Part A For a pressure of 1.00 atm and a temperature of 27.0°C, use the ideal-gas law to estimate the number of air molecules in the room. Assume all the air is N2. Express your answer as a number of molecules. Πνα ΑΣφ ? N = molecules Submit Request Answer Part B Calculate the particle density-that is, the number of N2 molecules per cubic centimeter. Express your answer as a number of molecules per cubic centimeter. 2) ? particle density = molecules/cm3 Submit Request Answer Part C Calculate the mass of the air in the room. Express your answer with the appropriate units. Value Units m =

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A physics lecture room has a volume of 270 m3

 

 

 

Part A
For a pressure of 1.00 atm and a temperature of 27.0°C, use the ideal-gas law to estimate the number of air molecules in the room. Assume all the air is N2.
Express your answer as a number of molecules.
Πνα ΑΣφ
?
圈]
N =
molecules
Submit
Request Answer
Part B
Calculate the particle density-that is, the number of N, molecules per cubic centimeter.
Express your answer as a number of molecules per cubic centimeter.
particle density =
molecules/cm3
Submit
Request Answer
Part C
Calculate the mass of the air in the room.
Express your answer with the appropriate units.
圈]
?
m =
Value
Units
Transcribed Image Text:Part A For a pressure of 1.00 atm and a temperature of 27.0°C, use the ideal-gas law to estimate the number of air molecules in the room. Assume all the air is N2. Express your answer as a number of molecules. Πνα ΑΣφ ? 圈] N = molecules Submit Request Answer Part B Calculate the particle density-that is, the number of N, molecules per cubic centimeter. Express your answer as a number of molecules per cubic centimeter. particle density = molecules/cm3 Submit Request Answer Part C Calculate the mass of the air in the room. Express your answer with the appropriate units. 圈] ? m = Value Units
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