Illustrated Guide to Home Chemistry Experiments

(Amelia) #1

350 DIY Science: Illustrated Guide to Home Chemistry Experiments


CUTIOA nS
Hydrochloric acid, nitric acid, and sodium hydroxide are
corrosive. Some of the salts used in this lab session are
poisons, oxidizers, corrosives, or otherwise hazardous.
Read the MSDS for each chemical before you use it. Wear
splash goggles, gloves, and protective clothing.

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This laboratory has two parts. In Part I, we’ll prepare the bone
sample for analysis. In Part II, we’ll determine whether eight
specific ions are present in the sample: chloride, sulfate, phosphate,
calcium, iron(III), sodium, ammonium, and potassium.


POCEDURER


PART I: SAppEm L REpARATIoN
In Part I, we prepare the bone sample for analysis by digesting
it in dilute nitric acid. This procedure should be done outdoors,
under an exhaust hood, or in an otherwise well-ventilated area.
The reaction of nitric acid with the bone sample evolves toxic
and irritating fumes of nitrogen oxides. Do not breathe these
fumes or allow them to contact your eyes or skin.



  1. If you have not already done so, put on your splash
    goggles, gloves, and protective clothing.

  2. Weigh a 1.0 g sample of bone. If possible, use small
    pieces rather than one large chunk.

  3. Add 25 mL of 6 M nitric acid to 25 mL of distilled or
    deionized water in a 150 mL beaker. Place the
    beaker on a support ring and wire gauze over the
    gas burner.

  4. Add the bone sample to the beaker and heat the beaker
    gently, with stirring, to dissolve the bone sample. Do not
    boil the solution. As the bone sample dissolves, toxic
    fumes are evolved.

  5. Continue heating and stirring the solution in the beaker
    for 10 or 15 minutes. As the reaction progresses, the
    quantity of fumes evolved rapidly diminishes. Some solid
    matter remains undissolved.

  6. Remove the heat and allow the beaker to cool to room
    temperature.

  7. Set up a funnel with filter paper and the second 150 mL
    beaker as the receiving vessel.

  8. Filter the solution into the second beaker and
    discard the filter paper and solid filtrand. The filtrate
    is your sample.


PII: RTA ANALySIS of IoNS
In Part II, we analyze the sample to determine whether
chloride, sulfate, phosphate, calcium, iron(III), sodium,
ammonium, and/or potassium ions are present.



  1. If you have not already done so, put on your splash
    goggles, gloves, and protective clothing.

  2. Transfer 5 mL of the sample to the first test tube.
    Add several drops of 0.1 M silver nitrate solution. A
    precipitate confirms the presence of chloride ions.
    (Actually, a precipitate confirms the presence of
    chloride, bromide, or iodide ions, but the bromide and
    iodide ions are present in extremely low concentrations
    in animal bone, so we can assume that any precipitate is
    caused by chloride ions.) Note your observations on
    line A of Table 19-6.

  3. Transfer 5 mL of the sample to the second test tube.
    Add 10 drops of 0.1 M barium chloride to the test tube,
    stir or swirl to mix the solution, and look for a white
    precipitate that confirms the presence of sulfate ions.
    Record your observations on line B of Table 19-6.

  4. Transfer 5 mL of the sample to the third test tube. Add
    about 4 mL of 6 M nitric acid and 6 mL of ammonium
    molybdate to the test tube and mix the solution well. A
    yellow precipitate confirms the presence of phosphate
    ion. If no precipitate occurs immediately, continue
    observing the test tube for a minute or two. If there is
    still no precipitate, heat the test tube very gently for
    a minute or two. (Do not heat the solution strongly.
    Doing so may cause a precipitate of white molybdenum
    trioxide, which is not a positive test for phosphate ions.)
    Record your observations on line C of Table 19-6.

  5. Transfer about 3 mL of the sample to the fourth test
    tube. Add about 15 mL of 0.2 M ammonium oxalate and
    mix the solutions thoroughly. A white precipitate or white
    cloudiness confirms the presence of the calcium ion.
    (Under the acidic conditions of this test, calcium oxalate
    is more soluble than it is in neutral solution. Examine
    the test tube carefully; even a slight white cloudiness is
    a positive result.) Record your observations on line D of
    Table 19-6.

  6. Transfer 5 mL of the sample to the fifth test tube. Add 5
    mL of 6 M nitric acid and mix thoroughly. Add 5 drops
    of 0.1 M potassium thiocyanate, mix thoroughly, and
    look for a color change. A blood red color (Figure 19-5)
    indicates the presence of Fe(III) ion in relatively high
    concentration. At lower concentrations of Fe(III) ion, the
    solution assumes anything from a light red color to a
    very pale straw yellow color. Record your observations
    on line E of Table 19-6.


FIGURE 19-5:
Ferric ions react with
potassium thiocyanate
to produce a blood red
complex
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