![]() ![]() The bond energy for a diatomic molecule, D X–Y, is defined as the standard enthalpy change for the endothermic reaction: The energy required to break a specific covalent bond in one mole of gaseous molecules is called the bond energy or the bond dissociation energy. The bond length is the internuclear distance at which the lowest potential energy is achieved. The potential energy of two separate hydrogen atoms (right) decreases as they approach each other, and the single electrons on each atom are shared to form a covalent bond. The stronger a bond, the greater the energy required to break it.įigure 1. Separating any pair of bonded atoms requires energy (see Figure 1). We measure the strength of a covalent bond by the energy required to break it, that is, the energy necessary to separate the bonded atoms. Stable molecules exist because covalent bonds hold the atoms together. In this section, you will learn about the bond strength of covalent bonds, and then compare that to the strength of ionic bonds, which is related to the lattice energy of a compound. Use average covalent bond energies to estimate enthalpies of reactionĪ bond’s strength describes how strongly each atom is joined to another atom, and therefore how much energy is required to break the bond between the two atoms.Use the Born-Haber cycle to compute lattice energies for ionic compounds. ![]() Describe the energetics of covalent and ionic bond formation and breakage.By the end of this section, you will be able to: ![]()
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