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

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

A rigid and thermally insulated tank is divided into compartments of equal volume V separated by thin membrane . one compartment contains one type of ideal gas and other contains another type of ideal they are chemically inert when they mix when the membrane ruptures The change in entropy of the gases mixing is ??????

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 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, well-insulated tank contains 100 kg of liquid water at 21°C. The tank is connected...

A rigid, well-insulated tank contains 100 kg of liquid water at 21°C. The tank is connected through a valve to a steam main where the pressure is 1 MPa. The valve is opened and steam enters the tank until the water temperatuere rises to 65 °C, at which time the valve is closed. It is determined that there are now 107.96 kg of water in the tank. Estimate the quality of steam in the main.

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 tank that is initially evacuated is connected through a valve to a supply...

A rigid, insulated tank that is initially evacuated is connected through a valve to a supply line that carries steam at 1 MPa and 300°C. Now the valve is opened,and steam is allowed to flow slowly into the tank until the pressure reaches 1 MPa, at which point the valve is closed. Find the rate of entropy production.

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of water at 100 kPa and half of the mass is in the liquid phase. An electric resistance heater placed in the tank is now turned on and kept on until all the liquid in the tank is vaporized (state 2). Determine (a) the initial specific volume in m3/kg, (b) the final specific entropy in kJ/kg.K and (c) change of entropy in kJ/K.

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of water at 100 kPa and half of the mass is in the liquid phase. An electric resistance heater placed in the tank is now turned on and kept on until all the liquid in the tank is vaporized (state 2). Determine (a) the initial specific volume in m3/kg, (b) the final specific entropy in kJ/kg.K and (c) change of entropy in kJ/K.

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....