yes, all elements have isotopes. some stable, some radioactive.
According to wikipedia, argon has 24 known isotopes. 40Ar is most abundant at about 99.6% of natural argon.
Yes.
Yes, there are synthetic isotopes of argon.
The element Argon has 8 Isotopes argon-35, argon-36, argon-37, argon-38, argon-39, argon-40, argon-41 and argon-42.The stable isotopes of argon are:argon-36, 0.34%argon-38, 0.06%argon-40, 99.60%Of the radioactive isotopes argon-39 has the longest halflife at about 260 years, all the others have halflives measured in days or much less.
Over 99.999% of argon is not radioactive. A trace of radioactive argon-39 can be found in nature, but it is not significant. Synthetic radioactive isotopes of argon exist, as they do for all elements.
Argon is found in the form of 3 isotopes: 40Ar, 36Ar and 38Ar (in order of abundance). All three are stable.
That depends on the isotope, as Argon has three different stable isotopes and many different radioactive isotopes.
The radioactive decay of potassium 40 produces in argon 40. The proportion of these two isotopes in rocks permit their age to be calculated.
The radioactive decay of potassium 40 produces in argon 40. The proportion of these two isotopes in rocks permit their age to be calculated.
That depends on the isotope, as Argon has three different stable isotopes and many different radioactive isotopes.
There are over twenty known isotopes of argon. Of these all but three are radioactive and decay. Of naturally occurring argon, very nearly 100% is not radioactive, with only traces of one radioactive isotope found.
The method used for determining the age of artifacts by measuring the rate of decay in atoms in volcanic rock is radiometric dating, specifically the potassium-argon dating technique. This method relies on the radioactive decay of potassium isotopes into argon isotopes in volcanic rock to determine its age. By measuring the ratio of potassium to argon isotopes, scientists can calculate the age of the rock and any artifacts contained within it.