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A piston-fitted cylinder with a 6-cm inner diameter contains 1.40 g of nitrogen. The
Chapter 7, Problem 7.13(choose chapter or problem)
A piston-fitted cylinder with a 6-cm inner diameter contains 1.40 g of nitrogen. The mass of the piston is 4.50 kg, and a 25.00-kg weight rests on the piston. The gas temperature is \(30^{\circ} \mathrm{C}\), and the pressure outside the cylinder is 2.50atm.
(a) Prove that the absolute pressure of the gas in the cylinder is \(3.55 \times 10^{5} \mathrm{~Pa}\). Then calculate the volume occupied by the gas, assuming ideal-gas behavior.
(b) Suppose the weight is abruptly lifted and the piston rises to a new equilibrium position. Further suppose that the process takes place in two steps: a rapid step in which a negligible amount of heat is exchanged with the surroundings, followed by a slow step in which the gas returns to \(30^{\circ} \mathrm{C}\). Considering the gas as the system, write the energy balances for step 1, step 2, and the overall process. In all cases, neglect \(\Delta E_{\mathrm{k}}\) and \(\Delta E_{\mathrm{p}}\). If \(\hat{U}\) varies proportionally with T, does the gas temperature increase or decrease in step 1? Briefly explain your answer.
(c) The work done by the gas equals the restraining force (the weight of the piston plus the force due to atmospheric pressure) times the distance traveled by the piston. Calculate this quantity and use it to determine the heat transferred to or from (state which) the surroundings during the process.
Questions & Answers
QUESTION:
A piston-fitted cylinder with a 6-cm inner diameter contains 1.40 g of nitrogen. The mass of the piston is 4.50 kg, and a 25.00-kg weight rests on the piston. The gas temperature is \(30^{\circ} \mathrm{C}\), and the pressure outside the cylinder is 2.50atm.
(a) Prove that the absolute pressure of the gas in the cylinder is \(3.55 \times 10^{5} \mathrm{~Pa}\). Then calculate the volume occupied by the gas, assuming ideal-gas behavior.
(b) Suppose the weight is abruptly lifted and the piston rises to a new equilibrium position. Further suppose that the process takes place in two steps: a rapid step in which a negligible amount of heat is exchanged with the surroundings, followed by a slow step in which the gas returns to \(30^{\circ} \mathrm{C}\). Considering the gas as the system, write the energy balances for step 1, step 2, and the overall process. In all cases, neglect \(\Delta E_{\mathrm{k}}\) and \(\Delta E_{\mathrm{p}}\). If \(\hat{U}\) varies proportionally with T, does the gas temperature increase or decrease in step 1? Briefly explain your answer.
(c) The work done by the gas equals the restraining force (the weight of the piston plus the force due to atmospheric pressure) times the distance traveled by the piston. Calculate this quantity and use it to determine the heat transferred to or from (state which) the surroundings during the process.
ANSWER:Step 1 of 5
Given,
Let,
The mass of piston,
The weight that’s rests on piston,
The Pressure outside the Cylinder,