2.86
1.42
~ 1.42 g / L
If you think to 600 mL the density is 0,75 g/mL
We can use the ideal gas equation (PV=nRT).I like to use .08206 as my R constant, so I must convert torr into atmospheres. In addition, temperature must be converted into Kelvin by adding 273 to your temperature in Celsius in order for this to work.285.5 torr / (760 torr/ATM) = .376 ATM.Plugging in all the information into PV=nRT;(.376 ATM)(8.744 L)=n(.08206)(320 K)n=(.376 ATM)(8.744 L) / (.08206)(320 K)n=.125 mol N2(g)This can also be done with van der Wall's non-ideal gas equation, but it involves cubic equations that can get quite ugly and they yield an extremely close value to .125 moles.
102 degrees Celsius is 215.6 degrees Fahrenheit.
2.86
2.86 (apex)
1.42
1.68
1.42
~ 1.42 g / L
1.68
0.0341
0.0351
0.0341
0.0359
0.0359