The reason why the first ionization energy of chlorine is greater than sulfur while the second ionization energy are nearly same has to be given. Concept Introduction: Ionization energy: The ionization energy of an atom is the amount of energy required to remove an electron from the gaseous form of that atom or ion. Example: Na ( g ) → Na + ( g ) +e - As moving across the period the atomic radius decreases therefore the outer electrons are closer to the nucleus and more strongly held by the nucleus and thus it requires a lot of energy to remove the outermost electron. Second Ionization energy: The energy required to remove a second electron from a singly charged gaseous cation is called as second ionization energy. Example: Na + ( g ) → Na 2+ ( g ) +e - The second ionization energy of sodium is 4560 kJ/mol . The second ionization energy is almost ten times greater than the first ionization energy because the number of electrons causing repulsions is reduced.

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Chapter 1, Problem 1F.10E

Interpretation Introduction

Interpretation:

The reason why the first ionization energy of chlorine is greater than sulfur while the second ionization energy are nearly same has to be given.

Concept Introduction:

Ionization energy:

The ionization energy of an atom is the amount of energy required to remove an electron from the gaseous form of that atom or ion.

Example:

Na(g)→Na+(g)+e-

As moving across the period the atomic radius decreases therefore the outer electrons are closer to the nucleus and more strongly held by the nucleus and thus it requires a lot of energy to remove the outermost electron.

Second Ionization energy:

The energy required to remove a second electron from a singly charged gaseous cation is called as second ionization energy.

Example:

Na+(g)→Na2+(g)+e-

The second ionization energy of sodium is 4560 kJ/mol.

The second ionization energy is almost ten times greater than the first ionization energy because the number of electrons causing repulsions is reduced.

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