Question

Calculate the ph of a 0.10m ammonia




solution. Calculate the ph after 50.0 ml




of this solution is treated with 25.0 ml of




0.10m hcl. The dissociation constant of




ammonia, kb




= 1.77 × 10–5

Answer 1

NH3  + H2O → NH4+ + OH-

 

Kb  = [NH4+ ] [OH- ]    =  1.77 x 10-5

           [NH3]

Before neutralization,

[NH4+ ]  = [OH-] = x

Thus

Kb  =   x2    = 1.77x 10-5

        0.10

Hence x = 1.33 x 10-5 = [OH-]

 

 

Now Kw = [H+][OH-]

So [H+]  = Kw/ [OH-] = 10-14 / 1.33x 10-12 = 7.51 x 10-12

       

p H = - log(7.51 x 10-12) = 11.12

On addition of 25 ml of 0.1 M HCl solution to 50 ml of 0.1 M ammonia solution , 2.5 mol of ammonia are neutralized. The resulting 75 ml solution contains the remaining unneutralised 2.5 mol of NH3 molecules and 2.5 mol of NH4+.

 

                                        NH3    + HCl  → NH4+   + Cl-

                                       2.5         2.5          0             0

 

At equilibrium                     0            0            2.5        2.5

The resulting 75 ml of solution contains 2.5 mol of NH4+ ions and 2.5 mol of uneutralised NH3 molecules. This NH3 exists in the following equilibrium.

NH4OH     ⇌      NH4+     + OH-

0.033 M- y      y                  y

Where y = [OH-] = [NH4+]

The final 75ml solution after neutralization already contains 2.5 mol NH4+ ions, thus total concentration of NH4+ ions is given as:

[NH4+]  = 0.033 + y

As y is small, [NH4OH] = 0.033 M and [NH4+] = 0.033M

Kb =  [NH4+]  [OH-]   = y (0.033)  = 1.77x 10-5 M

            [NH4OH]          (0.033)

Thus , y = 1.77 x 10-5 = [OH-]

[H+] = 10-14             = 0.56 x 10-9

        1.77 x 10-5

 

Hence p H = 9.24

Answer 2

Answer:

Explanation:

NH3  + H2O → NH4+ + OH-

 

Kb  = [NH4+ ] [OH- ]    =  1.77 x 10-5

           [NH3]

Before neutralization,

[NH4+ ]  = [OH-] = x

Thus

Kb  =   x2    = 1.77x 10-5

        0.10

Hence x = 1.33 x 10-5 = [OH-]

 

 

Now Kw = [H+][OH-]

So [H+]  = Kw/ [OH-] = 10-14 / 1.33x 10-12 = 7.51 x 10-12

       

p H = - log(7.51 x 10-12) = 11.12

On addition of 25 ml of 0.1 M HCl solution to 50 ml of 0.1 M ammonia solution , 2.5 mol of ammonia are neutralized. The resulting 75 ml solution contains the remaining unneutralised 2.5 mol of NH3 molecules and 2.5 mol of NH4+.

 

                                        NH3    + HCl  → NH4+   + Cl-

                                       2.5         2.5          0             0

 

At equilibrium                     0            0            2.5        2.5

The resulting 75 ml of solution contains 2.5 mol of NH4+ ions and 2.5 mol of uneutralised NH3 molecules. This NH3 exists in the following equilibrium.

NH4OH     ⇌      NH4+     + OH-

0.033 M- y      y                  y

Where y = [OH-] = [NH4+]

The final 75ml solution after neutralization already contains 2.5 mol NH4+ ions, thus total concentration of NH4+ ions is given as:

[NH4+]  = 0.033 + y

As y is small, [NH4OH] = 0.033 M and [NH4+] = 0.033M

Kb =  [NH4+]  [OH-]   = y (0.033)  = 1.77x 10-5 M

            [NH4OH]          (0.033)

Thus , y = 1.77 x 10-5 = [OH-]

[H+] = 10-14             = 0.56 x 10-9

        1.77 x 10-5

 

Hence p H = 9.24

Regards!!!