A steel tank contains 232 g of ammonia gs (NH3 with
molar mass 17.0 g/mol) at a pressure of 1.45 x 106 and a
temperature of 45.4oC. (a) What is the
volume of the tank in liters? (b) Later the
temperature is 42.0oC and the pressure is 0.967 x
106 Pa. How many grams of gas have leaked out of the
tank? (Ignore the thermal contraction of the tank.)
A steel tank contains 232 g of ammonia gs (NH3 with molar mass 17.0 g/mol) at...
Chapter 19, Problem 085 A steel tank contains 351 g of ammonia gs (NH3 with mholar mass 17.0 g/mol) at a pressure of 1.45 x 106 and a temperature of 64.2℃ (a) what is the volum e of the tank in liters? (b) Later the temperature is 61.1°C and the pressure is 1.10 x 106 Pa. How many grams of gas have leaked out of the tank? (Ignore the thermal contraction of the tank.) (a) Number (b) Number Click if...
A rigid tank contains 54.5 g of chlorine gas (Cl2) at a temperature of 72 °C and an absolute pressure of 5.60×10^5 Pa. The mass per mole of Cl2 is 70.9 g/mol. a) Determine the volume of the tank. b) Later, the temperature of the tank has dropped to 33 °C and, due to a leak, the pressure has dropped to 3.40×10^5 Pa. How many grams of chlorine gas has leaked out of the tank? (The mass per mole of...
9. A rigid tank contains 67.5 g of chlorine gas (Cl2) at a temperature of 78 °C and an absolute pressure of 5.30 x 10 Pa. Later, the temperature of the tank has dropped to 31 °C and, due to a leak, the pressure has dropped to 3.90 x 10 Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.) X9.19196 8
9. A rigid tank contains 57.5 g of chlorine gas (C2) at a temperature of 84 °C and an absolute pressure of 5.10 x 10° Pa. Later, the temperature of the tan has dropped to 36 °C and, due to a leak, the pressure has dropped to 3.90 x 10° Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.) X4.196 g
A rigid tank contains 64.5 g of chlorine gas (Cl2) at a temperature of 75 °C and an absolute pressure of 5.10 × 105 Pa. Later, the temperature of the tank has dropped to 32 °C and, due to a leak, the pressure has dropped to 3.10 × 105 Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.)
A rigid tank contains 50.5 g of chlorine gas (Cl2) at a temperature of 80 °C and an absolute pressure of 5.90×1055.90×105 Pa. Later, the temperature of the tank has dropped to 32 °C and, due to a leak, the pressure has dropped to 3.50×1053.50×105 Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.)
A rigid tank contains 61.5 g of chlorine gas (Cl2) at a temperature of 71 °C and an absolute pressure of 5.30×1055.30×105 Pa. Later, the temperature of the tank has dropped to 33 °C and, due to a leak, the pressure has dropped to 3.60×1053.60×105 Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.)
A rigid tank contains 70.5 g of chlorine gas (Cl2) at a temperature of 78 °C and an absolute pressure of 5.00 × 10^ 5 Pa. Determine the volume of the tank. Later, the temperature of the tank has dropped to 31 °C and, due to a leak, the pressure has dropped to 3.20 × 10^ 5 Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.)
9. A rigid tank contains 65.5 g of chlorine gas (Cl2) at a temperature of 73 °C and an absolute pressure of 5.60 × 10 5 Pa. Later, the temperature of the tank has dropped to 40 °C and, due to a leak, the pressure has dropped to 3.50 × 10 5 Pa. How many grams of chlorine gas have leaked out of the tank? (The mass per mole of Cl2 is 70.9 g/mol.)
A welder using a tank of volume 8.00x10-2 mºfills it with oxygen (with a molar mass of 32.0 g/mol) at a gauge pressure of 3.00x105 Pa and temperature of 36.4°C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 24.0 °C, the gauge pressure of the oxygen in the tank is 2.00x109 Pa. Part A Find the initial mass of oxygen. VALD O a ? Submit Previous...