element over time.
When an isotope does not undergo radioactive decay, it is considered stable. Stable isotopes have a balanced ratio of protons and neutrons in their nuclei, which prevents them from emitting radiation over time.
No, it has only one stable isotope.