Therefore, a value of 8 can be used in calculations for NaCl. From the cycle just shown, we know that the heat change is the same regardless of the pathway by which NaCl(s) is formed. Sometimes, the unknown quantity in the cycle is the lattice energy, U. The electrostatic part of the lattice energy for chlorides crystallizing in the CsCl, NaCl and zinc blende type as a function of the radius ratio. ![]() The equation derived by Bom gives for the lattice energy of a NaCl crystal the value -762kJ/mol (i.e., a value close to the experimental value of the heat of breakup that we had mentioned). Ĭalculation of the Electrostatic Energy of Lattice Breakup In 1919, Max Bom proposed a method for calculating the energy necessary to draw apart a pair of ions from a crystal lattice to infinite distance against electrostatic attraction forces. Thus, breaking up the NaCl lattice to form free ions in the gas phase can be described (with a Born-Haber cycle) as. ĭetermination of Lattice Breakup Energies from Experimental Data The process of lattice breakup can be split into individual steps for which the energies can be measured. LaBi, )S-brass) and enthalpy calculations are notoriously insensitive to bond type. Thus the predominantly ionic nature of a phase cannot safely be inferred either from crystal structure or from calculated lattice energies since many metallic alloys adopt the NaCl-type or CsCl-type structures (e.g. There is a lively controversy concerning the interpretation of these and other properties, and cogent arguments have been advanced both for the presence of hydride ions H" and for the presence of protons H+ in the d-block and f- block hydride phases.These difficulties emphasize again the problems attending any classification based on presumed bond type, and a phenomenological approach which describes the observed properties is a sounder initial basis for discussion. The data are summarised below (standard enthalpies in kJ). The lattice energy is calculated on the assumption that the compound is ionic and that Na is comparable in size with Mg ". The energy diagram for the formation of this hypothetical compound follows the pattern of that for NaCl but an additional endothermic step is added for the second ionisation energy of sodium. Let us consider the formation of a number of possible ionic compounds and first, the formation of sodium dichloride, NaCl2. We therefore need to examine the evidence provided by energetic data. 354) we cannot rely fully on this theory. However, since some noble gas atoms can lose electrons to form cations (p. To date there is no evidence that sodium forms any chloride other than NaCl indeed the electronic theory of valency predicts that Na" and CU, with their noble gas configurations, are likely to be the most stable ionic species. Commonly used to calculate lattice energies of ionic solids and average bond energies of covalent compounds. NaCl lattice energy Born-Haber cycle A thermodynamic cycle derived by application of Hess s law.
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