The diagram shows a sketch of the trend in the first ionisation energies for the elements 3 to 10 in the periodic table - Leaving Cert Chemistry - Question (b) - 2003

The ionisation energies of element number 4 (Beryllium) and element number 7 (Nitrogen) are exceptionally high because:

1. Element 4 (Beryllium): The outer electron configuration is s^2, where both s orbitals are fully occupied. This configuration imparts greater stability, thus requiring more energy to remove an electron compared to elements with partially filled orbitals.

2. Element 7 (Nitrogen): Nitrogen has a half-filled p subshell configuration of p^3, which is particularly stable. The half-filled subshell offers additional stability due to the exchange energy associated with having equal distribution of electrons among the orbitals. This stability requires more energy to remove an electron, leading to higher ionisation energy.

The first ionisation energy is defined as the energy required to remove the most loosely bound electron from a neutral atom in its gaseous state:

$X(g) \rightarrow X^+(g) + e^-$

In contrast, the second ionisation energy is the energy required to remove an electron from a positively charged ion:

$X^+(g) \rightarrow X^{2+}(g) + e^-$

Thus, the key difference lies in the charge of the species from which the electron is being removed: the first ionisation energy involves a neutral atom, while the second involves an already ionised atom.