Transcript Slide 1

STOICHIOMETRY
PRACTICE
BELLWORK #3 3/2/2011
Define the following terms:
a) limiting reactant
b) excess reactants
c) Percent yield
d) Theoretical yield
e) Actual yield
STOICHIOMETRY PRACTICE
Determine all possible mole ratios for the
following balanced chemical equations:
a) 4Al(s) + 3O2(g)  2Al2O3(s)
b) 3Fe(s) + 4H2O(l)  Fe3O4(s) + 4H2(g)
c) 2HgO(s)  2Hg(l) + O2(g)
STOICHIOMETRY PRACTICE
•
Balance the following equations and
determine the possible mole ratios
a) ZnO(s) + HCl(aq)  ZnCl2(aq) + H2O(l)
b) butane (C4H10) + oxygen  carbon
dioxide + water
STOICHIOMETRY PRACTICE
• Determine the mass of sodium chloride
produced when 1.25 moles of chlorine gas
reacts vigorously with sodium.
– STEP 1- WRITE THE EQUATION
– STEP 2- BALANCE THE EQUATION
– STEP 3- STATE GIVEN AND UNKNOWN
– STEP 4- SOLVE
STOICHIOMETRY PRACTICE
• NH4NO3 produces N2O gas and H2O when
it decomposes. Determine the mass of
water produced from the decomposition of
25.0 grams of solid ammonium nitrate.
– STEP 1- WRITE THE EQUATION
– STEP 2- BALANCE THE EQUATION
– STEP 3- STATE GIVEN AND UNKNOWN
– STEP 4- SOLVE
STOICHIOMETRY PRACTICE
Chlorine is used by textile manufacturers to
bleach cloth. Excess chlorine is
destroyed by its reaction with sodium
thiosulfate, Na2S2O3:
Na2S2O3 (aq) + 4Cl2 (g) + 5H2O(aq) 
2NaHSO4 (aq) + 8HCl(aq)
a. How many moles of Na2S2O3 are needed to
react with 0.12mol of Cl2?
Percent Yield Practice Problems
Write the problem down:
1. A student adds 200.0g of C7H6O3 to an
excess of C4H6O3, this produces C9H8O4
and C2H4O2. Calculate the percent yield
if 231 g of aspirin (C9H8O4) is produced.
C 7H 6O 3 + C 4H 6O 3  C 9H 8O 4 + C 2H 4O 2
Percent Yield Practice Problems
1. A student adds 200.0g of C7H6O3 to an
excess of C4H6O3, this produces C9H8O4
and C2H4O2. Calculate the percent yield
if 231 g of aspirin (C9H8O4) is produced.
C 7H 6O 3 + C 4H 6O 3  C 9H 8O 4 + C 2H 4O 2
ANSWER: ≈90%
Percent Yield Practice Problems
2. Quicklime, CaO, can be prepared by
roasting limestone, CaCO3, according to
the chemical equation below. When 2.00
x 103 g of CaCO3 are heated, the actual
yield of CaO is 1.50 x 103 g. What is the
percentage yield?
CaCO3  CaO + CO2
Percent Yield Practice Problems
2. Quicklime, CaO, can be prepared by
roasting limestone, CaCO3, according to
the chemical equation below. When 2.00
x 103 g of CaCO3 are heated, the actual
yield of CaO is 1.50 x 103 g. What is the
percentage yield?
CaCO3  CaO + CO2
ANSWER: ≈93.8%
Percent Yield Practice Problems
3. Aluminum reacts with an aqueous
solution containing excess copper (II)
sulfate. If 1.85 g Al reacts and the
percentage yield of Cu is 56.6%, what
mass of Cu is produced?
Al + CuSO4 
Cu
+ Al2 (SO4) 3
Percent Yield Practice Problems
3. Aluminum reacts with an aqueous
solution containing excess copper (II)
sulfate. If 1.85 g Al reacts and the
percentage yield of Cu is 56.6%, what
mass of Cu is produced?
Al + CuSO4 
ANSWER: 3.70g
Cu
+ Al2 (SO4) 3
1) Balance this equation and state which
of the six types of reaction is taking place:
__ Mg + __ HNO3  __ Mg(NO3)2 + __H2
Type of reaction:
__________________________
2) If I start this reaction with 40 grams of
magnesium and an excess of nitric acid,
how many grams of hydrogen gas will I
produce?
3) If 1.7 grams of hydrogen is actually
produced, what was my percent yield of
hydrogen?
4) Balance this equation and state what
type of reaction is taking place:
____ NaHCO3  ____ NaOH + ____ CO2
Type of reaction:
__________________________
5) If 25 grams of carbon dioxide gas is
produced in this reaction, how many
grams of sodium hydroxide should be
produced?
6) If 50 grams of sodium hydroxide are
actually produced, what was my percent
yield?
CHEM BELLWORK #3
3/7/11
Given the following equation:
CaCl2 + Li3PO4 ---> LiCl
+ Ca3(PO4)2
a) If you start with 82.4 g of CaCl2 and
you isolate 82.4 g of Ca3(PO4)2, what is
your percent yield for this reaction?
• If 80.0 g of sodium reacts with 72.0 g of
iron (III) oxide, sodium acts as the limiting
reactant.
• The percent yield is the maximum amount
of product that can be produced from a
given amount of reactant.
• How many moles of carbon dioxide is
produced when 10.4 mol of propane gas is
burned in excess oxygen?
• The equation for the combustion of
propane is
C3H8 + O2  CO2 + H2O
• Hydrofluoric acid reacts with HF 31.3g of
silica to produce hexafluorosilicic acid.
Determine the percent yield of H2SiF6 if
the actual yield is actual 60.3 g.