All isotopes of a substance are chemically the same. It is their physical properties which are different.
The number of electrons in isotopes is identical.
Chemical reactions involve electrons - not protons or neutrons. All isotopes of the same element have an identical number of electrons (just the number of neutrons differs) and hence the chemical properties are identical/very similar.
All the isotopes of a chemical element are identical; some differences exist for light elements (ex. H or D).
Chemical properties of a element is governed by ELECTRONIC CONFIGURATION of that element. As isotopes of same element have identical electronic configurations, their chemical properties are same.
The number of protons and electrons is identical.
They have all the chemical, physical, nuclear properties identical. This is not the case for isotopes.
Phosphorus-31 and phosphorus-32 are both isotopes of the element phosphorus, differing only in the number of neutrons they possess. They share similar chemical properties due to having the same number of protons, but phosphorus-32 is radioactive with a half-life of around 14 days, making it useful in biological research and medicine.
Isotopes of an atom have the same number of protons but different numbers of neutrons. This causes isotopes to have different atomic masses. The chemical properties of isotopes are usually identical, but physical properties such as nuclear stability and radioactive decay can vary.
For the same element, isotopes have equal numbers of protons but different numbers of neutrons. Isotopes of a given element have similar chemical properties due to having the same number of electrons, which determines an element's chemical behavior.
All isotopes of the same element have the same chemical properties due to the following reasons: * they all have the same electrons in the OUTERMOST shell. * they all have the same electronic configuration.
Yes, but they have varying amounts of neutrons.
The physical properties are of course different. The chemical properties are considered identical but this is not a general rule; for example hydrogen isotopes (1H and 2H) have some different chemical and biochemical properties.