Absolutely yes, all isotopes of an element are chemically identical in the compounds they form as the chemistry is determined by the configuration of the electrons in the outer shell, which is completely unaffected by the number of neutrons inside the nucleus.
What is affected in chemistry by different isotopes is reaction rates: compounds containing heavier isotopes react slower than compounds containing lighter isotopes. The most extreme case of this is heavy water, which reacts so slowly compared to ordinary water that it inhibits many reactions necessary for life!
Isotopes are atoms of the same elements with different number of neutrons.
elements are isotopes, when different atoms of the same element have different number of neutrons
Uranium has a number of isotopes including U235 and U238, both of which are radioactive
Only two type of atoms (excepting the situation with isotopes)
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Elements and compounds are both composed of atoms. Compounds are composed of two or more atoms of different elements.
Isotopes are atoms of the same elements with different number of neutrons.
Elements with isotopic atoms? An isotope is the same form of an element, but with a different number of neutrons. An element with isotopes/"isotopic atoms" is simply an element with isotopes.
Isotopes are atoms of the same element with different numbers of neutrons. They do have very similar chemical properties. In fact for most purposes we can consider them identical.
He said that compounds are formed when atoms of different elements combine
elements are isotopes, when different atoms of the same element have different number of neutrons
Compounds are composed of two or more atoms of different elements.
isotopes
Pure elements. Isotopes. Atoms.
The basic building block of all compounds is atoms. Compounds contain atoms of at least two different elements bonded to one another. Thus, atoms of elements are what form compounds.
No, the other way around. Kind of. Elements are made of compounds of atoms.
Uranium has a number of isotopes including U235 and U238, both of which are radioactive