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A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.?

The final pressure of the steam in the vessel can be calculated using the ideal gas law, which states that the pressure of an ideal gas is directly proportional to its temperature and the number of moles of the gas present. The number of moles of steam in the two chambers can be calculated using the ideal gas law as well. Once the number of moles of steam in both chambers is known, the final pressure can be calculated by adding the partial pressures of the steam in each chamber.

The steam quality can be calculated using the mass of the steam and the mass of the water present in the steam. The mass of the water in the steam can be calculated using the steam quality and the mass of the steam.

The entropy change in the process can be calculated using the heat added to or removed from the steam and the temperature at which it occurs. The heat added to or removed from the steam can be calculated using the final pressure and temperature of the steam and the initial pressure and temperature of the steam in each chamber. The entropy change can then be calculated using the heat added or removed and the temperature at which it occurs.

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A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.? for CAT 2023 is part of CAT preparation. The Question and answers have been prepared according to the CAT exam syllabus. Information about A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.? covers all topics & solutions for CAT 2023 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.?.

A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.? for CAT 2023 is part of CAT preparation. The Question and answers have been prepared according to the CAT exam syllabus. Information about A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.? covers all topics & solutions for CAT 2023 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.?.

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A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.?, a detailed solution for A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.? has been provided alongside types of A large insulated vessel is divided into two chambers, one containing 5 kg of dry saturated steam at 0.2 MPa and the other 10 kg of steam, 0.8 quality at 0.5 MPa. If the partition between the chambers is removed and the steam is mixed thoroughly and allowed to settle, find the final pressure, steam quality and entropy change in the process.? theory, EduRev gives you an
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The final pressure of the steam in the vessel can be calculated using the ideal gas law, which states that the pressure of an ideal gas is directly proportional to its temperature and the number of moles of the gas present. The number of moles of steam in the two chambers can be calculated using the ideal gas law as well. Once the number of moles of steam in both chambers is known, the final pressure can be calculated by adding the partial pressures of the steam in each chamber.The steam quality can be calculated using the mass of the steam and the mass of the water present in the steam. The mass of the water in the steam can be calculated using the steam quality and the mass of the steam.The entropy change in the process can be calculated using the heat added to or removed from the steam and the temperature at which it occurs. The heat added to or removed from the steam can be calculated using the final pressure and temperature of the steam and the initial pressure and temperature of the steam in each chamber. The entropy change can then be calculated using the heat added or removed and the temperature at which it occurs.