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Topic: Enthalpy Question  (Read 10108 times)

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Offline Brian Lin

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Enthalpy Question
« on: December 01, 2013, 05:27:09 PM »
Hello!

I have a thermochemistry- related question.

The standard enthalpy of formation of H2O(l) at 298 K is -285.8 kJ/mol. Calculate the change in internal energy for the following process at 298 K and 1 atm (basically at STP).

The equation for formation is
H2+ 0.5O2  :rarrow: H2O +285.8 kJ

Since we have to find internal energy.. the equation is..

ΔE= q+ w 

Q is definitely -285.8 kJ

W is derived from PΔV and PV can come from the ideal gas law equation.

PV= nRT

PV= (moles?)(0.08206 atmL/Kmol) (298k)(101.3 J/Kmol)

The question here is where do you get the number of moles for n? Is it 1.5 moles? I do not have the answer, so please *delete me*


Thanks!  :D

Offline Borek

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Re: Enthalpy Question
« Reply #1 on: December 01, 2013, 05:43:59 PM »
Sounds like you are asked to find the answer per mole of water produced.
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Offline forrestgreen

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Re: Enthalpy Question
« Reply #2 on: December 01, 2013, 11:25:04 PM »
Borek is correct. You are asked to find internal energy change per mole of water produced.

I think your problem should be solved as follows:

ΔH = ΔE + Δ(PV)

ΔH = ΔE + (PV)H2O – (PV)gases

Because water volume is very small, we can only consider gases for the term (PV)

ΔH = ΔE  – (PV)gases


ΔE = ΔH  +  (PV)gases


ΔH = - 285.8 KJ

(PV)gases = nRT = 1.5*R*298

ΔE = - 285.8 - 1.5*R*298

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