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A compound has more thermodynamic stability if the ionization energy of the metal is low. Since the ionization energy of Ni 2+ is less than that for Pt 2+ , therefore Ni 2+ , compounds are thermodynamically more stable than Pt 2+ compounds. Ni → Ni 2+ + 2e – ΔH = 2490 kJ mol –1 (low energy more stable) Pt → Pt 2+ + 2e – ΔH = 2660 kJ mol –1 (high energy less stable) Pt 4+ compounds are stable than Ni 4+ compounds because the energy needed to remove 4 electrons in Pt is less than that in Ni. Pt → pt 4+ + 4e – ΔH = 6770 kJ mol –1 (low energy more stable) Ni → Ni 4+ + 4e – ΔH = 8800 kJ mol –1 (high energy, less stable)

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The d-And-f-Block Elements

Short Answer Type

191.

Why Am and Cm have exceptional configuration in actinoids?

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Long Answer Type

192. Write the main differences in lanthanides and actinides.

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Short Answer Type

193. Why the actinoids show more variable oxidation states than lanthanoids?

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194. What is actinoid contraction? How is it different from lanthanoid contraction?

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195. Why are Ni²⁺ compounds thermodynamically more stable than Pt²⁺ compounds while Pt⁴⁺ compounds are relatively more stable than Ni⁴⁺ compounds?

A compound has more thermodynamic stability if the ionization energy of the metal is low. Since the ionization energy of Ni²⁺ is less than that for Pt²⁺, therefore Ni²⁺, compounds are thermodynamically more stable than Pt²⁺ compounds.
Ni → Ni²⁺ + 2e^– ΔH = 2490 kJ mol^–1(low energy more stable)
Pt → Pt²⁺ + 2e^–  ΔH = 2660 kJ mol^–1(high energy less stable)
Pt⁴⁺ compounds are stable than Ni⁴⁺ compounds because the energy needed to remove 4 electrons in Pt is less than that in Ni.
Pt → pt⁴⁺ + 4e^–    ΔH = 6770 kJ mol^–1(low energy more stable)
Ni → Ni⁴⁺ + 4e^–  ΔH = 8800 kJ mol^–1(high energy, less stable)