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A scientist measures the standard enthalpy change for this reaction to be 2863.2 kJ/mol. 6CO2(g) + 6 H2O(1)>C¢H12O6 + 6 O2(g) Based on this value and the standard formation enthalpies for the other substances, the standard formation enthalpy of H20(1) is kJ/mol.

A scientist measures the standard enthalpy change for this reaction to be 2863.2 kJ/mol. 6CO2(g) + 6 H2O(1)>C¢H12O6 + 6 O2(g) Based on this value and the standard formation enthalpies for the other substances, the standard formation enthalpy of H20(1) is kJ/mol.

Chemistry: The Molecular Science
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter4: Energy And Chemical Reactions
Section4.10: Standard Formation Enthalpies
Problem 4.14PSP: Use data from Table 4.2 to calculate the standard combustion enthalpy for conversion of sulfur...
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A scientist measures the standard enthalpy change for this reaction to be 2863.2 kJ/mol. 6CO2(g) + 6 H2O(1) C6H1206 + 6 O2(g) Based on this value and the standard formation enthalpies for the other substances, the standard formation enthalpy of H20(1) is kJ/mol.
Transcribed Image Text:A scientist measures the standard enthalpy change for this reaction to be 2863.2 kJ/mol. 6CO2(g) + 6 H2O(1) C6H1206 + 6 O2(g) Based on this value and the standard formation enthalpies for the other substances, the standard formation enthalpy of H20(1) is kJ/mol.
Ethanol, C,H,0, is most often blended with gasoline - usually as a 10 percent mix - to create a fuel called gasohol. Ethanol is a renewable resource and ethanol-blended fuels, like gasohol, appear to burn more efficiently in internal combustion engines. The combustion enthalpy of ethanol is 1366.9 kJ/mol. The combustion enthalpy of heptane, C,H16, is 4.817×103 kJ/mol. Calculate the energy released during the complete combustion of 313 g heptane. kJ Assuming the same efficiency, would 313 g ethanol provide more, less, or the same quantity of energy as 313 g heptane?
Transcribed Image Text:Ethanol, C,H,0, is most often blended with gasoline - usually as a 10 percent mix - to create a fuel called gasohol. Ethanol is a renewable resource and ethanol-blended fuels, like gasohol, appear to burn more efficiently in internal combustion engines. The combustion enthalpy of ethanol is 1366.9 kJ/mol. The combustion enthalpy of heptane, C,H16, is 4.817×103 kJ/mol. Calculate the energy released during the complete combustion of 313 g heptane. kJ Assuming the same efficiency, would 313 g ethanol provide more, less, or the same quantity of energy as 313 g heptane?
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