What is the molarity of an aqueous NaOH solution containing 20 g of NaOH and 400 g of water?
2 Answers
Well, molarity is temperature-dependent, so I will assume
and I got
And at these conditions,
400 cancel("g H"_2"O") xx "1 mL"/(0.9970749 cancel"g")
= "401.17 mL"
And so, the molarity is given by:
"M" = "mols solute"/"L solution" (and NOT solvent!)
= ["20 g NaOH" xx ("1 mol NaOH")/("(22.989 + 15.999 + 1.0079 g) NaOH")]/(401.17 xx 10^(-3) "L solvent" + V_"solute")
We could assume that the solvent volume does not differ from the solution volume, but that is a lie... so let's use the density of
20 cancel"g NaOH" xx (cancel"1 mL")/(2.13 cancel"g") xx "1 L"/(1000 cancel"mL")
= "0.009390 L"
And so, the solvent volume will rise by about
color(blue)(["NaOH"]) = ["0.5001 mols NaOH"]/(401.17 xx 10^(-3) "L solvent" + "0.009390 L NaOH")
= ulcolor(blue)("1.218 M") (Had you assumed
V_("soln") ~~ V_"solvent" , you would have gotten about"1.25 M" .)
But you have only allowed yourself one measly significant figure, so I guess you only have a
1.25M
Explanation:
The other posted solution is detailed and accurate, but possibly "over kill" for this venue. While 20 technically does have only one significant figure without a designated decimal point, I will also assume it to be 20. for calculations.
Also assuming STP for a general chemistry question of this sort, I calculate the moles of NaOH as 0.5 and use the (estimated) density of water at 1g/mL to get 400mL of solvent.
0.5M/400mL = 1.25M solution.
Right on, or certainly within any of the error probabilities, or assumptions of the more "rigorous" answer. You see, chemistry doesn't have to be intimidating.
