calculate the density of N2 at STP using (a) the ideal gas law and (b) the...

Using molar volume (stp) or the ideal gas law equation, determine the molar mass , g/mole,...

Using molar volume (stp) or the ideal gas law equation, determine the molar mass , g/mole, of each of the fillowin g. 1- 12.5 g of a gas that has a volume of 2.25 L at stp M = 2- 0.742 g of a gas that has a volume of 835 ml at 1.10 ATM and 19 degrees C. M=

Use the ideal gas law to calculate the density of each of the following ideal gases...

Use the ideal gas law to calculate the density of each of the following ideal gases at STP in g/L. Use the Ideal gas constant 0.08205 L*atm/K*mol. (Put your answer in 3 significant figures) a. carbon dioxide b. carbon tetrachloride, CCl4 c. methane, CH4

At STP, air can be considered to be a mixture of ideal gases: 21.0% O2, 78.0%...

At STP, air can be considered to be a mixture of ideal gases: 21.0% O2, 78.0% N2, and 1.00% Ar by volume. a. Calculate the partial pressure of each gas at STP. b. Calculate the density of air in g L at STP.

calculate the density of SO2 gas at STP calculate the density of CH4 gas at 1.5...

calculate the density of SO2 gas at STP calculate the density of CH4 gas at 1.5 atm and 15degree Celsius

Why is the identity of a gas not included in the combined and ideal gas law?...

Why is the identity of a gas not included in the combined and ideal gas law? For example, carbon dioxide has a larger molar mass than hydrogen, yet the molar mass is not included in either the combined gas law or the ideal gas law.

If you add 179.0 mL of C3H8 (propane) gas at STP to a 1.00L container, seal...

If you add 179.0 mL of C3H8 (propane) gas at STP to a 1.00L container, seal the container, and combust the gas with 390mL of oxygen. (Molar volume of a gas at STP=22.4L/mol) a) what is the balanced chem. equation for the reaction? b) what is the limiting reagent? what are the theoretical moles of CO2 produced? c) Use daltons law of partial pressure and the ideal gas law to determine the partial pressure of each of the gases when...

Calculate the volume of 68.0 g of NH3 gas at standard temperature and pressure (STP). Use...

Calculate the volume of 68.0 g of NH3 gas at standard temperature and pressure (STP). Use a molar mass with at least as many significant figures as the data given.

1.Calculate the mass of CaCO3 that would produce ~ 40.0 ml of CO2 at STP. Hint...

1.Calculate the mass of CaCO3 that would produce ~ 40.0 ml of CO2 at STP. Hint use molar volume of an ideal gas (22.4 L). 2. The pressure of water vapor at 23 °C is [_____] torr. 3.The difference in mass of the gas generator before and after the reaction takes place yields the mass of CO2 evolved. true false

Question 4 (a) The density of a gas can be calculated using p = ρRT/M ....

Question 4 (a) The density of a gas can be calculated using p = ρRT/M . Derive this equation using pV = nRT where p = pressure, V = volume, n = moles, T = temperature, R = gas constant, ρ = density, M = molar mass (See Reader). (b) Calculate the density of air at 150 oC and atmospheric pressure assuming a composition (by volume) of 21% oxygen (O2), 78.03% nitrogen (N2) and 0.97% argon (Ar). (c) Convert an...

Lab Name: Analysis of an Unknown Mixture Using the Ideal Gas Law Purporse: Determine the percent...

Lab Name: Analysis of an Unknown Mixture Using the Ideal Gas Law Purporse: Determine the percent composition by mass of an unknownmixture of sodium nitrite, NaNO2, and sodium chlordie, NaCl, aftercollecting a gas evolved by reaction of NaNO2. Pre-Lab Notes: In this experiment you will react a mixture of sodium nitrite,NaNO2, and sodium chloride, NaCl, of unknown composition with anexcess of sulfamic acid, HSO3NH2. The NaCl is unreactive underthese conditions whereas the NaNO2 reacts to form nitrogen gas byfollowing equation."...