Tuesday December 1st Unit 3 Review: Quantities in Chemical

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SCH3U
Mrs. Whalen
Date of Unit Test:
Tuesday December 1st
Unit 3 Review: Quantities in Chemical Reactions
This review is separated into 9 different “Big Ideas”. Complete all of the questions below to review each of the
concepts we have done so far. When you are done, start on textbook review questions listed at the bottom. Use
your class time wisely!!!!
The Mole
1. What is the key term to look for in a question that tells you to calculate the moles of a substance?
2. What is the symbol and numerical value of Avogadro’s number?
3. Explain the meaning of the word “mole”, including a) a comparison to a term such as “a dozen” b) its
numerical value, and c) why it is a useful value in chemistry.
Conversion Factors
1. What is a conversion factor? How are the numerator and denominator in a conversion factor related?
2. Use conversion factors to complete the following problems:
a) How many pairs is 386 socks?
b) How many eggs are there in 25 dozen?
c) How many grams does a 15 kg dumbbell weigh?
d) How many gross is 803 pencils? (a gross = 144)
Mass-Mole-Particle Conversions
1. Use conversion factors to convert all of the quantities below into moles:
a) 5.4 g of C
b) 5.34 x 1025 molecules of H2O
c) 3.00 kg of sulfuric acid
2. Convert the quantities below into either moles, particles or grams as required:
a) 2.34 g calcium nitrate into particles
b) 7.8 x 1021 molecules of NO2 into grams
Percent Composition
1. Describe the meaning of the term “percent composition”. Use carbon monoxide vs carbon dioxide to
describe why percent composition is an important concept.
2. Determine the percent composition of each compound below:
a) HNO3
b) copper (II) sulfate
c) carbon dioxide
d) carbon monoxide
Empirical and Molecular Formulas
1. Explain the difference between the empirical and molecular formula of a compound using an example.
2. What pieces of information are required to calculate an empirical formula? What additional information
is needed to find a molecular formula?
3. An unknown compound is found to consist of 40.1% sulfur and 59.9% oxygen by mass. Determine the
empirical formula.
4. Resorcinol, a compound used to manufacture resins and drugs, is 65.44% C, 5.49% H and 29.06% O by
mass. The mass of 1 mol of this compound is 110.0 g. Determine the molecular formula of the compound.
5. When a 3.862 g sample of silver oxide is heated, the remaining silver has a mass of 3.363 g. The molar
mass of the compound is 247.74 g/mol. Determine the molecular formula.
Stoichiometry
1. Use an everyday example to explain what stoichiometry is. Be sure to include an analogy for the
reactants, products and chemical equation.
2. What unit is it absolutely necessary to convert to before you can use a stoichiometry ratio? Explain why
this is the case.
3. When potassium chlorate decomposes, oxygen gas and potassium chloride are produced. What mass of
oxygen can be produced from 5.78 g of potassium chlorate? What mass of potassium chloride is also
produced?
4. Determine the number of molecules of ammonia that are produced when 43.5 g of nitrogen reacts with an
excess of hydrogen to produce NH3.
Limiting and Excess Reagents
1. Create an analogy using everyday items to explain the terms limiting and excess reagent.
2. Once the limiting and excess reagents are determined in a chemical reaction, which is used for
calculations? Why?
3. A double displacement reaction occurs when 12.0 g barium nitrate reacts with 16.0 g potassium sulfate.
Determine the mass of barium sulfate that will be produced by this reaction.
4. Calculate the mass of hydrogen that can be produced when 9.00 g HCl reacts with 7.00 g Mg.
Percent Yield
1. Explain the term percent yield using the equation used to calculate it.
2. Why is it not likely to obtain a 100% percent yield when carrying out an experiment?
3. When 4.23 g of lead (II) nitrate is heated, 1.72 g of lead (II) oxide was produced, along with nitrogen
dioxide gas and oxygen gas. Determine the percent yield of the experiment.
Additional Textbook Practice
p. 251 #1-8, 10, 17, 25
p. 289 #1-4, 13, 15, 19-23
p. 331 #2, 3, 6-10, 12, 15, 17, 18, 20
p. 339 #1, 4, 5, 8, 12, 13, 15, 18, 20
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