Question:

$K, Rb $ and $Cs$ form superoxides. The stability of the superoxides increases from '$K$' to '$Cs$' due to decrease in lattice energy. The correct answer is

Updated On: Apr 26, 2024
  • Both (A) and (R) are true and (R) is the correct explanation of (A)
  • Both (A) and (R) are true but (R) is not the correct explanation of (A)
  • (A) is true but (R) is not true
  • (A) is not true but (R) is true
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The Correct Option is C

Solution and Explanation

Superoxides are the species having an $O-O$ bond and $O$ in an oxidation state of $-\frac{1}{2}$ (superoxide ion is $O _{2}^{-}$).
Usually these are formed by active metals such as $KO _{2}, RbO _{2}$ and $CsO _{2}$.
For the salts of larger anions (like $O _{2}^{-}$), lattice energy increases in a group.
Since, lattice energy is the driving force for the formation of an ionic compound and its stability, the stability of the superoxides from '$K$' to '$Cs$' also increases.
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P-Block Elements

  • P block elements are those in which the last electron enters any of the three p-orbitals of their respective shells. Since a p-subshell has three degenerate p-orbitals each of which can accommodate two electrons, therefore in all there are six groups of p-block elements.
  • P block elements are shiny and usually a good conductor of electricity and heat as they have a tendency to lose an electron. You will find some amazing properties of elements in a P-block element like gallium. It’s a metal that can melt in the palm of your hand. Silicon is also one of the most important metalloids of the p-block group as it is an important component of glass.

P block elements consist of: