Illustrated Guide to Home Chemistry Experiments

(Amelia) #1
Chapter 19 Laboratory: Qualitative Analysis 345

CUTIOA nS
Hydrochloric, nitric, and sulfuric acids and concentrated
aqueous ammonia are corrosive. Some of the metal salts
used in this lab session are poisons, oxidizers, corrosives,
or otherwise hazardous. Some are known or suspected
carcinogens. Read the MSDS for each chemical before
you use it. Wear splash goggles, gloves, and protective
clothing. Wear a disposable N100 respirator mask if you
handle any of the hazardous chemicals in solid form.
Dispose of all chemical wastes properly, in accordance
with hazardous material disposal laws and regulations.

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turns blue) and then add the same volume of ammonia
again to make the ammonia in large excess. Determine
whether the precipitate dissolves in excess ammonia.
Note your observations in Table 19-5.


  1. Add a few drops of 6 M hydrochloric acid to the
    second test tube and swirl or stir the tube gently. If no
    observable change occurs, note that fact in Table 19-5
    and continue to the next step. If adding hydrochloric
    acid produces a visible change such as a precipitate,
    color change, bubbling, or some other action, continue
    adding hydrochloric acid until no further change occurs.
    If a precipitate occurs, continue adding hydrochloric
    acid with stirring until you have added twice the amount
    of acid required to reach the first endpoint and see if
    the precipitate redissolves. If the precipitate does not
    redissolve, neutralize the hydrochloric acid to litmus
    paper with aqueous ammonia and continue until the
    ammonia is in large excess to determine whether the
    precipitate dissolves in excess ammonia. Note your
    observations in Table 19-5.

  2. Add a few drops of 6 M sodium hydroxide to the
    third test tube and swirl or stir the tube gently. If no
    observable change occurs, note that fact in Table
    19-5 and continue to the next step. If adding sodium
    hydroxide produces a visible change such as a
    precipitate, color change, bubbling, or some other
    action, continue adding sodium hydroxide until no
    further change occurs. If a precipitate occurs, continue
    adding sodium hydroxide with stirring until you have
    added twice the amount of sodium hydroxide required to
    reach the first endpoint and see whether the precipitate
    redissolves. If the precipitate does not redissolve with
    excess sodium hydroxide, test it with excess aqueous
    ammonia and then with excess nitric acid. Note your
    observations in Table 19-5.

  3. Add a few drops of 6 M aqueous ammonia to the fourth
    test tube and swirl or stir the tube gently. If no observable


change occurs, note that fact in Table 19-5 and continue
to the next step. If adding ammonia produces a visible
change such as a precipitate, color change, bubbling, or
some other action, continue adding ammonia until no
further change occurs. If a precipitate occurs, continue
adding ammonia with stirring until you have added
twice the amount of ammonia required to reach the first
endpoint and see whether the precipitate redissolves.
If the precipitate does not redissolve with excess
ammonia, test it with excess nitric acid. Note your
observations in Table 19-5.


  1. Add a few drops of 0.25 M potassium ferricyanide to
    the fifth test tube and swirl or stir the tube gently. If no
    observable change occurs, note that fact in Table 19-5
    and continue to the next step. If adding potassium
    ferricyanide produces a visible change such as a
    precipitate or color change, continue adding potassium
    ferricyanide until no further change occurs. If no visible
    change occurs, add one or two drops of nitric acid to
    the test tube and note any visible change. If acidifying
    the solution causes no change, add three or four drops
    of sodium hydroxide and note any visible changes. Note
    your observations in Table 19-5. See Figure 19-4.

  2. Add a few drops of 0.25 M potassium ferrocyanide to
    the sixth test tube and swirl or stir the tube gently. If no
    observable change occurs, note that fact in Table 19-5
    and continue to the next step. If adding potassium
    ferrocyanide produces a visible change such as a
    precipitate or color change, continue adding potassium
    ferrocyanide until no further change occurs. If no visible
    change occurs, add one or two drops of nitric acid to
    the test tube and note any visible change. If acidifying
    the solution causes no change, add three or four drops
    of sodium hydroxide and note any visible changes. Note
    your observations in Table 19-5.

  3. Add a few drops of 0.25 M potassium thiocyanate to the
    seventh test tube and swirl or stir the tube gently. If no
    observable change occurs, note that fact in Table 19-5
    and continue to the next step. If adding potassium
    thiocyanate produces a visible change such as a
    precipitate or color change, continue adding potassium
    thiocyanate until no further change occurs. If no visible
    change occurs, add one or two drops of nitric acid to
    the test tube and note any visible change. If acidifying
    the solution causes no change, add three or four drops
    of sodium hydroxide and note any visible changes. Note
    your observations in Table 19-5.
    Discard all solutions and precipitates in the hazardous
    waste container, and wash all of the test tubes
    thoroughly.
    Repeat steps 1 through 10 for each of the other cation
    sample solutions.


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