A rigid and thermally insulated tank is divided into compartments of equal volume V separated by...

A thermally insulated container is divided by a partition into two compartments, the right compartment having...

A thermally insulated container is divided by a partition into two compartments, the right compartment having a volume 4 times as large as the left compartment. The left compartment contains 2 moles of an ideal gas A at 25 °C and 0.8 atm. The right compartment contains 2 molesof an ideal gas B at 25 °C. The partition is removed and gases are mixed. Calculate the entropy change in the mixing process.

A rigid, insulated container is divided into three equal compartments and contains an ideal gas. All...

A rigid, insulated container is divided into three equal compartments and contains an ideal gas. All are at a constant temperature of 25 deg C. Compartment 1 is at a pressure of 1 bar, Compartment 2 is at a pressure of 2 bars and Compartment 3 is at a pressure of 6 bars. The partitions between compartments are removed suddenly and the gas is allowed to reach equilibrium pressure in the container. What will be temperature and pressure reached? Explain...

A rigid, insulated vessel is divided into two compartments connected by a valve. Initially, one compartment,...

A rigid, insulated vessel is divided into two compartments connected by a valve. Initially, one compartment, occupying 1.0 ft3, contains air at 50 lbf/in2, 500oR, and the other, occupying 2.0 ft3, is evacuated. The valve is opened and the air is allowed to fill both volumes. Assume the air behaves as an ideal gas and that the final state is in equilibrium.   Determine the final temperature of the air, in oR, and the amount of entropy produced, in Btu/oR.

A rigid, insulated vessel is divided into two compartments connected by a valve. Initially, one compartment,...

A rigid, insulated vessel is divided into two compartments connected by a valve. Initially, one compartment, occupying 1.0 ft3, contains air at 50 lbf/in2, 725oR, and the other, occupying 2.0 ft3, is evacuated. The valve is opened and the air is allowed to fill both volumes. Assume the air behaves as an ideal gas and that the final state is in equilibrium. Determine the final temperature of the air, in oR, and the amount of entropy produced, in Btu/oR. Determine...

A rigid insulated tank is divided into two parts, one that contains 1 kg of steam...

A rigid insulated tank is divided into two parts, one that contains 1 kg of steam at 10 bar, 200 °C, and one that contains 1 kg of steam at 20 bar, 800 °C. The partition that separates the two compartments is removed and the system is allowed to reach equilibrium. What is the entropy generation?

3. One mole of CO is initially contained on one-half of a well-insulated, rigid tank. Its...

3. One mole of CO is initially contained on one-half of a well-insulated, rigid tank. Its temperature is 500K. The other half of the tank is initially at vacuum. A diaphragm separates the two compartments. Each compartment has a volume of 1L. Suddenly, the diaphragm ruptures. Use the van der Waals equation for any non-ideal behavior. Answer the following questions: (a) What is Cv,m at the initial state? (b) Do you expect the temperature to increase, decrease, or remain constant....

The insulated vessel shown below has two compartments separated by a membrane. On one side is...

The insulated vessel shown below has two compartments separated by a membrane. On one side is 1 kg of steam at 400°C and 200 bar. The other side is evacuated. The membrane ruptures, filling the entire volume. The final pressure is 100 bar. Determine the entropy change for this process. (In each state of your calculations, state your reasoning clearly.)

An insulated cylinder is initially divided into halves by a frictionless, thermally conducting piston. On one...

An insulated cylinder is initially divided into halves by a frictionless, thermally conducting piston. On one side of the piston is 1 m3 of a gas at 300 K, 2 bar. On the other side is 1 m3 of the same gas at 300 K, 1 bar.The piston is released and equilibrium is attained, with the piston experiencing no change of state. Employing the ideal gas model for the gas, determine (b) the final pressure, in bar. (c) the amount...

A rigid, well-insulated tank, with a volume of 0.057 m3 , contains air at p1 =...

A rigid, well-insulated tank, with a volume of 0.057 m3 , contains air at p1 = 1.4 bar, T1 = 280 K. The air is stirred by a paddle wheel, resulting in an energy transfer to the gas of magnitude 6.78 kJ. Assuming ideal gas behavior for the air, determine the final temperature, in K, and the final pressure, in bar. Neglect kinetic and potential energy effects

Three thermally insulated containers of equal volume are connected together by thin tubes of negligible volume...

Three thermally insulated containers of equal volume are connected together by thin tubes of negligible volume so that gas can flow from one container to the next when a valve between them is open. Initially, the pressure and temperature in each container is at the same value Po and To, respectively. The valves between the vessels are opened, and thermal insulation is removed from two of the vessels. Then two vessels are surrounded by heat reservoirs so that their temperatures...