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A 23.9 mL sample of 0.345 M ethylamine, C2H5NH2, is titrated with 0.346 M hydrobromic acid....

A 23.9 mL sample of 0.345 M ethylamine, C2H5NH2, is titrated with 0.346 M hydrobromic acid. After adding 9.17 mL of hydrobromic acid, the pH is -blank-

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Expert Solution

no. of mole = molarity volume of solution in liter

no.of mole of C2H5NH2  = 0.345 M 0.0239 L = 0.0082455 mole

no. of mole of HBr = 0.346 M 0.00917 L = 0.00317282 mole

netrilization reaction between C2H5NH2 and HBr take place 0.00317282 mole of HBr neutrilize 0.00317282 mole of C2H5NH2

mole of C2H5NH2 remain in solution = 0.0082455 - 0.00317282 = 0.00507268 mole

total volume of solution = 23.9 + 9.17 = 33.07 ml = 0.03307 liter

molarity = no. of mole / volume of solution in liter

Molarty of C2H5NH2 = 0.00507268/ 0.03307 = 0.153 M

C2H5NH2 dissociate as

C2H5NH2 + H2O   C2H5NH3+ + OH-

Kb = [C2H5NH3+ ] [OH-] / [C2H5NH2]

ethylmine is monobesic base therefore

[C2H5NH3+ ] = [OH-] = x

Kb = [x][x] /  [C2H5NH2]

Kb =[x]2 /  [C2H5NH2]

[x]2 = Kb  [C2H5NH2]

Kb of C2H5NH2 = 5.6 10-4

[x]2 = 5.6 10-4 0.153 = 8.568 10-5

[x] = 0.009256 M

[C2H5NH3+] = [OH-] = x = 0.009256 M

pOH = -log[OH-] = -log(0.009256) = 2.03

pH = 14 - pOH = 14 - 2.03 = 11.97

pH = 11.97

queen_honey_blossom answered 1 year ago
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