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An insulated cylinder is divided into two parts of 10 ft3
Chapter 3, Problem 306EUP(choose chapter or problem)
Problem 306EUP
An insulated cylinder is divided into two parts of 10 ft3 each by an initially locked piston. Side Ahas air at 2 atm, 600 R, and side B has air at 10 atm, 2000 R, as shown in Fig. P3.151. The piston is now unlocked so that it is free to move, and it conducts heat so that the air comes to a uniform temperature TA = TB. Find the mass in both A and B, and also the final T and P.
FIGURE P3.151
Questions & Answers
QUESTION:
Problem 306EUP
An insulated cylinder is divided into two parts of 10 ft3 each by an initially locked piston. Side Ahas air at 2 atm, 600 R, and side B has air at 10 atm, 2000 R, as shown in Fig. P3.151. The piston is now unlocked so that it is free to move, and it conducts heat so that the air comes to a uniform temperature TA = TB. Find the mass in both A and B, and also the final T and P.
FIGURE P3.151
ANSWER:
Solution 306 EUP
Step 1 of 5:
In this question, we need to find mass of air in cylinder A and B also find final temperature and pressure in both parts of cylinder
Data given
Volume of air in each parts of cylinder
Pressure on side A
Temperature on side A
Pressure on side B
Temperature on side B