You add or remove one or more neutrons from each atom.
10 isotopes 10 isotopes
Elements with no stable isotopes are called radioactive elements. These elements spontaneously undergo radioactive decay, which leads to the formation of stable isotopes over time.
There are many elements that have only one naturally occurring isotope. When you get to transuranic elements the elements all have no naturally occurring isotopes. But all elements have isotopes, they just have to be created, maybe in a nuclear reactor or particle accelerator or a supernova explosion.
During some radioactive explosion/exposure the atoms combine and if they stay stable they from with extra amounts of protons. Isotopes are when two or more elements have the same number of protons, but different number of neutrons.
Isotopes are atoms of the same elements with different number of neutrons.
From hydrogen, isotopes of helium are formed through nuclear reactions.
New elements(or isotopes of decaying element) are produced and energy is released
Probably not, no.
Big Bang nucleosynthesis produced stable isotopes for:Hydrogen(Deuterium)HeliumLithium
10 isotopes 10 isotopes
My guess is that there are isotopes and ions of each element that count as different atoms.
Elements with no stable isotopes are called radioactive elements. These elements spontaneously undergo radioactive decay, which leads to the formation of stable isotopes over time.
All of the isotopes in an element's atomic masses divided by the amount of isotopes there are is the weighted-average mass of the mixture of an elements isotopes.
There are many elements that have only one naturally occurring isotope. When you get to transuranic elements the elements all have no naturally occurring isotopes. But all elements have isotopes, they just have to be created, maybe in a nuclear reactor or particle accelerator or a supernova explosion.
Neon with an extra neutron would be considered an isotope of neon. Isotopes have the same number of protons but a different number of neutrons. Since it still has the same number of protons (and thus still the same atomic number), it remains an ion.
Isotopes are found in nature, in elements that have different versions of the same atom with varying numbers of neutrons. They are also artificially produced in laboratories through nuclear reactions. Isotopes play important roles in various scientific and industrial applications.
No most of them are not isotopes. Few elements exist as isotopes.