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Determine the energy change that occurs during the combustion of ethanol using the following equation: Energy change = (energy of bonds broken) - (energy of bonds formed)

Determine the energy change that occurs during the combustion of ethanol using the-example-1
Determine the energy change that occurs during the combustion of ethanol using the-example-1
Determine the energy change that occurs during the combustion of ethanol using the-example-2
User Hsiao
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1 Answer

14 votes
14 votes

Answer

Energy change = -1276 kJ/mol

Step-by-step explanation

Using the given information, the energy change that occurs during the combustion of ethanol is calculated below.

Energy change = (energy of bonds broken) - (energy of bonds formed)

Energy of bonds broken = 5(C-H) + (C-C)+ (C-O) + (O-H) + 3(O-O)

Energy of bonds broken = 5(413) + 347 + 358 + 467 + 3(495)

Energy of bonds broken = 2065 + 347 + 358 + 467 + 1485 = 4722 kJ/mol

Energy of bonds formed = 4(C=O) + 6(O-H)

Energy of bonds formed = 4(799) + 6(467)

Energy of bonds formed = 3196 + 2802= 5998 kJ/mol

Energy change = (energy of bonds broken) - (energy of bonds formed)

Energy change = 4722 kJ/mol - 5998 kJ

Energy change = -1276 kJ/mol

Determine the energy change that occurs during the combustion of ethanol using the-example-1
User NanoBennett
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