Text: Chemistry Matter and Change, Glencoe

Online activities including online quizzes at http://www.glencoe.com/sec/science/chemistry/mc/index.html


Chapter 10 Chemical Reactions

1.  Recognize evidence of chemical change.

2.  Represent chemical reactions with equations.

3.  Classify chemical reactions.

4.  Identify the characteristics of different classes of chemical reactions.

5.  Describe aqueous solutions.

6.  Write complete ionic and net ionic equations for chemical reactions in aqueous solutions.

7.  Predict whether reactions in aqueous solutions will produce a precipitate, water, or gas

Chapter 11 The Mole

8.  Describe how a mole is used in chemistry

9.  Relate a mole to common counting units.

10.  Convert moles to number of representative particles and number of representative particles to moles

11.  Relate the mass of an atom to the mass of a mole of atoms

12.  Calculate the number of moles in a given mass of an element and the mass of a given number of moles of the element

13.  Calculate the number of moles of an element when given the number of atoms of the element

14.  Calculate the number of atoms of an element when given the number of moles of the element

15.  Recognize the mole relationships shown by a chemical formula

16.  Calculate the molar mass of a compound

17.  Calculate the number of moles of a compound from a given mass of the compound and the mass of a compound from a given number of moles of the compound

18.  Determine the number of atoms or ions in a mass of a compound

19.  Explain what is meant by the percent composition of a compound

20.  Determine the empirical and molecular formulas for a compound from mass percent and actual mass data

21.  Explain what a hydrate is and how its name reflects its composition

22.  Determine the formula for a hydrate from laboratory data

Chapter 12 Stoichiometry

23.  Identify the quantitative relationships in a balanced chemical equation.

24.  Determine the mole ratios from a balanced chemical equation.

25.  Explain the sequence of steps used in solving stoichiometric problems.

26.  Use the steps to solve stoichiometric problems.

27.  Identify the limiting reactant in a chemical equation.

28.  Identify the excess reactant and calculate the amount remaining after the reaction is complete.

29.  Calculate the mass of a product when the amounts of more than one reactant are given.

30.  Calculate the theoretical yield of a chemical reaction from data.

31.  Determine the percent yield for a chemical reaction.

Chapter 13 Phases and gases

32.  Use the kinetic-molecular theory to explain the behavior of gases.

33.  Describe how mass affects the rates of diffusion and effusion.

34.  Describe and compare intramolecular and intermolecular forces.

35.  Distinguish among intermolecular forces.

36.  Apply kinetic-molecular theory to the behavior of liquids and solids.

37.  Relate properties such as viscosity, surface tension, and capillary action to intermolecular forces.

Chapter 14 The Gas Laws

38.  State Boyle’s law, Charles’s law and Gay-Lussac’s law

39.  Apply the three gas laws to problems involving pressure, temperature, and volume of a gas

40.  State and apply the combined gas law

41.  Relate numbers of particles and volumes by using Avogadro’s principle

42.  Describe and apply the ideal gas law

43.  Compare the properties of ideal and real gases

44.  Determine volume ratios for gaseous reactions by using coefficients