A sealed container is filled with 3.00 g of CO, (MM = 44,01 g/mol). 5.00 g...
You have a 3.00-L container filled with N₂ (MM = 28.02 g/mol) at 298.15 K and 1.75 atm pressure connected to a 2.00-L container filled with Ar (MM = 39.95 g/mol) at 298.15 K and 2.15 atm pressure. A stopcock connecting the containers is opened and the gases are allowed to equilibrate between the two containers. What is the density of the final gas mixture? Assume ideal behavior. (Use R = 0.08206 L.atm/mol.K) (HINT: What is the total mass, m,...
A container is filled with 1.7 mol of Xe, 4.6 mol of Kr and 3.8 mol of Ar at a total pressure of 4.8 atm. What is the partial pressure of Ar? 0.79 atm 0 4.1 atm 1.8 atm 02.9 atm
A 5.00 L tank at 24.6 °C is filled with 2.30 g of carbon dioxide gas and 3.32 g of dinitrogen difluoride gas. You can assume both gases behave as ideal gases under these conditions. Calculate the mole fraction and partial pressure of each gas, and the total pressure in the tank. Be sure your answers have the correct number of significant digits. mole fraction: carbon dioxide partial pressure: atm x 6 ? mole fraction: dinitrogen difluoride partial pressure: atm...
You have a 3.00-liter container filled with N₂ at 25°C and 2.15 atm pressure connected to a 2.00-liter container filled with Ar at 25°C and 2.75 atm pressure. A stopcock connecting the containers is opened and the gases are allowed to equilibrate between the two containers. What is the final pressure in the two containers if the temperature remains at 25°C? Assume ideal behavior. ( Answer is asked to be in atm)
1. 5.00 g of butane are combusted in a sealed container containing 2.00 g of oxygen gas. The balanced reaction for the combustion of butane is shown below. How many grams of the excess reagent are left over? (This question first requires you to determine the limiting reagent, and then calculate how much will be leftover). Pease answer in g. Molar Mass Butane: 58.12 g/mol Molar Mass Oxygen Gas: 32.0 g/mol 2CH3CH2CH2CH3 + 13O2 --> 8CO2 + 10H2O 2. If...
You have a 3.00-liter container filled with N₂ at 25°C and 1.75 atm pressure connected to a 2.00-liter container filled with Ar at 25°C and 3.05 atm pressure. A stopcock connecting the containers is opened and the gases are allowed to equilibrate between the two containers. What is the density of the final gas mixture? Assume ideal behavior.
A 5.00 L tank at 6.27 °C is filled with 3.97 g of dinitrogen difluoride gas and 3.91 g of sulfur tetrafluoride gas. You can assume both gases behave as ideal gases under these conditions. Calculate the partial pressure of each gas, and the total pressure in the tank. Be sure your answers have the correct number of significant digits. dinitrogen difluoride partial pressure: 0. sulfur tetrafluoride partial pressure: X 5 ? Total pressure in tank: atm A 8.00 L...
CO (5.00 g) and CO2 (5.00 g) were placed in a 750.0 mL container at 50.0°C. The partial pressure of CO2 in the container was __________ atm. 4.02 10.3 1.60 0.292 6.31
A sealed container with a volume of 2.00 L contains 30.0 atm of pure O2 and 1.35 g of methanol (CH3OH, 32.05 g/mol) at 25 °C. The combustion finishes, and the container is cooled back to 25 °C. What is the final partial pressure of CO2? What is the final total pressure? (20 pts) please give a detailed explanation
A 5.00 L tank at 2.04 °C is filled with 3.27 g of sulfur hexafluoride gas and 9.57 g of dinitrogen difluoride gas. You can assume both gases behave as ideal gases under these conditions. Calculate the mole fraction and partial pressure of each gas, and the total pressure in the tank. Be sure your answers have the correct number of significant digits. mole fraction: sulfur hexafluoride partial pressure: Tx 5 ? mole fraction: dinitrogen difluoride partial pressure: Total pressure...