General Chemistry
General Chemistry
11th Edition
ISBN: 9781305859142
Author: Ebbing, Darrell D., Gammon, Steven D.
Publisher: Cengage Learning,
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Chapter 22, Problem 22.72QP
Interpretation Introduction

Interpretation:

The concentration of Ag+(aq) , NH3(aq) and [Ag(NH3)2]+(aq) at equilibrium has to be determined when 0.10 mol Ag+(aq) and 0.10 mol NH3(aq) are made up to 1.00 L of solution.

Concept Introduction:

Consider a ligand ‘X’ co-ordinates to central metal ion ‘A’, and the reaction is represented as,

A + 6X [AX6]n±

The formation constant, Kf , for formation of a complex compound by complexation reaction is represented as,

Kf = [AX6][A][X]6n±

Expert Solution & Answer
Check Mark

Answer to Problem 22.72QP

Concentration of Ag+(aq) at equilibrium is calculated as 0.050 M.

Concentration of NH3(aq) at equilibrium is calculated as 2.4×104 M.

Concentration of [Ag(NH3)2]+(aq) at equilibrium is calculated as 0.050 M.

Explanation of Solution

The reaction between Ag+(aq) , NH3(aq) and [Ag(NH3)2]+(aq) can be represented as,

Ag+(aq)+2NH3(aq) [Ag(NH3)2]+(aq)

From the figure 17.2 given in the text book is, the reaction constant for the above reaction is Kd = 1 and the formation constant for the above reaction is Kf = 1.7×107

In this reaction ammonia is the limiting reagent and it is completely consumed during the formation of complex and the complex dissociates slightly later on.  The concentration of each reactant species and the product at equilibrium is given as,

Concentration(M)     Ag+(aq)      NH3(aq)    [Ag(NH3)2]+(aq)  _Initial                           0.050         0.00                    0.050Change                          +x             +2x                       -xEquilibrium                 0.050 + x     2x                      0.050-x

As we know,

Kf = 1.7×107=[Ag(NH3)2][Ag+][NH3]2+

Substitute the concentration Ag+(aq) , NH3(aq) and [Ag(NH3)2]+(aq) values in the above equation,

Kf = 1.7×107=(0.050x)(0.050+x)(2x)2

Numerical value of ‘x’ is negligible compared to 0.050 M and hence 0.050 Mx = 0.050 M and 0.050 M+x = 0.050 M . Therefore the above equation becomes,

1.7×107 = 12x2

Rearranging the above equation and solving for x,

2x2 = 11.7×107x = 1211.7×107x = 1.212×104M

Therefore, at equilibrium,

Concentration of Ag+(aq) , [Ag+] = (0.050 M + x) = 0.050 M , as ‘x’ is negligible.

Concentration of NH3(aq) , [NH3] = 2x = 2.42×104

Concentration of [Ag(NH3)2]+(aq) , [[Ag(NH3)2]+] = (0.050 M - x) = 0.050 M , as ‘x’ is negligible.

Conclusion

Concentration of product and reactant species can be determined knowing the reaction and formation constant of the reaction.

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