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Ionization Enthalpy

1 mole of mag...

Question

1 mole of magnesium in the vapour state absorbed 1200 kJ $m o l^{- 1}$ of energy. If the first and second ionization energies of Mg are 750 and 1450 kJ $m o l^{- 1}$ respectively, the final composition of the mixture is

31 % Mg⁺ + 69 % Mg²⁺

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69 % Mg⁺ + 31% Mg²⁺

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86 % Mg⁺ + 14 % Mg²⁺

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14 % Mg⁺ + 86 % Mg²⁺

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Solution

The correct option is B 69 % Mg⁺ + 31% Mg²⁺
Energy absorbed in the ionization of 1 mole of Mg (g) to $M g^{+}$ (g) = 750 kJ.
Energy left unconsumed = 1200 - 750 = 450 kJ
This energy is used to convert $M g^{+}$ (g) to $M g^{2 +}$ (g), but we actually need to 1450 kJ to convert it entirely.

So, instead of all molecules absorbing a little bit of energy, a certain fraction of them only would absorb enough energy and get ionized while the rest remain in the same state. Remember, energy is quantized.

Thus,

% of $M g^{2 +}$ (g) = 450 x 100/ 1450 = 31 %

% of $M g^{+}$ (g) = 100 - 31 = 69%

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1 mole of magnesium in the vapour state absorbed 1200 kJ mol−1 of energy. If the first and second ionization energies of Mg are 750 and 1450 kJ mol−1 respectively, the final composition of the mixture is

1 mole of magnesium in the vapour state absorbed 1200 kJ $m o l^{- 1}$ of energy. If the first and second ionization energies of Mg are 750 and 1450 kJ $m o l^{- 1}$ respectively, the final composition of the mixture is