You have 4.7 moles of a gas that undergoes a Carnot Cycle where THot=305 K, and...
You have 4.7 moles of a gas that undergoes a Carnot Cycle where THot=305 K, and TCold=239 K and the chamber fluctuates between 7.9 L and 17.5 L. Determine the work that is performed by the gas and the heat transferred for one cycle. Express your answer in Joules to the first decimal place (XXXX.X).
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You have 4.7 moles of a gas that undergoes a Carnot Cycle where
THot=305 K, and...
102) 2.37 moles of an ideal monatomic gas initially at 255 K undergoes this cycle: It...
102) 2.37 moles of an ideal monatomic gas initially at 255 K undergoes this cycle: It is (1) heated at constant pressure to 655 K, (2) then allowed to cool at constant volume until its temperature returns to its initial value, (3) then compressed isothermally to its initial state. Find: a. the net energy transferred as heat to the gas (excluding the energy transferred as heat out of the gas). b. the net work done by the gas for the...
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=...
3. In a Carnot cycle, the isothermal expansion of an ideal gas takes place at 410...
3. In a Carnot cycle, the isothermal expansion of an ideal gas takes place at 410 K and the isothermal compression at 320 K. During the expansion 600 J of heat energy are transferred to the gas. Determine (a) the work performed by the gas during the cycle, () the heat transferred to the cooler, (c) the efficiency of the cycle
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....
For a Carnot engine with 10 moles of ideal gas (Cv = 1.5 nR) and operating...
For a Carnot engine with 10 moles of ideal gas (Cv = 1.5 nR) and operating between a hot reservoir of 500 K and a cold reservoir of 300 K, a) What would be the heat exchanges (q1) and entropy change (∆S1) for step 1, where the gas reversibly and isothermally expands to double its volume (V2 = 2 V1) at 500 K? b) What would be the heat exchanges (q3) and entropy change (∆S3) for step 3, where the...
For a Carnot engine with 10 moles of ideal gas (Cv= 1.5 nR) and operatingbetween a...
For a Carnot engine with 10 moles of ideal gas (Cv= 1.5 nR) and operatingbetween a hot reservoir of 500 K and a cold reservoir of 300 K,a. (6 Points) What would be the heat exchanges (q1) and entropy change (∆S1) for step 1, where thegas reversibly and isothermally expands to double its volume (V2= 2 V1) at 500 K?b. (6 Points) What would be the heat exchanges (q3) and entropy change (∆S3) for step 3, where thegas is reversibly...
Consider a Carnot cycle in which the working substance is 0.10 mol of perfect gas molecules,...
Consider a Carnot cycle in which the working substance is 0.10 mol of perfect gas molecules, the temperature of the hot source is 373 K, that of the cold sink is 273 K; the initial volume of gas is 1.00 dm', which doubles over the course of the first isothermal stage. For the reversible adiabatic stages it may be assumed that VT3/2 = constant. a) calculate the volume of the gas VB and Vc); b) calculate the volume of the...
0.25 moles ofa monatomic ideal gas starts from point a (400Pa and Im3) in the diagram as shown. It undergoes a constant...
0.25 moles ofa monatomic ideal gas starts from point a (400Pa and Im3) in the diagram as shown. It undergoes a constant pressure expansion from a to b (2m3); an isothermal process from b to c (3.2m3); a constant volume process c to d (125Pa); and an isothermal compression from d back to a. Problems 2-5 400 b a 300 2a. Find the temperature values Ta, Tb, Te and Td. 200 100 3 4 1 2 volume (m3) 2b. Find...
Suppose that 292 moles of a monatomic ideal gas is initially contained in a piston with...
Suppose that 292 moles of a monatomic ideal gas is initially contained in a piston with a volume of 1.34 m3 at a temperature of 588 K. The piston is connected to a hot reservoir with a temperature of 1385 K and a cold reservoir with a temperature of 588 K. The gas undergoes a quasi-static Stirling cycle with the following steps: The temperature of the gas is increased to 1385 K while maintaining a constant volume. The volume of...
4. An ideal Carnot power generation cycle using air is represented by the diagram below. The prop...
4. An ideal Carnot power generation cycle using air is represented by the diagram below. The properties of the state points are given in the table below. Take the properties of air to be cp 0040.717. and RBhthe ns: and G, have been 1.004 chosen as the average values between the high temperature and low temperature processes, in order for you to not have to worry about the temperature dependence of cp and c, for this problem.) Recall that y...
3. In a Carnot cycle, the isothermal expansion of an ideal gas takes place at 410 K and the isothermal compression at 320 K. During the expansion 600 J of heat energy are transferred to the gas. Determine (a) the work performed by the gas during the cycle, () the heat transferred to the cooler, (c) the efficiency of the cycle
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....
Consider a Carnot cycle in which the working substance is 0.10 mol of perfect gas molecules, the temperature of the hot source is 373 K, that of the cold sink is 273 K; the initial volume of gas is 1.00 dm', which doubles over the course of the first isothermal stage. For the reversible adiabatic stages it may be assumed that VT3/2 = constant. a) calculate the volume of the gas VB and Vc); b) calculate the volume of the...
0.25 moles ofa monatomic ideal gas starts from point a (400Pa and Im3) in the diagram as shown. It undergoes a constant pressure expansion from a to b (2m3); an isothermal process from b to c (3.2m3); a constant volume process c to d (125Pa); and an isothermal compression from d back to a. Problems 2-5 400 b a 300 2a. Find the temperature values Ta, Tb, Te and Td. 200 100 3 4 1 2 volume (m3) 2b. Find...
4. An ideal Carnot power generation cycle using air is represented by the diagram below. The properties of the state points are given in the table below. Take the properties of air to be cp 0040.717. and RBhthe ns: and G, have been 1.004 chosen as the average values between the high temperature and low temperature processes, in order for you to not have to worry about the temperature dependence of cp and c, for this problem.) Recall that y...
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