- #1
MathewsMD
- 430
- 7
Hi,
I was reviewing some of my notes and was wondering what the correct steps for this would be (assuming in aqueous solution).
If you have ## H_2CO_3 ⇔ H^+ + HCO_3^- ## finding the final concentration of HCO3- is simple enough.
Now, for ## HCO_3^- ⇔ H^+ + CO_3^{2-} ## this would change the HCO3- concentration and the initial equilibrium from part 1 would have to be recalculated, right? I somewhat understand that this would be a very negligible since Ka values decreases as you go from the diprotic to monoprotic forms. But isn't it necessary to do a recalculation to find the more accurate answer? I find a problem with this...when would we stop recalculating? I understand the effects would be minimal, I'm just having trouble fully verifying this...any clarification would be great!
Also, if you have a weak base and acid, ex. HCO3- again. Although the Ka and Kb values do differ by a few orders of magnitude, how would you calculate the final concentration for the products and reactants of another molecule that has Ka ≈ Kb? Does such a molecule exist?
Sorry for the misguided questions. I am just trying to figure out when we can say a solution is equilibrium since we have all these sub-reactions occurring and it seems there is no point in time where there equilibrium since once you find the equilibrium concentration for one reaction, it changes due to another reaction that the products are a part of. Thanks in advance!
I was reviewing some of my notes and was wondering what the correct steps for this would be (assuming in aqueous solution).
If you have ## H_2CO_3 ⇔ H^+ + HCO_3^- ## finding the final concentration of HCO3- is simple enough.
Now, for ## HCO_3^- ⇔ H^+ + CO_3^{2-} ## this would change the HCO3- concentration and the initial equilibrium from part 1 would have to be recalculated, right? I somewhat understand that this would be a very negligible since Ka values decreases as you go from the diprotic to monoprotic forms. But isn't it necessary to do a recalculation to find the more accurate answer? I find a problem with this...when would we stop recalculating? I understand the effects would be minimal, I'm just having trouble fully verifying this...any clarification would be great!
Also, if you have a weak base and acid, ex. HCO3- again. Although the Ka and Kb values do differ by a few orders of magnitude, how would you calculate the final concentration for the products and reactants of another molecule that has Ka ≈ Kb? Does such a molecule exist?
Sorry for the misguided questions. I am just trying to figure out when we can say a solution is equilibrium since we have all these sub-reactions occurring and it seems there is no point in time where there equilibrium since once you find the equilibrium concentration for one reaction, it changes due to another reaction that the products are a part of. Thanks in advance!
