Want this question answered?
isotopes
The periodic table gives you the actual weight of an element, so that if you had a sample in your laboratory and weighed it, your result would agree with (or be very close to) what the periodic table indicates. The weight of an element depends upon the relative abundance of the various isotopes of which it is composed. Each isotope has a different weight, so the weight of the element is influenced by each isotope, with the more abundant isotopes having a correspondingly greater influence.
Isotopes are forms of an element that have different numbers of neutrons. For example, deuterium is hydrogen that has one neutron, protium is hydrogen that has no neutrons. So the question doesn't make any sense. I think you're trying to ask if you can separate various isotopes of an element. The answer is yes; there are a few companies that specialize in doing this and can sell you samples of material which is isotopically enriched in a particular isotope.
A nuclear reaction of some sort ( not necessarily violent blast). there are various Isotopes of some elements- with differing atomic numbers.
so the mass of an atom is determined by the number of protons and neutrons in an element. For a given element, the number of protons is the same but the number of neutrons can vary (an element can have various isotopes). Therefore, the average atomic mass of an element is simply a weighted average of the masses of all the isotopes of that element. (a weighted average means that how common an isotope is is taken into account when incorporating it into the average, so rare isotopes will not count as much as common isotopes)
Isotopes
isotopes
Atoms of the same element with different atomic masses are known as isotopes. Isotopes differ only by the number of neutrons present in the nucleus of the isotopes. The number of protons is the same for all isotopes of an element (because if there were different numbers of protons, then the atoms would not be of the same element).
weighted average of the various iisotopes
I assume you are asking what part of an element will always be the same, regardless of ionization or various isotopes. This would be the proton.
Yes. The number of neutrons determines the various isotopes of the elemnts.
These atoms are called isotopes.
A neutral (uncharged) atom has the same number of protons and electrons. Isotopes of an element may have several stable isotopes with various numbers of neutrons.
The subatomic particle that makes atoms of different elements different from each other is the proton. This is given as the atomic number of the element on the periodic table.
Natural abundance refers to the relative amount of different isotopes of an element that occur naturally in the environment. It is expressed as a percentage and reflects the distribution of isotopes based on their atomic masses. Natural abundance varies depending on the element and is important in various fields such as chemistry, geology, and environmental science.
All of the atoms of a particular element have the same number of protons. But the number of neutrons can differ by a few. Atoms with different numbers of neutrons are the different "isotopes" of the element. All the atoms behave the same way in chemical reactions, because they are the same element. In order to separate out the various isotopes, you have to use something like a centrifuge to sort them out by mass.
The periodic table gives you the actual weight of an element, so that if you had a sample in your laboratory and weighed it, your result would agree with (or be very close to) what the periodic table indicates. The weight of an element depends upon the relative abundance of the various isotopes of which it is composed. Each isotope has a different weight, so the weight of the element is influenced by each isotope, with the more abundant isotopes having a correspondingly greater influence.