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Poppy

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posted on 6-4-2013 at 13:58

Volume and concentration calculations

Hi.
I want to play a game. The destino of which will decide you'll be a chemist or not.
I have a sample of HCl lablled as 33%, I want to make it a 20% solution. How much water should I add to a 100mL sample of the acid considering its density as 1.2g/L?

[Edited on 8-4-2013 by ScienceSquirrel]

elementcollector1

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posted on 6-4-2013 at 15:08

This is a basic calculation. C₁V₁=C₂V₂

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Vargouille

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posted on 6-4-2013 at 17:15

True, El, but it doesn't quite work with percentages, because of the differing densities. One way to get around that is to convert from percentages to molarity: 33% HCl becomes 10.86 M; 20% HCl becomes 6.03 M. Then you can use M1V1=M2V2, so (10.86 M)(100 mL)/(6.03 M) = 180.10 mL. That's the final volume of the diluted solution, 180.10 mL - 100 mL = 80.1 mL. If I was working with sig figs, I would say "80. mL".

elementcollector1

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posted on 6-4-2013 at 18:01

Wouldn't you say 80.1mL for 3 SF's? I don't see anything that limits it to 2.

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silvergrahm

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posted on 6-4-2013 at 18:35

You thought the game was over. But it has just begun...

Vargouille

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posted on 6-4-2013 at 19:09

All of the given values (33%, 20%, 1.2 g/mL) only have two sig figs. I just keep units to two degrees after the decimal for calculations, then round it for an answer.

elementcollector1

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posted on 6-4-2013 at 19:56

My mistake. See, this is why I will never get a 100% on a chem test - it's those darn SF's!

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Poppy

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posted on 7-4-2013 at 07:42

I use the a rule which applies on picking a sample
33/100 = X/ M where X stands for the mass of HCl and M the mass of the sample
100mL water weighs 100g
So lets put 33/100 = X / 100 wherein X comes to be 33g..
Now 33 / 100 + M = 20/100
Easy as that xD?

[Edited on 4-7-2013 by Poppy]

chemrox

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posted on 7-4-2013 at 09:13

Poppy, ahem, you're not supposed to bring your home work here..try mixing a little ephedra with your poppy paste ;^)

"When you let the dumbasses vote you end up with populism followed by autocracy and getting back is a bitch." Plato (sort of)

DutchChemistryBox

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posted on 7-4-2013 at 09:42

The density of the acid solutions:
ρ_{(20°C 33%)}=1.1642g/ml
ρ_{(20°C 20%)}=1.0980g/ml

m_{(HCl 33% total)}= ρ_{(20°C 33%)} * V_{(HCl 33%)} = 1.1642g/ml * 1000ml = 1164.2g
m_{(HCl 20% total)}= ρ_{(20°C 20%)} * V_{(HCl 33%)} = 1.0980g/ml * 1000ml = 1098.0g

So 33% of 1164.2gram = 384gram
And 20% of 1098.0gram = 219.6gram

n_{(HCl )} =m_(HCl)/M_(HCl)
n_{(HCl 33%)} =384g / 36.46g/mol = 10.532mol
n_{(HCl 20%)} =219.6g / 36.46g/mol = 6.023mol

C_(HCl) = n_(HCl) / V_(solution)
C_{(HCl 33%)} = 10.532mol / 1000ml = 10.532M
C_{(HCl 20%)} = 6.023mol / 1000ml = 6.023M

C_{(HCl 33%)} * V _{(HCl 33%)} = C_{(HCl 20%)} * V _{(HCl 20%)}
10.532M * 100ml = 6.023M * V _{(HCl 20%)}

V_{(HCl 20%)}= (10.532M * 100ml) / 6.023M = 174.9ml
V _{(to add)}= V _{(HCl 20%)} - V _{(HCl 33%)} = 174.9ml – 100ml = 74.9ml = 75ml

So I would say 75ml

Edit because of a stupid fault

[Edited on 7-4-2013 by DutchChemistryBox]

Vargouille

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posted on 7-4-2013 at 10:48

You must use density because 33% means 33 g HCl per 100 g solution, and the density of the solution is different from the density of pure water. As much as I dislike the Courtier's Reply, it may be necessary in this case. Try starting the calculations over with that in mind.

EDIT: I'm not sure what point you had in attaching a picture of two MSDSes, but I think the point is obvious from them nevertheless: the concentration of HCl is in proportion to that of the entire solution, as with that of water.

[Edited on 7-4-2013 by Vargouille]

Poppy

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posted on 7-4-2013 at 10:52

Quote: Originally posted by chemrox

Poppy, ahem, you're not supposed to bring your home work here..try mixing a little ephedra with your poppy paste ;^)

Hahaha
Okay.
But we are not getting a consesus here
X / (X+M) = 33/100
100mL x 1.2g/L = 120g
X + M = 120g --> X = 120 - M
X / (120 - M + M) = 33/100
X/120 = 33/100
X = 39.6
Otherwise: being the mass of the sample 120g:
being M the additional mass of water to achieve a supposed concentration:
X/ (120 + M) = 20/100

X/120 = 33/100 --> X = 39.6

39.6/ (120 + M) = 20/100

3960 = 2400 + 20M

20M = 1560

M = 78

Things are diverging here. Hows that one may come with a simple explanation?

DutchChemistryBox

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posted on 7-4-2013 at 11:35

Quote: Originally posted by Vargouille

You're right! Thankyou, I edited it.

Vargouille

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posted on 7-4-2013 at 13:09

I think the differences between all of the answers are due to the varying methods used and the original numbers used. Dutch, the disagreement between our answers is because I use 1.2 g/mL as the density of 33% HCl, and 1.1 g/mL as the density of 20% HCl, while you use more accurate figures.

Poppy

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posted on 7-4-2013 at 16:37

Prodigious, neared comrades, prodigious.
This typical impplication on the additional masses to be put in place transcended the factual uncertainty behind chemical prognostics, as clearance to be made exept in field and terms.
Which, from the adapted bias, matches accurately both standards and actual experience regardless the shadow of doubt?
Many as yet radicals noted their ponderations and hindered stupefaction and so are many yet to be unseen.

As for the concentration issue, it has not been uncommon to point w/V ratios as well as V/V which is very inconclusive
as per Wiki's (and everybody flerts about it) disposes solubility in terms of 100g water, not on 100mL solution.
:mad:

Ideas?

Magpie

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posted on 7-4-2013 at 19:42

This seems like such a simple problem that I want to play also:

100mL @1.2g/mL = 120g

(120g)(0.33) = (0.20)(W + 120g)

W +120 = (120)(0.33)/0.20 = 198

W = 198 - 120 = 78g of water

The single most important condition for a successful synthesis is good mixing - Nicodem

Vargouille

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posted on 8-4-2013 at 01:15

Poppy, what are you even...?

There's a difference between sounding erudite and sounding like you opened up a thesaurus.

In any case, V/V is not used for solutions of gases. You may be able to guess why. Moreover, wt/vol is used less often as well, and the giving of a density is an indication that the concentration is indeed wt/wt. The comment on solubility is a trivial one; pointing out that solubility is measured in a different way from concentration is nigh meaningless when the topic at hand is the concentration of an unsaturated solution. The answers have been given, and the discrepancies explained. If this is indeed a game, it is surely a poor one.

Endimion17

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posted on 8-4-2013 at 06:23

So, a guy has some homework to do and he makes a "I want to play a game" thread. Cool.

YT, flickr, blog

Poppy

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posted on 8-4-2013 at 07:14

So what have we learn't today?
Watch out, when possibly teaching at college, that C.V rule originally comprises more of a term than simply a numerical substitution.

Magpie wins.
Thank you guys, the game is over.

elementcollector1

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posted on 8-4-2013 at 07:36

Quote: Originally posted by Poppy

Thank you guys, the game is over.

But I have only begun to play!
(And I haven't gotten all the achievements yet...)

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Sciencemadness Discussion Board » Fundamentals » Chemistry in General » Volume and concentration calculations