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CITATION

DeWane, Marian and Hattori, Heather. Practice Makes Perfect Chemistry Review and Workbook, Second Edition. New York: McGraw-Hill Education, 2018.

Practice Makes Perfect Chemistry Review and Workbook, Second Edition

Authors: Marian DeWane and Heather Hattori

Published:  December 2018

eISBN: 9781260135183 | ISBN: 9781260135176
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  • Cover
  • Title Page
  • Copyright Page
  • Dedication
  • Contents
  • Acknowledgments
  • Preface
  • 1 Matter: Classification, properties, and changes
  • Classification of matter
  • Properties of matter
  • Changes in matter
  • 2 Measurement, mathematical notations, and conversions
  • The metric system
  • Accuracy in measurements
  • Significant figures
  • Calculations with significant figures
  • Accuracy vs. precision
  • Dimensional analysis
  • 3 Atomic structure and nuclear reactions
  • Atomic structure
  • Average mass
  • Nuclear reactions
  • Nuclear equations
  • Decay series and stability
  • 4 The periodic table, periodicity, and periodic trends
  • Historical background
  • The arrangements
  • Periodic trends
  • 5 Structures and shapes of molecules
  • Determining the number valence electrons
  • Lewis Dot Diagrams
  • Resonance and calculating bond order
  • Bond Length and Bond Strength
  • Identification of Shapes
  • 6 Naming compounds and writing formulas
  • Metal-metal combinations
  • Metal-nonmetal combinations
  • Nonmetal-nonmetal combinations
  • Introduction to organic compounds
  • 7 Chemical reactions
  • Writing and balancing chemical equations
  • Combination, or synthesis
  • Decomposition
  • Single replacement
  • Double replacement
  • Combustion
  • Acid-base
  • Ionic and net ionic equations
  • 8 Mass and mole relationships
  • Calculating formula and molecular mass
  • Calculating molar mass
  • Calculating percent composition
  • Molar conversions between grams and particles
  • Stoichiometry
  • 9 Gas laws
  • Volume and pressure (Boyle’s law)
  • Volume and temperature
  • Pressure and temperature
  • Volume and particle number (Avogadro’s hypothesis)
  • Volume, temperature, and pressure (combined gas law)
  • Density of a gas at STP
  • Ideal gas law
  • Gas stoichiometry
  • 10 Solutions
  • Concentration
  • Diluting a solution
  • Molality
  • Colligative properties
  • Solubility curves
  • 11 Acids and bases
  • Acid-base theories
  • pH concept
  • Identifying acids
  • Calculating pH
  • Identifying bases
  • Calculating pOH
  • 12 Thermochemistry
  • Specific heat
  • Heat capacity
  • Calorimetry
  • Answer key