A three-step cycle is undergone reversibly by 3.90 mol of an ideal gas: (1) an adiabatic...
A three-step cycle is undergone reversibly by 3.90 mol of an ideal gas: (1) an adiabatic expansion that gives the gas 3.96 times its initial volume, (2) a constant-volume process, (3) an isothermal compression back to the initial state of the gas. We do not know whether the gas is monatomic or diatomic; if it is diatomic, we do not know whether the molecules are rotating or oscillating. What are the entropy changes for (a) the cycle, (b) process 1, (c) process 3, and (d) process 2?
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A three-step cycle is undergone reversibly by 3.90 mol of an
ideal gas: (1) an adiabatic...
Problem 8: Consider the reversible Carnot's cycle of an ideal monatomic gas in the cold cylinder...
Problem 8: Consider the reversible Carnot's cycle of an ideal monatomic gas in the cold cylinder of 290 K corresponding to the isothermal compression step. Then the volume of the gas is further compressed by a factor of 7.5 in the adiabatic compression step. a) Find the temperature at the final step of the adiabatic compression. b) What is Thot for the isothermal expansion step? c) What is the maximum thermodynamic efficiency for this engine? d) How much would the...
A Carnot cycle is conducted using an ideal diatomic gas. Initially, the gas is at temperature...
A Carnot cycle is conducted using an ideal diatomic gas. Initially, the gas is at temperature 25C., pressure of 100KPa and volume of 0.01m3. The system is then compressed isothermally to a volume 0.002m3. From that point, the gas undergoes an adiabatic compression ( with gamma= 1.4), until the volume further reduces to 0.001m3. After that, the system goes an isothermal expansion process to a point where the pressure of the system is 263.8KPa. Then the system continues the cycle...
Ten. moles of ideal gas (monatomic), in the initial state P1=10atm, T1=300K are taken round the...
Ten. moles of ideal gas (monatomic), in the initial state P1=10atm, T1=300K are taken round the following cycle: a. A reversible isothermal expansion to V=246 liters, and b. A reversible adiabatic process to P=10 atm c. A reversible isobaric compression to V=24.6 liters Calculate the change of work (w), heat (q), internal energy (U), and entropy (S) of the system for each process?
Consider a monatomic ideal gas operating through the Carnot cycle. The initial volume of the gas is V1 = 340x 10-3m3 .
Consider a monatomic ideal gas operating through the Carnot cycle. The initial volume of the gas is V1 = 340x 10-3m3 .Part (a) What types of processes are going on for each step in this process? Part (b) During the isothermal compression step, the volume of gas is reduced by a factor of 4. In the adiabatic heating step, the temperature of the gas is doubled. What is the volume at point 3. in cubic meters? Part (c) What is the volume at...
7) An ideal gas is taken around the cycle shown in this p-V diagram, from a...
7) An ideal gas is taken around the cycle shown in this p-V diagram, from a to b to c and back to a. Process b-c is isothermal. For process a- b, D. 0-0, AU<0 8) An ideal gas is compressed in a well-insulated chamber using a well-insulated piston. This process IS A) isochoric. B) isothermal. C) adiabatic. D) isobaric. 9) The process shown in the T-V diagram in the figure is an T. A) adiabatic compression. B) isothermal compression....
7.5) A 1.15 -mol quantity of monatomic ideal gas undergoes the following cyclic process. The gas...
7.5) A 1.15 -mol quantity of monatomic ideal gas undergoes the
following cyclic process. The gas starts at point a at STP. It
expands isothermally to point b, where the volume is 2.2 times its
original volume. Next, heat is removed while keeping the volume
constant and reducing the pressure. Finally, the gas undergoes
adiabatic compression, returning to point a.
a. Calculate the pressures at b and c. (answers in Pa)
**Find the volumes at a and b first.
**Use...
The working substance of a certain Carnot engine is 1.80 mol of an ideal monatomic gas....
The working substance of a certain Carnot engine is 1.80 mol of an ideal monatomic gas. During the isothermal expansion portion of this engine's cycle, the volume of the gas doubles, while during the adiabatic expansion the volume increases by a factor of 5.7. The work output of the engine is 900 J in each cycle. Compute the temperatures of the two reservoirs between which this engine operates.
The working substance of an engine is 1.00 mol of a diatomic ideal gas. The engine...
The working substance of an engine is 1.00 mol of a diatomic ideal gas. The engine operates in a cycle consisting of three steps: (1) an adiabatic expansion from an initial volume of 9.00 L to a pressure of 1.00 atm and a volume of23.4 L, (2) a compression at constant pressure to its original volume of 9.00 L, and (3) heating at constant volume to its original pressure. Find the efficiency of this cycle.
An ideal gas (1.82 moles) undergoes the following reversible Carnot cycle. (1) An isothermal expansion at...
An ideal gas (1.82 moles) undergoes the following reversible Carnot cycle. (1) An isothermal expansion at Thot=850K from 3.20L to 20.40L. (2) An adiabatic expansion until the temperature falls to 298K. The system then undergoes (3) an isothermal compression and a subsequent (4) adiabatic compression until the initial state is reached. a. Calculate work and ΔS for each step in the cycle and its overall efficiency. b. Determine ΔH and ΔU for steps (1) and (2). c. Explain why ΔUcycle=...
My questions: What are the volume of c and d? How do you calculate the delta...
My questions:
What are the volume of c and d?
How do you calculate the delta S and delta S surroundings of
each step?
Consider the reversible Carnot cycle shown below. a PA Isothermal expansion Thoil Adiabatic compression Toold Pressure Thot PE Adiabatic expansion Thot cold Po- Isothermal compression Trot Toold Po Toold va Vc Vd Vo Volume The "working substance" (gas inside the piston, in red above) is 3.10 moles of a monatomic ideal gas, with Cvm = 3R/2....
Problem 8: Consider the reversible Carnot's cycle of an ideal monatomic gas in the cold cylinder of 290 K corresponding to the isothermal compression step. Then the volume of the gas is further compressed by a factor of 7.5 in the adiabatic compression step. a) Find the temperature at the final step of the adiabatic compression. b) What is Thot for the isothermal expansion step? c) What is the maximum thermodynamic efficiency for this engine? d) How much would the...
7) An ideal gas is taken around the cycle shown in this p-V diagram, from a to b to c and back to a. Process b-c is isothermal. For process a- b, D. 0-0, AU<0 8) An ideal gas is compressed in a well-insulated chamber using a well-insulated piston. This process IS A) isochoric. B) isothermal. C) adiabatic. D) isobaric. 9) The process shown in the T-V diagram in the figure is an T. A) adiabatic compression. B) isothermal compression....
My questions:
What are the volume of c and d?
How do you calculate the delta S and delta S surroundings of
each step?
Consider the reversible Carnot cycle shown below. a PA Isothermal expansion Thoil Adiabatic compression Toold Pressure Thot PE Adiabatic expansion Thot cold Po- Isothermal compression Trot Toold Po Toold va Vc Vd Vo Volume The "working substance" (gas inside the piston, in red above) is 3.10 moles of a monatomic ideal gas, with Cvm = 3R/2....
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