Answer :
Answer: The Lattice energy is the energy required to separate an ionic solid into its component gaseous ions or
It is the energy released when gaseous ions combine to form an ionic solid.
Explanation:
The lattice energy depends on the ionization energies and electron affinities of atoms involved in the formation of the compound. The ionization energies and electron affinities also depends on the ionic radius and charges of the ions involved. As the ionic radius for cations increases down the groups, ionization energy decreases, whereas, as ionic radii decreases across the periods , ionization energy increases. The trend observed for anions is that as ionic radii increase down the groups, electron affinity decreases. Across the period, as ionic radii increases electron affinity increases. Also, as the charge on the ion increases, it leads to an increase in energy requirement/content.
Therefore, for compounds formed from cations and anions in the same period, the highest charged cation and anion will have the highest lattice energy. For example, among the following compounds: Al2O3 (aluminium oxide), AlCl3 (aluminium chloride), MgO, MgCl2 (magnesium chloride), NaCl, Na2O (sodium oxide); Al2O3(aluminium oxide) will have the highest lattice energy, thus will be hardest to break apart because its ions have the highest charge.
The pair of ions that require the largest amount of energy to separate them are Mg^2+ and O^2-.
The lattice energy refers to the energy is the energy released when the components of a lattice come together. It is also the energy required to separate the ions in the lattice.
The lattice energy depends on the size of the ions or the ionic radii. The smaller the ions, the higher the lattice energy. Considering the size of the ions, we can see that Mg^2+ and O^2- are the smallest pair of ions among the options.
Hence, the pair of ions among the options that require the largest amount of energy to separate them are Mg^2+ and O^2-.
Learn more: https://brainly.com/question/17011733
