It isn't even a gas at that temperature let alone being ideal. The boiling point of O2 is 90 K and the melting point is 55K. So at 33 K it is a solid. At extremely low pressures this might change a bit, but you gave a huge pressure so not the case.
Use the ideal gas law, PV=nRT, in which P= pressure, V= volume, n= number of moles, R= the gas constant, and T= temperature. In this problem you know V, T, R, and n. What you are trying to figure out is the P. P= Unknown V= 35.0 L n= 6.50 moles R= .082057 L ATM/mol K T= 305 K PV= nRT P35.0=6.50(.082057)305 P= 4.65 ATM
T = 35 degrees celsius = 308.15 degrees KelvinP = 97 atmV = ?n = 16.0 g SO2 / 64.06 g SO2 = 0.250 mol SO2
The ideal temperature of ICU and OT's is between 35 and 38 degrees.
If you want more than just the answer, this is how you determine the volume.PV = nRTP = 1.5 atm; V = ?; n= moles H2=2.5; R=gas constant = 0.0821 Latm/Kmol; T = 253ºKV = nRT/P = (2.5)(0.0821)(253)/1.5V = 34.6 L = 35 L (to 2 significant figures)
Physical
Use the ideal gas law, PV=nRT, in which P= pressure, V= volume, n= number of moles, R= the gas constant, and T= temperature. In this problem you know V, T, R, and n. What you are trying to figure out is the P. P= Unknown V= 35.0 L n= 6.50 moles R= .082057 L ATM/mol K T= 305 K PV= nRT P35.0=6.50(.082057)305 P= 4.65 ATM
This looks suspiciously like a homework question! Temp of 8 mol of ideal gas in a 32 L container at 12 atm pressure? pV = 12 * 32 = 384 L.atm nRT = 8 * 0.082 * T = 0.656 * T L.atm T = 384/0.656 = ~516 K That should provide the template for your answer!
1.79g/L ( I have the same textbook)
T = 35 degrees celsius = 308.15 degrees KelvinP = 97 atmV = ?n = 16.0 g SO2 / 64.06 g SO2 = 0.250 mol SO2
The ideal temperature of ICU and OT's is between 35 and 38 degrees.
110/80
35 lbs
The ideal temperature is between 35 and 38 degrees F. It needs to be cold but not so cold that it freezes things.
(932/35) x (Cost of a gallon of gas)
Because oxygen gas (O2) has a molar mass of 32g/mol, 11.3 g * 1/32 mol/g gives about .35 moles. An ideal gas has a volume of 22.4 L/mol at STP, so 11.3 g O2 would have a volume of 7.91 L at STP.
the tank size is 35 gallons therefore it holds 35 gallons of gas
Cars such as the Nissan Leaf and the Ford Focus can both get between 80 and 100 MPG in ideal conditions. The car you want may depend on the size and compact nature, though, so gas mileage could be as low as 35 MPG for a hybrid.