Mole Relationship in a Chemical ReactionName______
30 PointsPeriod______Date______
INTRODUCTION: Chemists can determine the equation for a chemical reaction by identifying the type
andamount of the substances involved. The coefficients for the balanced equation can be determined by
converting mass values to moles and expressing the moles values in terms of small whole number ratios.
It is not always practical to determine mass values for all the substances involved in the reaction, particularly if gases are produced. Therefore, chemists will often use the mass values for only one of the
reactants and one of the products. By incorporating knowledge of the Law of Conservation of Mass, the
balanced equation can be determined.
In this experiment you will react sodium bicarbonate (sodium hydrogen carbonate or baking soda), NaHCO3, with hydrochloric acid, HCl, to form sodium chloride, NaCl, and two gaseous products. One of
the gases produced will extinguish a flame, the other is a vapor of a common liquid. You will determine
the mole relationship between NaHCO3 and NaCl, and use this data along with the Law of Conservation
of Mass to predict a balanced equation for this reaction.
OBJECTIVES:react a known mass of NaHCO3 with excess HCl
calculate the mole relationship between NaHCO3 and NaCl
predict a balanced equation for the reaction
calculate the % yield and the % error of the actual product produced
EQUIPMENT:gogglesapronevaporating dishbalance
spoonwatch glassHCl dropperbaking soda
PROCEDURE:
1. Clean and dry an evaporating dish. Do not wash it unless necessary. (If you do wash it, heat it
strongly for 2-3 minutes in a Bunsen burner flame and allow it to cool.) Determine the mass to the
nearest 0.001g.
2. With a clean spoon, add about 3.000 g of sodium bicarbonate, NaHCO3, to the evaporating
dish. It does not need to be exactly 3.000 g, but should be measured precisely.
3. Cover the evaporating dish with a watch glass. Use the 6M HCl dropper and add about
6 mL (1 mL = 20 drops) CAUTION:HCl causes burns; avoid skin and eye contact. Rinse
spills with plenty of water. Allow the drops to enter the lip of the evaporating dish so that
theygradually flow down the side as shown in the picture.
4. Continue adding the acid slowly until the reaction has stopped. Do not add more acid than
is needed, but no solid should remain.
5. Tilt the dish from side to side to make sure the HCl has reached all of theNaHCO3, if any
unreacted NaHCO3 remains, add a few more drops of HCl to complete the reaction. Remove
the watch glass cover with forceps and rinse the underside of the watch glass with a very small
amount of distilled water from the water bottle. Be careful to wash all the material into the
evaporating dish as shown in the picture.
6. Return the watch glass to your drawer, write your names on a paper towel, and place the
evaporating dish on the paper towel on the tray on the front lab bench. Complete A,B,C in the
data table and questions #1, 3-6. One of the gases produced will extinguish a flame, the other is a
vapor of a common liquid.
7. After the product has been allowed to evaporate overnight, weigh the product to the nearest
0.001g.
8. Completethe data table and questions #1 and #2 and check your answers with your teacher.
Then thecontents of the evaporating dish may then be rinsed down the drain with plenty of water. Return the evaporating dishes to the front lab counter.
DATA TABLE: Measure to the nearest 0.001g.
A / Mass of empty evaporating dishB / Mass of evaporating dish and NaHCO3
C / Mass of NaHCO3
D / Mass of evaporating dish and NaCl
E / Mass of NaCl
QUESTIONS:
1. Calculate the number of moles of NaHCO3 used in this reaction:
2. Calculate the number of moles of NaCl produced in this reaction:
3.Write a complete balanced equation for the reaction that occurred. (see Intro and Procedure #6)
4. From your balanced equation, what is the mole ratio between NaHCO3and NaCl? ______
How does this compare with your mole ratio from questions #1 to #2. Give a reason why they are
similar or different.
5. Suppose you started with 3.25 moles of sodium bicarbonate, how many moles of sodium chloride
would you expect to be formed? ______If you started with “X” moles of NaHCO3how many
moles of NaCl would you expect to be formed? Explain.
6. Using the mass of sodium bicarbonate,NaHCO3, calculate the number of grams of sodium chloride
that should have been produced. This is the expected (experimental or theoretical) yield.
7. Calculate the % yield for NaCl produced in the experiment, by comparing it to the amount of NaCl
that should have been recovered.
8. Calculate the % error for NaCl produced in the experiment, by comparing it to the amount of NaCl
that should have been recovered.
9.Was your actual yield of salt close to your theoretical yield (was your % yield exactly 100%)? If not,
list at least 2 possible sources of error.
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