1 Matter, Energy, and the Origins of the Universe
2 Atoms, Ions, and Molecules
3 Chemical Reactions And Earth's Composition
4 Solution Chemistry and the Hydrosphere
5 Thermochemistry
6 Properties of Gases: And the Air We Breathe
7 Electrons in Atoms and Periodic Properties
8 Chemical Bonding and Atmospheric Molecules
9 Molecular Geometry and Bonding Theories
10 Forces Between Ions and Molecules and Colligative Properties
11 The Chemistry of Solids
12 Organic Chemistry: Fuels And Materials
13 Thermodynamics: Spontaneous Processes, Entropy, and Free Energy
14 Chemical Kinetics
15 Chemical Equilibrium
16 Equilibrium in the Aqueous Phase
17 The Colorful Chemistry of Transition Metals
18 Electrochemistry and Electric Vehicles
19 Biochemistry: The Compounds Of Life
20 Nuclear Chemistry
21 Life and the Periodic Table

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Chapter 10: Forces Between Ions and Molecules and Colligative Properties

Study Plan

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Organize

  1. Prepare for lecture by reading the assigned sections from Chapter 10 in your textbook or ebook. This will provide an organizing framework for concepts introduced in lecture, and help you take better notes.
  2. Take the Diagnostic Quiz and work the Concept Test questions in your textbook to assess your understanding of basic concepts. Examine the diagnostic quiz feedback, review textbook sections that correspond to questions you missed, and be prepared to ask questions about any material you do not understand.
  3. Use the Flashcards to test your memory for new vocabulary terms.

Learn

  1. Re-read Chapter 10 in your textbook (or ebook) and review your lecture notes. 
  2. Work through the ChemTours for this chapter. ChemTours use animation and interactive exercises to develop your understanding of fundamental topics.
ChemTours icon Chapter 10 ChemTours
  1. Review the Problem-Solving Summary. After reading this chapter and working its exercises, you should be able to:
Objective Exercise Section (ebook links)
Predict the relative magnitudes of attractive forces, lattice energies, and melting points of ionic compounds

10.1, 10.2

10.1
Calculate lattice energy with a Born–Haber cycle

10.3

10.1
Explain the relative boiling points of liquids and trends in boiling points of pure substances

10.4, 10.5

10.2 and 10.3
Assess empirical parameters of real gases

10.6

10.4
Predict the water solubility of substances

10.7

10.5
Calculate the solubility of an unreactive gas using Henry’s law

10.8

10.5
Calculate the vapor pressure of a solution

10.9

10.6
Read a phase diagram

10.10

10.7
Calculate molal concentrations

10.11

10.9
Predict the boiling point or freezing point of a solution

10.12, 10.13

10.9
Assess interactions among particles in solution by comparing the ideal value of the van’t Hoff factor i with the value calculated from real data

10.14, 10.15

10.9
Calculate osmotic pressure

10.16, 10.17

10.9
Determine the molar mass of a nonelectrolyte solute from boiling point elevation, freezing point depression, or osmotic pressure data

10.18, 10.19

10.9
  1. Work the end of chapter Questions and Problems assigned by your instructor. If your instructor has assigned SmartWork online homework, login here:

SmartWork

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