NeedHelpInChem Posted November 10, 2008 Posted November 10, 2008 a mix of gases is collected over water at 14C (287.15Kelvin) and has a total pressure of .981 atm and occupies 55mL. How many grams of water escaped into the vapor state? Hint: What is the vapor Pressure of water? This has gotten me completely confused. n=PV/RT n=(.981*.055)/(.08206*287.15) This makes the molarity .0022897674 Since Molarity = Mol/G divide .0022897674 by 16 and you get 1.431104611 I know this isn't the answer. Where did i go wrong and why do i need the vapor pressure of water? Which btw is 12 mmHg, which is inevitably .0157894737 atm HELP! I'm going crazy over this question!
big314mp Posted November 10, 2008 Posted November 10, 2008 The vapor pressure of a liquid is the partial pressure of that liquid's vapors at a given temperature. So basically what you can do is pretend that the other gasses aren't there (applying the ideas of partial pressure). So you end up with a problem that reads something like this: You have a jar of water vapor at 14C. The jar has a volume of 55ml. The pressure in the jar is 12mmHg (<-here's where you need the vapor pressure). Calculate the grams of water vapor present.
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