Calculating pH & pOH of AgNO2 Solution

  • Thread starter Thread starter aqwsde
  • Start date Start date
  • Tags Tags
    Ph
AI Thread Summary
The discussion revolves around calculating the pH and pOH of a 0.1g Silver Nitrite (AgNO2) solution in 100 mL of water, considering its dissociation and the basic nature of the resulting NO2- ions. The participants analyze the solubility of AgNO2, noting that the Ksp indicates it is not saturated, allowing for the complete dissolution of the compound. They calculate the concentration of NO2- and use the Kb derived from the Ka of HNO2 to find the hydroxide ion concentration. The final calculations suggest a pOH of 1.52 and a pH of 12.35, indicating a basic solution. The conversation emphasizes the importance of accurate calculations and understanding the equilibrium dynamics in the solution.
aqwsde
Messages
5
Reaction score
0

Homework Statement


If 0.1g of Silver Nitrite (AgNO2; ksp = 6 x 10^-4) is added to 100 mL of water, what would the pH and pOH be? Note: The Ka for HNO2 is 7.2 x 10^-4


Homework Equations





The Attempt at a Solution



I really am not sure how to approach this except for the fact that and NO2- that dissociates will participate in a acid base reaction with water so it will be a basic solution.

Thanks.
 
Physics news on Phys.org
So you know that NO2 is what will change the pH (and pOH). But what if we are only talking about a few NO2 ions? Will that change the pH by much? What if there are a whole bunch of NO2 ions available?

Try to determine how much N02 has dissolved and is floating around in the water ready to react with hydronium ions. Does the entire .1g of Silver Nitrate dissolve?
 
My thinking on the approach was that although the Ksp is small (i.e. not much will go into solution) since NO2- + H2O ----> HNO2 + OH- has a Kb = .1389 (Kw/Ka) it will shift the initial equilibrium of AgNO2 <---> Ag+ + NO2- to the right.

I still don't know where to go though and I really need to figure this out. I have my final tomorrow and really need to be able to understand this. Please help me out.
 
Ok Here is what I am thinking, let me know if this seems right:

.1gAgNO2/.1L*(1mol/153.875g)*(1mol Ag+/mol AgNO2) = .006499M Ag+ = x

Similarly .006499M NO2- = x

Q = x^2 = 4.2x10^-5 < Ksp => not saturated (all will disolve)

now [NO2-]i = 4.2x10^-5

setting up ice table yields:

Kb = .1389 = y^2/4.2x10^-5

y= 2.42x10^-3 = [OH-]
=> pOH = 2.62
pH = 11.38
 
now [NO2-]i = 4.2x10^-5
Why is this true?
 
woops [NO2-]i = .006499
y= .0300 = [OH-]
pOH = 1.52
pH = 12.35
 
Kb = .1389 (Kw/Ka)

Is this correct?
If Kb = kw / ka
Kb = 1x10^-14 / 7.2x10^-4
kb = 1.3889x10^-11

I wonder if you've missed a couple... decimal places :)

Do you have the answer for this question? I think I can help you but it's been awhile since I've done these kind of questions.
 
pH of the solution will be very close to neutral, between 7 and 8.
 

Similar threads

The relationship between pH and pOH at 70 ◦C/ 343.15 K
Replies
5
Views
3K
Chemistry How to take into account autoprotolysis in weak base solution?
Replies
8
Views
2K
Chemistry How to calculate pH at equivalence point using this alternative?
Replies
7
Views
1K
Calculating pKa from pH: Understanding Titration
Replies
3
Views
3K
Chemistry Moles of NaOH to Create Buffer Solution pH=6 in 0.42M Ethanoic Acid
Replies
3
Views
3K
PH of Mixed Solution with 0.1M KOH and 0.1M HNO2
Replies
15
Views
4K
Chemistry Understanding how to calculate pH of a buffer solution
Replies
2
Views
1K
Chemistry Comparing methods of computing pH at equivalence point in titration
Replies
4
Views
1K
Calculating pH and pOH for 0.048 M Benzoic Acid Solution
Replies
3
Views
3K
Titration of Sulfurous Acid: Calculating pH with Ka Values
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top