Heat of Formation Propanol: ΔHf°

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The heat of combustion for propanol is -1843.7 kJ/mol, leading to a calculated heat of formation of approximately -304 kJ/mol. The combustion reaction for propanol is represented as C3H8O(l) + (9/2)O2(g) → 3CO2(g) + 4H2O(g) with a ΔHc of -1843.7 kJ/mol. To derive the formation equation, the combustion reaction is reversed, and additional formation reactions for CO2 and H2O are included, resulting in the final formation equation: 3C(s) + 4H2(g) + (1/2)O2(g) → C3H8O(l) with a ΔHf of -305.2 kJ/mol. This process illustrates how to calculate the heat of formation from combustion data.
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What is the equation for the heat of formation for propanol?
 
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Sorry. The whole question was:

If the heat of combustion of propanol is -1843.7 kJ/mol, what is the heat of formation of propanol? Write the equation for the heat of formation for propanol and include the energy as a term in the equation.

I got the heat of formation to be -304 kJ. I'm not too sure how to write the equation though.
 
a_ng116 said:
Sorry. The whole question was:

If the heat of combustion of propanol is -1843.7 kJ/mol, what is the heat of formation of propanol? Write the equation for the heat of formation for propanol and include the energy as a term in the equation.

I got the heat of formation to be -304 kJ. I'm not too sure how to write the equation though.
Propanol Combustion:
C3H8O(l) + (9/2)O2(g) → 3CO2(g) + 4H2O(g) ::: DHc=(-1843.7 kJ/mol)

Propanol Formation:
We begin with the Propanol Combustion "reverse" reaction and add other formation reactions required to obtain the Propanol Formation equation (in RED below). During the "addition" process, entities on both sides of the equation will "cancel".

3CO2(g) + 4H2O(g) → C3H8O(l) + (9/2)O2(g) ::: DHr=(+1843.7 kJ/mol)*(1)=(+1843.7 kJ)
3C(s) + 3O2(g) → 3CO2(g) ::: DHf=(-393.9 kJ/mol)*(3)=(-1181.7 kJ)
4H2(g) + 2O2(g) → 4H2O(g) ::: DHf=(-241.8 kJ/mol)*(4)=(-967.2 kJ)
------------------------------------------------------
3C(s) + 4H2(g) + (1/2)O2(g) → C3H8O(l) ::: DHf=(-305.2 kJ/mol)


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