The first electron affinity for oxygen is +141 kJ/mol while the second electron affinity is -780 kJ/mol. Briefly account for the difference in magnitude and sign for these two values.
The Correct Answer and Explanation is:
The first electron affinity of oxygen (+141 kJ/mol) refers to the energy change when one mole of oxygen atoms gains one electron to form O⁻. This process is exothermic because adding an electron to an oxygen atom is energetically favorable. Oxygen has a high electronegativity, meaning it strongly attracts electrons. As a result, the electron affinity is positive, indicating that energy is released when the electron is added.
The second electron affinity of oxygen (-780 kJ/mol) refers to the energy change when O⁻, already possessing an extra electron, gains another electron to form O²⁻. This process is endothermic, requiring the input of energy, which is why the second electron affinity is negative. The reason for this is that after the first electron is added, the O⁻ ion becomes negatively charged. The additional electron would experience repulsion from the already present electron, making it harder for the second electron to be added. Therefore, energy must be supplied to overcome this repulsion.
In summary, the first electron affinity is positive because the addition of an electron to a neutral atom is exothermic, while the second electron affinity is negative because adding a second electron to a negatively charged ion involves repulsive forces, making it energetically unfavorable. Thus, the difference in magnitude and sign reflects the contrasting ease with which electrons are added to a neutral atom versus an already negatively charged ion.
