True and False. Radioactivity is a characteristic of unstable atomic nuclei, whereas radioactive decay is the process that a radioactive nucleus undergoes when it decays due to its instability.
Argument for true: Radioactivity is the tendency to undergo radioactive decay.
Argument for false: The two terms are unrelated because one is a characteristic and the other is a process, and, therefore, the question misunderstands the definition of the terms.
You choose your definition. This writer prefers false.
The radioactivity of the materials is measured with suitable instruments.
Some of the elements on the Periodic Table are Radioactive. This means that their nuclei decay to form other elements in a decay chain. There are currently 33 known radioactive elements of which 20 are currently produced synthetically.
its not from radioactivity its from carbon dating
The length of time required for half of a sample of radioactive material to decay
Forces do not decay.However the forces responsible for radioactive decay are: Strong - alpha & gamma, Weak - beta.The electromagnetic and gravitational forces do not participate in radioactivity at all.
All elements with an atomic number >83 are naturally radioactive
they are emitted by radioactivity during radioactive decay.
they are emitted by radioactivity during radioactive decay.
This process through which unstable nuclei emit radiation is called radioactive decay. It also is called nuclear decay, and it is a natural process in which an atom of an isotope decomposes into a new element.
The radioactivity of the materials is measured with suitable instruments.
Some of the elements on the Periodic Table are Radioactive. This means that their nuclei decay to form other elements in a decay chain. There are currently 33 known radioactive elements of which 20 are currently produced synthetically.
Radioactive decay or radioactivity
its not from radioactivity its from carbon dating
No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.
Nuclear decay.Different types of nuclear decay include:Alpha Decay, where the nucleus ejects a charged particle made of protons and neutrons.Beta Decay, where a neutron turns into a proton, a Beta particle (an electron or positron) and a neutrino.Gamma radiation can also be emitted in these processes.
The length of time required for half of a sample of radioactive material to decay
Forces do not decay.However the forces responsible for radioactive decay are: Strong - alpha & gamma, Weak - beta.The electromagnetic and gravitational forces do not participate in radioactivity at all.