A gas mixture contains 30.0 mole% H,0(v) and 70.0 mole% N2. The gas temperature and absolute pressure at the start of each of the three parts of this problem are 72°C and 500.0 mm Hg. Ideal gas behavior may be assumed in every part of this problem. a. If some of the gas mixture is put in a cylinder and slowly cooled at constant pressure, at what temperature would the first drop of liquid form? 60.14 b. If a 30.0 liter flask is filled with some of the gas mixture and sealed, and 50.0% of the water vapor in the flask is condensed, what volume would be occupied by the liquid water? ..88 | cm3 49.06 What would be the system temperature? c. If the gas mixture is stored in a rigid-walled cylinder and a low-pressure weather front moves in and the barometric (atmosopheric) pressure drops from 760 mm Hg to 740.0 mm of Hg, |-240 what would be the new gauge pressure in the cylinder? mm Hg

need help to find system temperature

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Problem 6.10 Water Vapor Changes Your answer is partially correct. Try again. A gas mixture contains 30.0 mole% H,0(v) and 70.0 mole% N2. The gas temperature and absolute pressure at the start of each of the three parts of this problem are 72°C and 500.0 mm Hg. Ideal gas behavior may be assumed in every part of this problem. 60.14 a. If some of the gas mixture is put in a cylinder and slowly cooled at constant pressure, at what temperature would the first drop of liquid form? °C b. If a 30.0 liter flask is filled with some of the gas mixture and sealed, and 50.0% of the water vapor in the flask is condensed, what volume would be occupied by the liquid water? 1.88 cm3 49.06 What would be the system temperature? J°C c. If the gas mixture is stored in a rigid-walled cylinder and a low-pressure weather front moves in and the barometric (atmosopheric) pressure drops from 760 mm Hg to 740.0 mm of Hg, what would be the new gauge pressure in the cylinder? |-240 mm Hg Physical Property Tables