P = 121 bar
Calculate the pressure in bar of 1130 mol krypton in a 170.0 L container at 298...
Calculate the pressure in bar of 1350 mol krypton in a 175.0 L container at 298 K, if a = 2.325 L2barmol−2 and b = 0.0396 Lmol−1.
Part A The Henry's law coefficient of 1-butanol at 298 K is 9 26 bar. Calculate the vapor pressure (in bar) of 1- butanol over a 0,0240 M aquoou moles of water in L at 298 K olution. There are 55.3 Express your answer to three significant figures and include the appropriate units. PB bar Submit My Answers Give Up de Continue at (b
A 10.33 mol sample of krypton gas is maintained in a 0.7797 L container at 301.0 K. What is the pressure in atm calculated using the van der Waals' equation for Kr gas under these conditions? For Kr, a = 2.318 L’atm/mol and b = 3.978x10-2 L/mol. atm
A 10.13 mol sample of krypton gas is maintained in a 0.7517 L container at 297.2 K. What is the pressure in atm calculated using the van der Waals' equation for Kr gas under these conditions? For Kr, a = 2.318 L2atm/mol2 and b = 3.978×10-2 L/mol.
A 9.450 mol sample of krypton gas is maintained in a 0.8100 L container at 300.1 K. What is the pressure in atm calculated using the van der Waals' equation for Kr gas under these conditions? For Kr, a = 2.318 L2atm/mol2 and b = 3.978×10-2 L/mol. atm
If 1.00 mol of argon is placed in a 0.500-L container at 30.0 ∘C , what is the difference between the ideal pressure (as predicted by the ideal gas law) and the real pressure (as predicted by the van der Waals equation)? For argon, a=1.345(L2⋅atm)/mol2 and b=0.03219L/mol. Express your answer to two significant figures and include the appropriate units.
If 1.00 mol of argon is placed in a 0.500-L container at 22.0 ∘C , what is the difference between the ideal pressure (as predicted by the ideal gas law) and the real pressure (as predicted by the van der Waals equation)? For argon, a=1.345(L2⋅atm)/mol2 and b=0.03219L/mol. Express your answer to two significant figures and include the appropriate units.
Calculate the solubility (in M units) of ammonia gas in water at 298 K and a partial pressure of 8.00 bar . The Henry’s law constant for ammonia gas at 298 K is 58.0 M/atmand 1 bar=0.9869 atm. Express your answer in molarity to three significant figures.
kb = 1.381 · 10-23 JK-1 NA = 6.022 · 1023 mol-1 Part A Calculate the average kinetic energy (K) for 1 mole of N2 gas at 298 K in a 20 L container. Express your answer to three significant figures and include the appropriate units. P! HÅR Value O aj ? Units (K) =
Calculate the molarity of each solution. A. 1.91 mol of LiCl in 31.5 L of solution Express your answer using three significant figures. B. 0.104 mol of LiNO3 in 6.2 L of solution Express your answer using two significant figures. C. 0.0329 mol of glucose in 83.9 mL of solution Express your answer using three significant figures.