What are the general outer electron configurations (nsx npy) for groups 6A and 7A in the periodic table? The electron affinity of each group 7A element is more negative than that of each corresponding group 6A element. Use the electron configurations to explain why this is so.

Electron configuration describes the distribution of electrons in an atom's orbitals. For main group elements, this is typically expressed in the form ns^x np^y, where 'n' indicates the principal energy level, and 's' and 'p' denote the types of orbitals. Understanding the electron configurations of elements in groups 6A and 7A is essential for predicting their chemical behavior and reactivity.

Electron affinity is the energy change that occurs when an electron is added to a neutral atom in the gas phase. A more negative electron affinity indicates a greater tendency for an atom to gain an electron. Group 7A elements, which have higher electron affinities than group 6A elements, are more likely to attract additional electrons due to their nearly filled p orbitals, making them more stable when gaining an electron.

Periodic trends refer to predictable patterns in elemental properties across the periodic table, such as electronegativity, ionization energy, and electron affinity. As you move from left to right across a period, elements generally become more electronegative and have more negative electron affinities. This trend explains why group 7A elements, with their higher effective nuclear charge and electron configurations, have a stronger attraction for additional electrons compared to group 6A elements.