Calculate the density of fluorine gas at 22.0 ºC and 103.2 kPa.

Gas Law problems 1) What is the volume of 2.75 moles of phosgene gas (COCl2) at 298.15 K and 1.25 atm? 2) Assuming ideal behavior, what is the volume of 2.00 g of O2 at STP? 3) Calculate the density of fluorine gas at 22.0 ºC and 103.2 kPa. 4) Given the same set of conditions, how much longer will it take for SO3 to effuse the same distance as NO2?
2 The volume of 0.25 moles of fluorine gas, F2 at 30°C and 9 kPa is: a)1.70L b) 5.89L c) 6.994 D) 11.80L
Part A Part complete Calculate the density of NO2 gas at 98.2 kPa and 33 ∘C. Express your answer using three significant figures. Part B Part complete Calculate the molar mass of a gas if 2.10 g occupies 0.875 L at 90.7 kPa and 33 ∘C. Express your answer using three significant figures.
1 - What is the density of fluorine gas at STP?2 - 45 ML of SO2 is collected at STP. How many SO2 molecules are in the sample? 3 - What is the mass of 8.25 X 10 @2 SLC2 moleculesl?4 - A sample of hydrated madnesium sulfate is %1.1% water. What is the hydrate formula?
Calculate the density in g/L of CO2 gas at 27°C and 50.7 kPa pressure. Select one: O a. 0.89 g/L O b. 1.12 g/L O c. 9.93 g/L O d. 46.0 g/L O e. 2.17 kg/L
The gas left in a used aerosol can is at a pressure of 105 kPa at 28 ºC. If this can is thrown into a fire and the pressure increases to 225 kPa, what is the temperature inside the can in Celsius? Assume volume is constant.
Calculate the density of oxygen gas, O2, at a temperature of 373 K and a presse 110.5 kPa. For these units R = 8.314 L kPa/mol K.
1. A 77.6 mL sample of helium gas is heated from 14 ºC to 116 ºC in a container that can contract or expand at constant pressure. What is the new volume of the helium gas? Report your answer to 1 decimal place and include units. 2. Calculate the volume (in L) occupied by 1.09 moles of gas contained at a pressure of 1.50 atm and a temperature of 58 °C. Report your answer to 2 decimal places and include...
Calculate the density of chlorine at 118 kPa and 75 C.
The molar mass of a gas measured at 150 kPa and 27 °C was found to be 32 g mol-1. Calculate the density of the gas.