A 1.219-g containing (NH4)2SO4, NH4NO3, and nonreactive substances was diluted to 200 mL in a volumetric flask. A 50.00-mL aliquot was made basic with strong alkali, and the liberated NH3 was distilled into 30.00-mL of o.08421 M HCl. The excess HCl required 10.17 mL of o.o8802 M NaOH. A 25-mL aliquot of the sample was made alkaline after the addition of Devarda’s alloy, and the NO3- was reduced to NH3. The NH3 from both the NH4+ and NO3- was then distilled into 30.00 mL of the standard acid and back titrated with 14.16 mL of base. Calculate the percentage of (NH4)2SO4 and NH4NO3 in the sample.

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A 1.219-g containing (NH4)2SO4, NH4NO3, and nonreactive substances was
diluted to 200 mL in a volumetric flask. A 50.00-mL aliquot was made basic with
strong alkali, and the liberated NH3 was distilled into 30.00-mL of o.o8421 M
HCl. The excess HCl required 10.17 mL of o.08802 M NaOH. A 25-mL aliquot of
the sample was made alkaline after the addition of Devarda's alloy, and the NO3-
was reduced to NH3. The NH3 from both the NH4+ and NO3- was then distilled
into 30.00 mL of the standard acid and back titrated with 14.16 mL of base.
Calculate the percentage of (NH4)2S04 and NH4NO3 in the sample.
Transcribed Image Text:A 1.219-g containing (NH4)2SO4, NH4NO3, and nonreactive substances was diluted to 200 mL in a volumetric flask. A 50.00-mL aliquot was made basic with strong alkali, and the liberated NH3 was distilled into 30.00-mL of o.o8421 M HCl. The excess HCl required 10.17 mL of o.08802 M NaOH. A 25-mL aliquot of the sample was made alkaline after the addition of Devarda's alloy, and the NO3- was reduced to NH3. The NH3 from both the NH4+ and NO3- was then distilled into 30.00 mL of the standard acid and back titrated with 14.16 mL of base. Calculate the percentage of (NH4)2S04 and NH4NO3 in the sample.
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