Tuesday, October 22, 2019
Calculating Enthalpy Changes Using Hesss Law
Calculating Enthalpy Changes Using Hess's Law Hesss Law, also known as Hesss Law of Constant Heat Summation, states that the total enthalpy of a chemical reaction is the sum of the enthalpy changes for the steps of the reaction. Therefore, you can find enthalpy change by breaking a reaction into component steps that have known enthalpy values. This example problem demonstrates strategies forà how to use Hesss Law to find the enthalpy change of a reaction using enthalpy data from similar reactions. Hess's Law Enthalpy Change Problem What is the value for ÃâH for the following reaction?CS2(l) 3 O2(g) ââ â CO2(g) 2 SO2(g)Given:C(s) O2(g) ââ â CO2(g); ÃâHf -393.5 kJ/molS(s) O2(g) ââ â SO2(g); ÃâHf -296.8 kJ/molC(s) 2 S(s) ââ â CS2(l); ÃâHf 87.9 kJ/mol Solution Hesss law says the total enthalpy change does not rely on the path taken from beginning to end. Enthalpy can be calculated in one grand step or multiple smaller steps.To solve this type of problem, we need to organize the given chemical reactions where the total effect yields the reaction needed. There are a few rules that must be followed when manipulating a reaction. The reaction can be reversed. This will change the sign of ÃâHf.The reaction can be multiplied by a constant. The value of ÃâHf must be multiplied by the same constant.Any combination of the first two rules may be used. Finding a correct path is different for each Hesss law problem and may require some trial and error. A good place to start is to find one of the reactants or products where there is only one mole in the reaction.We need one CO2, and the first reaction has one CO2 on the product side.C(s) O2(g) ââ â CO2(g), ÃâHf -393.5 kJ/molThis gives us the CO2 we need on the product side and one of the O2 moles we need on the reactant side.To get two more O2 moles, use the second equation and multiply it by two. Remember to multiply the ÃâHf by two as well.2 S(s) 2 O2(g) ââ â 2 SO2(g), ÃâHf 2(-326.8 kJ/mol)Now we have two extra S and one extra C molecule on the reactant side we dont need. The third reaction also has two S and one C on the reactant side. Reverse this reaction to bring the molecules to the product side. Remember to change the sign on ÃâHf.CS2(l) ââ â C(s) 2 S(s), ÃâHf -87.9 kJ/molWhen all three reactions are added, the extra two sulfur and one extra c arbon atoms are canceled out, leaving the target reaction. All that remains is adding up the values of ÃâHf.ÃâH -393.5 kJ/mol 2(-296.8 kJ/mol) (-87.9 kJ/mol)ÃâH -393.5 kJ/mol - 593.6 kJ/mol - 87.9 kJ/molÃâH -1075.0 kJ/molAnswer:à The change in enthalpy for the reaction is -1075.0 kJ/mol. Facts About Hess's Law Hesss Law takes its name from Russian chemist and physician Germain Hess. Hess investigated thermochemistry and published his law of thermochemistry in 1840.To apply Hesss Law, all of the component steps of a chemical reaction need to occur at the same temperature.Hesss Law may be used to calculateà entropy and Gibbs energy in addition to enthalpy.
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