Do super concentrated solutions NOT conduct electricity well?

  • Thread starter gauss44
  • Start date
  • Tags
    Electricity
In summary, the conductivity of a solution can initially increase with the addition of an electrolyte, but at a certain concentration, the dissociation of the ions may shift back and decrease the conductivity. This can also be seen in the classic experiment of mixing acetic acid with water. Additionally, other factors such as ionic strength and the creation of ion pairs can affect the conductivity and are dependent on the concentration of the solution.
  • #1
gauss44
49
0
I know that pure water doesn't conduct electricity well, and that adding an electrolyte generally increases conductivity. However, does there come a point where increasing the concentration of electrolytes actually DECREASES conductivity?
 
Last edited:
Chemistry news on Phys.org
  • #2
Depends on the solution, but yes, it can happen. Take for example solution of acetic acid - initially increasing amount of acetic acid increased number of ions present in the solution, so conductivity increases. But at some point amount of water becomes too low to support further dissociation, then the dissociation shift back to the left and the conductivity goes down.

Or think about in a slightly different manner - when you mix acetic acid with water, on one end you have a pure water with its high specific resistance, on the other end you have a glacial acetic acid that is also almost not conductive, and in between you have solutions that conduct electricity quite well (classic experiment that you should be able to google).

There are several other effects that have to be taken into account, like increasing ionic strength of the solution lowering activity coefficients (and shifting dissociation equilibria) or creation of ion pairs (which effectively removes charge carries from the solution). These are dependent on the concentration.
 
  • #3
Thanks for your answer. Typing in that experiment you mentioned into google brought up a lot of excellent results that I didn't find before. Including this: http://myweb.wit.edu/sandinic/Research/conductivity v concentration.pdf

I am still interested in learning more about this, and will continue to google and check this forum for additional responses/information.

Borek said:
Depends on the solution, but yes, it can happen. Take for example solution of acetic acid - initially increasing amount of acetic acid increased number of ions present in the solution, so conductivity increases. But at some point amount of water becomes too low to support further dissociation, then the dissociation shift back to the left and the conductivity goes down.

Or think about in a slightly different manner - when you mix acetic acid with water, on one end you have a pure water with its high specific resistance, on the other end you have a glacial acetic acid that is also almost not conductive, and in between you have solutions that conduct electricity quite well (classic experiment that you should be able to google).

There are several other effects that have to be taken into account, like increasing ionic strength of the solution lowering activity coefficients (and shifting dissociation equilibria) or creation of ion pairs (which effectively removes charge carries from the solution). These are dependent on the concentration.
 

1. Why do super concentrated solutions not conduct electricity well?

Super concentrated solutions have a high concentration of solute particles, which means there is less room for ions to move freely. This restricts the flow of electricity and results in poor conductivity.

2. Can any super concentrated solution conduct electricity?

No, not all super concentrated solutions can conduct electricity. The ability of a solution to conduct electricity depends on the presence of charged particles (ions) that can move freely in the solution.

3. What are some factors that affect the conductivity of super concentrated solutions?

The concentration of solute, the type of solute, the presence of other ions or impurities, and temperature can all affect the conductivity of super concentrated solutions.

4. How does temperature affect the conductivity of super concentrated solutions?

Higher temperatures can increase the movement of ions in a solution, resulting in higher conductivity. However, in some cases, high temperatures can also cause the solute to precipitate, reducing the number of ions and decreasing conductivity.

5. Are there any applications where low conductivity of super concentrated solutions is beneficial?

Yes, low conductivity of super concentrated solutions can be useful in some industrial processes, such as in the production of ultra-pure water or in electroplating, where low conductivity helps to prevent unwanted reactions or contamination.

Similar threads

Compare the conductance of an insoluble salt with soluble one
    • Introductory Physics Homework Help
Replies
2
Views
255
Calculate the HCl concentration in H2O from the conductivity
    • Chemistry
Replies
5
Views
4K
Electrolysis of Water -- Rate of Reaction?
    • Chemistry
Replies
8
Views
2K
Why does saltwater increase rate of corrosion?
    • Chemistry
Replies
9
Views
3K
Questions about the common-ion effect
    • Chemistry
Replies
4
Views
797
Difference between ionic and molar conductivity ? (Electrochemistry)?
    • Chemistry
Replies
11
Views
11K
I Do valence electrons determine electrical conductivity?
    • Electromagnetism
Replies
1
Views
1K
Conductivity of an electrolyte
    • Electromagnetism
Replies
1
Views
1K
Two concentric conducting spherical shells and resistor in between
    • Introductory Physics Homework Help
2
Replies
44
Views
873
Standard Activity in Electrochemistry
    • Chemistry
Replies
2
Views
837

Hot Threads

Recent Insights

Back
Top