Steam at 500 kPa having a quality of 0.9 expands adiabatically and reversibly to a final pressure of 100 kPa. Determine its final condition.
Q: Gas in a container is at a pressure of 1.6 atm and a volume of 2.0 m3. (a) What is the work done on…
A: W=PVf-Vi=P2Vi-Vi=PVi=1.6 atm1.01×105 Pa1 atm2.0 m3=3.23×105 J
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Q: F d T
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Q: 3 moles of an ideal monatomic gas, initially at 300o K, are expanded from .2 m3 to .5 m3 using an…
A: Given: Moles in gas = 3. Initial temperature of gas (Ti) = 300 K Initial volume of gas (Vi) = 0.2…
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A: We are given the pressure vs volume graph. We know that the work done is the area under P-V graph.…
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Q: Consider the following figure. (The x axis is marked in increments of 2 m³.) P (Pa) 6 x 106 4 X 106…
A: The pressure vs volume graph is provided and we need to calculate the workdone on the process.
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Q: Determine the change in internal energy of a monatomic ideal gas that expands from an initial volume…
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Q: A system containing 3.0 moles of Helium (a monatomic gas) at 70K is compressed adiabatically until…
A: number of moles = 3 initial temperature = 70 k final temperature = 180 k
Q: With the pressure held constant at 260 kPa, 43 mol of a monatomic ideal gas expands from How much…
A: We need to identify the work the gas did during the expansion. We are aware that the gas's…
Q: Suppose 1.00 L of a diatomic gas, initially at 273 K and 1.00 atm, is suddenly compressed…
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Q: A quantity of gas in a piston cylinder has a volume of 0.518m ^ 3 and pressure of 200 Pa. The piston…
A: In isothermal process temperature of system is constant hence, internal energy of system is…
Q: How much entropy did the gas emit? 44.12 Pa Submit Answer Tries 0/12 Previous Tries What would be…
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Q: A certain gas is compressed adiabatically. The amount of work done on the gas is 800 J. What is the…
A: Amount of work done on the gas in adiabatic compression=800 J
Q: An ideal gas expands at constant pressure (P1=6.00x105 Pa) from a volume VA=1.00 m3 to a volume…
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Q: An ideal gas initially at 350K undergoes an isobaric expansion at 2.50 kPa. The volume increases…
A: The initial temperature of the gas is, Ti=350 K The pressure of the gas is, P=2.5 kPa=2.5×103 Pa The…
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Q: A sample of an ideal gas in a cylinder of volume 2.90 L at 928K and 2.89 atm expands to 8.46 L by…
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- A container with an initial volume of o.0655 m holds 2.3 moles of a monoatomic ideal gas at a temperature of 314 K. The gas is now compressed adiabatically to a volume of o.0307 m³. What is the final pressure?the volume of an ideal gas is decreased from 5L to 5mL at a constant pressure of 1 atm. Calculate the work associated with this process.Determine the change in internal energy of a monatomic ideal gas that expands from an initial volume of 1.43 m3 to a final volume of 2.57 m3. During this process the pressure of the gas remains at a constant value of 3.22 105 Pa.
- One mole of an ideal gas, initially at 310 K, is cooled at constant volume so that the final pressure is one-sixth of the initial pressure. Then the gas expands at constant pressure until it reaches the initial temperature. Determine the work done on the gas. -1.93 X kJ Additional Materials eBookAn ideal gas is taken through a quasi-static process described by P = ?V2, with ? = 6.00 atm/m6, as shown in the figure. The gas is expanded to twice its original volume of 1.00 m3. How much work is done on the expanding gas in this process? MJAn ideal monatomic gas undergoes changes in pressure and volume, as shown in the pV diagram below. The initial volume is 0.02 m3 and the final volume is 0.10 m3. The initial pressure is 1 atm and the final pressure is 2 atm. Recall that 1 atm = 101.3 kPa. (a) Calculate the magnitude, or absolute value, of the work done on the gas in this process. Answer = - 13429J (c) The initial temperature of the gas is 308 K. Calculate the temperature of the gas at the end of the process. Answer = 3080 k Just need answer with the following: (d) What is the change in thermal energy for the gas in this process? (e) Calculate the quantity of heat transfer added to (positive) or removed from (negative) the gas during this process.