168 DIY Science: Illustrated Guide to Home Chemistry Experiments
FIGURE 9-2: A burning splint is immediately extinguished
by the carbon dioxide gas evolved during the reaction.
TEH moST ImpoRTANT dECompoSITIoN REACTIoN
If you’re wondering what decomposition reaction could
possibly be run on a larger scale than the industrial
production of sodium carbonate, think about it the
next time you’re in an automobile. The most important
decomposition reaction is the refining of crude petroleum
to gasoline and other fuels, which dwarfs the production
of sodium carbonate both in mass and in economic
value. Most refining is done by a decomposition process
called catalytic cracking, which converts the long-chain
hydrocarbons present in crude petroleum into the
shorter-chain hydrocarbons used in gasoline and other
fuels and lubricants.POCEDURER
CUTIOA nS
This experiment uses heat. Be careful with the heat source
and when handling hot objects, and have a fire extinguisher
readily available if your heat source uses flame. Wear
splash goggles, gloves, and protective clothing.z This laboratory has two parts. In Part I, we’ll do qualitative
testing to determine the products of the reaction. In Part II,
we’ll do some semi-quantitative testing to verify that the mass
of the solid product (sodium carbonate) closely matches the
mass we would expect from examining the balanced equation
for the reaction.PRTI:A
1.f you have not already done so, put on your splash I
goggles, gloves, and protective clothing.- Add sodium hydrogen carbonate to the test tube until it
is about one quarter full. - Light your gas burner (or alcohol lamp).
- Using the test tube holder or clamp, hold the test tube
so that the flame heats that part of the test tube that
contains the sodium hydrogen carbonate. Try to play
the flame evenly over the entire sample. (Using a clamp
mounted on a ring stand rather than a test tube holder
makes the following steps easier, because it frees
both hands.) - After you have heated the sample for at least 15 to 30
seconds, ignite a toothpick or wood splint and insert the
burning end into the top of the test tube. If the flame
or ember is snuffed out (Figure 9-2), that’s a good
indication that the reaction is producing carbon dioxide
as expected. If the splint continues to burn, continue
heating the sample until enough carbon dioxide is
produced to displace the air inside the test tube and try
using the splint again. - As you heat the sample, you should notice a liquid
condensing on the cooler inside upper surface of the
test tube, at first as fogging and later as actual droplets.
Touch a blue cobalt chloride test strip to this liquid. Does
it turn pink? If so, that confirms that the liquid is water.
PRTII:A
In Part II, we’ll determine the mass loss that occurs when
sodium hydrogen carbonate is heated to decompose it to
sodium carbonate. In theory, all of the mass loss is attributable
to the outgassing of carbon dioxide and water during the
heating process, and the remaining mass should represent
only sodium carbonate. In practice, things can be a bit more
complicated. Sodium carbonate exists in four hydration states:
anhydrous (Na 2 CO 3 ), the monohydrate (Na 2 CO 3 • 1H 2 O),
the heptahydrate (Na 2 CO 3 • 7H 2 O), and the decahydrate
(Na 2 CO 3 • 10H 2 O). If we don’t heat the sample strongly
enough, it’s possible that some of the water produced by the
decomposition will be retained by the sodium carbonate as
water of hydration. Accordingly, we’ll heat our sample at a
high enough temperature and for long enough to ensure that it
is completely converted to anhydrous sodium carbonate.