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Nissosays
Ok, here is the problem As shown in the eoatuiqn below, nitrogen oxide, NO, is common pollutant that is produced by the reaction of nitrogen and oxygen gases. Since these gases are the major components of air, nitrogen oxideresults when air is heated in furnaces, motor engine cylinders, or other high temperature combustion areas. N2 (g) + O2 (g) 2 NO (g)A. Given that the standard enthalpy of formation for NO2 (g) is 90.25 KJ/mole and using the absolute entropies listed below, calculate the free energy change for this reaction at 25 degrees celcius. Is this reaction product favores at 25 degrees celcius? Absolute entropiesN2 (g) 191.5 J/mol times K O2 (g) 205.0 J/mole times KNO (g) 210.7 J/mol times KB. If the reaction is not product-favored at 25 degrees celcius, determine under what conditions it would be product favored.Show ALL work.Thanks for any help I can get!
Ok, here is the problem As shown in the eoatuiqn below, nitrogen oxide, NO, is common pollutant that is produced by the reaction of nitrogen and oxygen gases. Since these gases are the major components of air, nitrogen oxideresults when air is heated in furnaces, motor engine cylinders, or other high temperature combustion areas. N2 (g) + O2 (g) 2 NO (g)A. Given that the standard enthalpy of formation for NO2 (g) is 90.25 KJ/mole and using the absolute entropies listed below, calculate the free energy change for this reaction at 25 degrees celcius. Is this reaction product favores at 25 degrees celcius? Absolute entropiesN2 (g) 191.5 J/mol times K O2 (g) 205.0 J/mole times KNO (g) 210.7 J/mol times KB. If the reaction is not product-favored at 25 degrees celcius, determine under what conditions it would be product favored.Show ALL work.Thanks for any help I can get!