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The reasons are as follows On the other hand, compounds in the +3 and +4 states are more prone to hydrolyse. Actinoids display a large number of oxidation states, while lanthanoids primarily show only three oxidation states
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Actinoids are radioactive in nature. As with lanthanoids, actinides contain more compounds in their +3 state than their +4 state Actinoids or actinides are 15 consecutive chemical elements in the periodic table from actinium to lawrencium
As a group, they are significantly large because of their radioactivity
Actinoid contraction is more irregular Variable oxidation states and stronger 5f participation lead to complex behavior In actinoids, 5f orbitals participate in bonding, while in lanthanoids, 4f orbitals are deeply buried and less involved. Chemistry of actinoids is more complicated than lanthanoids because (i) actinoids show greater number of oxidation states due to the comparable energies of 5f, 6d and 7s orbitals
(ii) the actinoids are radioactive and the study of their chemistry in the laboratory is difficult. The chemistry of actinoids is more complex than that of lanthanoids because actinoids exhibit multiple oxidation states due to smaller energy differences between their orbitals and because their radioactivity and limited availability make them difficult to study. While they share some similarities, the chemistry of actinoids is far more complex than that of lanthanides This difference arises due to variations in electronic structure, oxidation states, bonding behavior, and radioactive nature.
Actinoids exhibit a wider range of oxidation states (from +3 to as high as +7 in some cases) compared to lanthanoids, which predominantly exhibit a +3 oxidation state
This variability leads to more complex chemical behavior and reactions. The chemistry of actinoids is more complex due to a wide range of oxidation states and the complications arising from their radioactivity The occurrence of various oxidation states and the challenges posed by radioactivity make the study of actinoids more intricate. Actinoids are closely related to nuclear chemistry and nuclear energy
Since the amount of superheavy elements synthesized in accelerators is very minute, they are very significant from the viewpoint of applied chemistry.
