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The combustion of hexane is given by the following reaction. 2 C 6 H 14 + 19 O 2 → 12 CO 2 + 14 H 2 O The enthalpy of reaction is −4163.0 kJ/mol. How much energy (in joules) will be released if 72.78 grams
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The combustion of hexane is given by the following reaction. 2 C 6 H 14 + 19 O 2 → 12 CO 2 + 14 H 2 O The enthalpy of reaction is −4163.0 kJ/mol. How much energy (in joules) will be released if 72.78 grams of hexane is burned. (Molar mass of hexane = 86.20 g/mol).

User Desdemona
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4 votes

Answer:


E=3.5149kJ

Step-by-step explanation:

Hello.

In this case, for such combustion of hexane which release heat, we can compute that amount by taking into account that the reaction releases 4163.0 kJ of energy every 1 mole of hexane, it means that for 72.78 g, which in moles is:


n_(hexane)=72.78g*(1mol)/(86.20g)=0.8443mol

Thus the energy released when 0.8443 moles of hexane are released turn out:


E=n_(hexane)\Delta _cH=0.8443mol*-4163.0(kJ)/(mol)*(1000J)/(1kJ) \\\\E=3.5149kJ

Best regards!

User AwesomeTown
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