The first ionization energy of alkali metals is very low but the second ionization energy is very high because ________.
A
alkali metals acquire noble gas configuration after losing one electrone
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B
a large amount of energy is required to remove electron from a cation
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C
alkali metals can form only univalent ions
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D
first group elements can lose only one electron
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Solution
The correct option is A alkali metals acquire noble gas configuration after losing one electrone All the alkali metals have one valence electron ns1, outside the noble gas core electronic configuration. The loosely held s-electron in the outermost valence shell of these elements makes them the most electropositive metals. They readily lose electron to give monovalent M+ ions. So, the first ionization energy of alkali metals is low.
After the removal of one electron, i.e. formation of monovalent M+ ion, the metal atom attains noble gas configuration, so they require very high ionization energy to remove electrons from the stable noble gas configuration. Therefore the second ionization energy is very high as compared to the first ionization energy.