Two questions on retrieving thermodynamic properties

AI Thread Summary
The discussion revolves around two thermodynamic problems involving water in rigid insulated containers. For the first problem, participants analyze whether water at 350°F is saturated or superheated by determining its specific volume and comparing it to steam tables. The second problem involves cooling water from 800°F at 100 lbf/in² to a final state at 20 lbf/in², with a focus on calculating the change in specific entropy. It is emphasized that knowing the specific volume and final pressure is crucial for determining the state of the water. The conversation highlights the importance of using steam tables and understanding the properties of water in different phases.
princejan7
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Homework Statement



''A rigid insulated container fitted with a paddle wheel contains 5lb of water, initially at 260F and a quality of 60%. The water is stirred until the temperature is 350F. For the water, determine the work.''

How do we know whether the state of the water at 350F is still saturated water or superheated vapor ?


"Water, contained in a closed rigid tank initially at 100lbf/in^2, 800F is cooled to a final state where the pressure is 20lbf/in^2. Determine the change in specific entropy."

likewise for this question, how do I know if the water is still superheated vapor or not at the final state?

Homework Equations





The Attempt at a Solution

 
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princejan7 said:

Homework Statement



''A rigid insulated container fitted with a paddle wheel contains 5lb of water, initially at 260F and a quality of 60%. The water is stirred until the temperature is 350F. For the water, determine the work.''

How do we know whether the state of the water at 350F is still saturated water or superheated vapor ?


"Water, contained in a closed rigid tank initially at 100lbf/in^2, 800F is cooled to a final state where the pressure is 20lbf/in^2. Determine the change in specific entropy."

likewise for this question, how do I know if the water is still superheated vapor or not at the final state?

Homework Equations





The Attempt at a Solution

You can determine the specific volume of the water in the initial state of each of these problems. The chambers are rigid, so the specific volume (even averaged over two phases if two phases are present at the end) does not change.

Chet
 
Chestermiller said:
You can determine the specific volume of the water in the initial state of each of these problems. The chambers are rigid, so the specific volume (even averaged over two phases if two phases are present at the end) does not change.

Chet

thanks

for the second question I found the specific volume at the initial state to be 7.07
using this, I find that the final state is a super heated vapor

But the super heated vapor table gives data by pressure and I don't have any value for the pressure at the final state
 
princejan7 said:
thanks

for the second question I found the specific volume at the initial state to be 7.07
using this, I find that the final state is a super heated vapor

But the super heated vapor table gives data by pressure and I don't have any value for the pressure at the final state
The problem statement says that the final pressure is 20 psi.

Chet
 
Chestermiller said:
The problem statement says that the final pressure is 20 psi.

Chet

oh sorry, that post was meant for the first question. Only the temperature at the final state is given
 
princejan7 said:
oh sorry, that post was meant for the first question. Only the temperature at the final state is given
If you have steam tables, you know the final temperature and the final specific volume. That should be enough to determine the change in internal energy. The tank was insulated, so no heat was transferred.

Chet
 
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