Calculating dH for a System with Constant Volume: Step-by-Step Guide

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In summary, the conversation discusses the concept of enthalpy as a state variable and its implications for changes over a complete cycle. The differential enthalpy equation is also mentioned to not be correct. It is determined that enthalpy is not dependent on the path and its change can be calculated by subtracting the final and initial enthalpy values. If heat (q) is not a state variable, it is path dependent and for a complete cycle, the heat at each step would need to be added.
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higherme
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dH = dU + P dV

dU = q - P dV

I need to find the dH for a system (1mol gas)going from P=1.24 atm to P=0.62atm, with constant volume of 46.72 L. I already found the value of q = -4402 J, w=0 , and dU = -4402 J

I think dH = dU since its change in V is 0. So my answer was dH =dU = -4402J. But i dont' know why i can't get the answer.
 
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  • #2


nevermind, i figured out what i was missing.
 
  • #3


if I want to find the enthalpy change of a whole cycle, do i add up all the enthalpy of each step? The system goes from A to B, from B to C, and from C back to A
 
  • #4


1. Is enthalpy a state variable? If so, what are the implications for changes over a complete cycle?

2. Your differential enthalpy equation isn't quite right.
 
  • #5


Mapes said:
1. Is enthalpy a state variable? If so, what are the implications for changes over a complete cycle?

2. Your differential enthalpy equation isn't quite right.

ya, enthalpy is a state variable. so this means that it doesn't depend on the path, right? so if i want to find change in enthalpy, it will be the final enthalpy minus initial enthalpy?
 
  • #6


if its not a state variable (i.e heat (q)), it would be path dependant, which means for a complete cycle, you would have to add up the heat at each step, correct?
 
  • #7


Agreed, enthalpy is a state variable (i.e., its value is determined only by the system's current state). So if the system returns to its original state at the end of a cycle, what is the enthalpy change?
 

FAQ: Calculating dH for a System with Constant Volume: Step-by-Step Guide

What is "dH" in a system?

"dH" refers to the change in enthalpy for a system. Enthalpy is a measure of the total energy in a system, including both its internal energy and the energy exchanged with its surroundings.

How do you calculate dH for a system?

The change in enthalpy can be calculated by subtracting the initial enthalpy of a system from its final enthalpy. This can be represented by the equation: dH = H(final) - H(initial).

What does a positive dH value indicate?

A positive dH value indicates that the system has gained energy from its surroundings. This could occur through processes such as heat transfer or chemical reactions that release energy.

Is dH affected by the size of the system?

No, the change in enthalpy, dH, is an extensive property, meaning it is not affected by the size or amount of the system. It only depends on the initial and final states of the system.

Can dH be negative?

Yes, dH can be negative if the system loses energy to its surroundings. This could happen through processes such as heat transfer or chemical reactions that require energy.

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