1= 300k n=0.86mok R=0.082 Latmai (4.59+m) 11) Calculate the volume, in liters, occupied by each of the following: a. 2.00 moles of H₂ at 300. K and 1.25 atm. 39.4 L 2.00 mde X 0.0821 Latm mol K x 300k -1₁,4 1.25atm b. 0.425 moles of ammonia gas (NH3) at 0.724 atm and 37°C mole . PV=nRT₁ V = nRT P=0.724a+m PV=nRT V=nRT = 39.408 39.42 P=1.25 atm V= T-300.K 1=2,00lmole R=0.082latmk mol's T=376=37+273 k= 310k 14.9 L 0.425mole (NH3)*0.0821 Latm mol kx (273+37) K- 1
1= 300k n=0.86mok R=0.082 Latmai (4.59+m) 11) Calculate the volume, in liters, occupied by each of the following: a. 2.00 moles of H₂ at 300. K and 1.25 atm. 39.4 L 2.00 mde X 0.0821 Latm mol K x 300k -1₁,4 1.25atm b. 0.425 moles of ammonia gas (NH3) at 0.724 atm and 37°C mole . PV=nRT₁ V = nRT P=0.724a+m PV=nRT V=nRT = 39.408 39.42 P=1.25 atm V= T-300.K 1=2,00lmole R=0.082latmk mol's T=376=37+273 k= 310k 14.9 L 0.425mole (NH3)*0.0821 Latm mol kx (273+37) K- 1
ChapterU3: Weather: Phase Changes And Behaviour Of Gases
Section: Chapter Questions
Problem 15STP
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Can you help me with the number 11 question? Can you explain step by step including the formula (Ideal Gas Law )? I need to plug in the fraction to give the correct answer.
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