Asked by Kyle
Solve an equilibrium problem (using an ICE table) to calculate the pH.
a solution that is 0.205 M in CH3NH2 and 0.110 M in CH3NH3Br.
i used th Ka of CH3NH2 and set up the problem as Ka=[H3O][CH3NH2]/[CH3NH3Br], but that was wrong. So i switched the equation to Ka=[H3O][CH3NH3Br]/[CH3NH2] but the pH i calculated from solving that equation was also wrong. Am I using a bad Ka or am I setting up the equation wrong?
The pH's i calculated were 3.63 and 3.09
a solution that is 0.205 M in CH3NH2 and 0.110 M in CH3NH3Br.
i used th Ka of CH3NH2 and set up the problem as Ka=[H3O][CH3NH2]/[CH3NH3Br], but that was wrong. So i switched the equation to Ka=[H3O][CH3NH3Br]/[CH3NH2] but the pH i calculated from solving that equation was also wrong. Am I using a bad Ka or am I setting up the equation wrong?
The pH's i calculated were 3.63 and 3.09
Answers
Answered by
DrBob222
Frankly, I would use the Henderson-Hasselbalch equation. I assume your instructor has a reason for working the problem another way. Here is what I would do to follow the ICE method.
CH3NH2 is a base. Think NH3. We write that equilibrium as
NH3 + HOH ==> NH4^+ + OH^-
CH3NH2 works the same way.
CH3NH2 + HOH ==> CH3NH3^+ + OH^-
These boards are difficult to make spaces so I must write the ICE chart as below; I suggest you redo it in the usual manner and write the I, C, and E amounts under the reactants and products. I think that will make it easier to see.
Initial:
CH3NH2 = 0.205 M
CH3NH3^+ = 0.110 M
OH^- = 0
change:
CH3NH2 = -x
CH3NH2 = +x
OH^- = +x
equilibrium:
CH3NH2 = 0.205-x
CH3NH3^+ = 0.110+x
OH^- = x
Kb expression is
Kb = (CH3NH3^+)(OH^-)/(CH3NH2)
Look up Kb and solve for x.
When it comes to solving the equation, the x is small enough to ignore when combined with something else (0.205-x very nearly equals 0.205 and 0.110+x very nearly equals 0.110). I would then convert OH^- to pOH and subtract from 14 to obtain pH. I ran it quickly using the H-H equation and obtained 10.95 for the pH.
CH3NH2 is a base. Think NH3. We write that equilibrium as
NH3 + HOH ==> NH4^+ + OH^-
CH3NH2 works the same way.
CH3NH2 + HOH ==> CH3NH3^+ + OH^-
These boards are difficult to make spaces so I must write the ICE chart as below; I suggest you redo it in the usual manner and write the I, C, and E amounts under the reactants and products. I think that will make it easier to see.
Initial:
CH3NH2 = 0.205 M
CH3NH3^+ = 0.110 M
OH^- = 0
change:
CH3NH2 = -x
CH3NH2 = +x
OH^- = +x
equilibrium:
CH3NH2 = 0.205-x
CH3NH3^+ = 0.110+x
OH^- = x
Kb expression is
Kb = (CH3NH3^+)(OH^-)/(CH3NH2)
Look up Kb and solve for x.
When it comes to solving the equation, the x is small enough to ignore when combined with something else (0.205-x very nearly equals 0.205 and 0.110+x very nearly equals 0.110). I would then convert OH^- to pOH and subtract from 14 to obtain pH. I ran it quickly using the H-H equation and obtained 10.95 for the pH.
Answered by
shantel
is these buffers solution NH3, NaC2H3O2
NH3,NH4Cl
HC2H3)2,HN)3
KOH,KCl
NH3,NH4Cl
HC2H3)2,HN)3
KOH,KCl
There are no AI answers yet. The ability to request AI answers is coming soon!
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.