What is the Density of a 20% Sodium Hydroxide Solution?

In summary: You need to keep the units in the same ballpark. g goes with mL and kg goes with L. The only time you see things like g/L are with gases, and even those are just...gases.
  • #1
tigger
12
0
Hi all..
I have a question regarding the density of a solution.
In my lab manual, it said to use 50 mL of 20% NaOH solution
I have problem of understanding whether the 20% is the molar or mass or volume basis.. It doesn't state anything else in there.. what does it usually means? And i think i need density to find the number of moles of NaOH in this solution.. or am i wrong? :frown: :frown:

Thanks in advance! :smile:
 
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  • #2
When solution are express in %, it is either volume per volume (v/v), weight per volume (w/v) or weight per weight (w/w). In the case, your solution is w/v and 10 g of NaOH are present in a 50 mL solution.

All you need to do is calculated the number of mole and the molarity.
 
  • #3
iansmith said:
When solution are express in %, it is either volume per volume (v/v), weight per volume (w/v) or weight per weight (w/w). In the case, your solution is w/v and 10 g of NaOH are present in a 50 mL solution.

All you need to do is calculated the number of mole and the molarity.


Reeaaallllllllyyyyy? Percentage when units are unspecified is w/w, and on very rare occasions, v/v (some liquid mixtures). Never w/v or v/w. It's sloppy usage to specify concentration in percentage --- chemists are sloppy. You'll run into all sorts of bizarre concentration scales, grains per MMF for odorizing natural gas, lbs. per gallon for pesticides, 3.2 beer (no one knows what the composition of the beverage really is) and in most such cases, the odd units are specified.
 
  • #4
tigger said:
Hi all..
I have a question regarding the density of a solution.
In my lab manual, it said to use 50 mL of 20% NaOH solution
I have problem of understanding whether the 20% is the molar or mass or volume basis.. It doesn't state anything else in there.. what does it usually means? And i think i need density to find the number of moles of NaOH in this solution.. or am i wrong?

20% is either w/w or w/v, depending on the way it was prepared. If it is not precisely expressed it probably doesn't matter and NaOH is in large excess. In both cases you need density for precise calculations.

20% w/w is 6.1M (d - 1.222)

20% w/v is 5.0M (d = 1.187)
 
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  • #5
Bystander said:
Reeaaallllllllyyyyy? Percentage when units are unspecified is w/w, and on very rare occasions, v/v (some liquid mixtures). Never w/v or v/w.

We run into w/v all the time when it is not specify. I could show protocols in molecular biology that are filled with percentage with unspecify units and it is never. It is always either w/v and v/v.
 
  • #6
iansmith said:
We run into w/v all the time when it is not specify. I could show protocols in molecular biology that are filled with percentage with unspecify units and it is never. It is always either w/v and v/v.
The assumption is usually the way you measure something. NaOH is a solid, so use mass. Water is a liquid, so use volume. NaOH in water would be m/v. If you take something like vodka which is alcohol in water, that would probably be v/v because alcohol and water are both liquids. Two salts would be m/m because they're both solids.
 
  • #7
ShawnD said:
The assumption is usually the way you measure something. NaOH is a solid, so use mass. Water is a liquid, so use volume. NaOH in water would be m/v. If you take something like vodka which is alcohol in water, that would probably be v/v because alcohol and water are both liquids. Two salts would be m/m because they're both solids.

The problem is that percentage solutions are ambiguous when units differ. For example, would a "20% NaOH solution" be 1 g NaOH/5 ml of H20? Or every 1 g NaOH/ 5 L or H20? Water happens to have a density of approximately 1 g/ml but what if you were using something like oil?

If I saw something that said "20% solution" and it the solute wasnt a liquid, I would interpret it to mean that 20% of the solution consists of the solute. in other words, the mole ratio of solute to solvent is 20%. I would say that the directions are ambigous.
 
  • #8
so-crates said:
The problem is that percentage solutions are ambiguous when units differ. For example, would a "20% NaOH solution" be 1 g NaOH/5 ml of H20? Or every 1 g NaOH/ 5 L or H20? Water happens to have a density of approximately 1 g/ml but what if you were using something like oil?
You need to keep the units in the same ballpark. g goes with mL and kg goes with L. The only time you see things like g/L are with gases, and even those are just represented as (g/mL) x10^-3 unless otherwise specified. Oil is a liquid in which case you would use volume, so density really doesn't come into play.

so-creates said:
If I saw something that said "20% solution" and it the solute wasnt a liquid, I would interpret it to mean that 20% of the solution consists of the solute. in other words, the mole ratio of solute to solvent is 20%. I would say that the directions are ambigous.
If it meant moles, it would say 0.20X; never 20%.
 
  • #9
i thought it was w/w.. and i couldn't find the density of NaOH 20% solution
It makes more sense if it is w/v...

Thanks a lot!
 

1. What is the density of sodium hydroxide?

The density of sodium hydroxide, also known as caustic soda, is approximately 2.13 g/cm3 at room temperature.

2. How is the density of sodium hydroxide measured?

The density of sodium hydroxide is typically measured using a hydrometer or densitometer, which measures the density by detecting the displacement of a liquid.

3. Why is the density of sodium hydroxide important?

The density of sodium hydroxide is important for various industrial and scientific applications. It is used to determine the concentration of a solution, as well as for the production of various products such as detergents, paper, and textiles.

4. How does the density of sodium hydroxide change with temperature?

Like most substances, the density of sodium hydroxide decreases as the temperature increases. This means that as the temperature increases, the volume of the substance also increases.

5. How does the density of sodium hydroxide compare to other substances?

The density of sodium hydroxide is relatively high compared to other substances, such as water or ethanol. However, it is less dense than some other common substances, such as iron or gold.

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