The Resource Chemistry : principles, patterns, and applications, Bruce Averill, Patricia Eldredge ; with contributions by C. Alton Hassell, Daniel J. Stasko

Chemistry : principles, patterns, and applications, Bruce Averill, Patricia Eldredge ; with contributions by C. Alton Hassell, Daniel J. Stasko

Label
Chemistry : principles, patterns, and applications
Title
Chemistry
Title remainder
principles, patterns, and applications
Statement of responsibility
Bruce Averill, Patricia Eldredge ; with contributions by C. Alton Hassell, Daniel J. Stasko
Creator
Contributor
Subject
Genre
Language
eng
Summary
"This innovative text emphasizes contemporary applications and an intuitive problem-solving approach. Modern applications, early integration of examples from organic and biochemistry, and a strong approach to problem solving help you develop a deep understanding of key concepts and the ability to recognize important patterns. Integrated with the most advanced chemistry tutorial media available, this is a learning package built to ensure your success. Book jacket."--Jacket
Biography type
contains biographical information
Cataloging source
DLC
http://library.link/vocab/creatorName
Averill, Bruce
Dewey number
540
Illustrations
  • illustrations
  • portraits
Index
index present
LC call number
QD31.3
LC item number
.A94 2007
Literary form
non fiction
http://library.link/vocab/relatedWorkOrContributorName
  • Eldredge, Patricia
  • Hassell, C. Alton
  • Stasko, Daniel J
http://library.link/vocab/subjectName
  • Chemistry
  • Chemistry, Physical and theoretical
  • Environmental chemistry
  • Chemistry, Technical
Target audience
specialized
Label
Chemistry : principles, patterns, and applications, Bruce Averill, Patricia Eldredge ; with contributions by C. Alton Hassell, Daniel J. Stasko
Instantiates
Publication
Note
Includes index
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • 1.3.
  • 7.1.
  • History of the Periodic Table
  • 7.2.
  • Sizes of Atoms and Ions
  • 7.3.
  • Energetics of Ion Formation
  • 7.4.
  • Chemical Families
  • 7.5.
  • Trace Elements in Biological Systems
  • Description of Matter
  • 8.
  • Structure and Bonding I: Ionic Versus Covalent Bonding
  • 8.1.
  • Overview of Chemical Bonding
  • 8.2.
  • Ionic Bonding
  • 8.3.
  • Lattice Energies in Ionic Solids
  • 8.4.
  • Introduction to Lewis Electron Structures
  • 1.4.
  • 8.5.
  • Lewis Structures and Covalent Bonding
  • 8.6.
  • Exceptions to the Octet Rule
  • 8.7.
  • Lewis Acids and Bases
  • 8.8.
  • Properties of Covalent Bonds
  • 8.9.
  • Polar Covalent Bonds
  • Brief History of Chemistry
  • 9.
  • Structure and Bonding II: Molecular Geometry and Models of Covalent Bonding
  • 9.1.
  • Predicting the Geometry of Molecules and Polyatomic Ions
  • 9.2.
  • Localized Bonding and Hybrid Atomic Orbitals
  • 9.3.
  • Delocalized Bonding and Molecular Orbitals
  • 9.4.
  • Combining the Valence Bond and Molecular Orbital Approaches
  • 1.5.
  • Part III.
  • States of Matter
  • 10.
  • Gases
  • 10.1.
  • Gaseous Elements and Compounds
  • 10.2ns
  • Gas Pressure
  • 10.3.
  • Relationships Between Pressure, Temperature, Amount, and Volume
  • Atom
  • 10.4.
  • Ideal Gas Law
  • 10.5.
  • Mixtures of Gases
  • 10.6.
  • Gas Volumes and Stoichiometry
  • 10.7.
  • Kinetic Molecular Theory of Gases
  • 10.8.
  • Behavior of Real Gases
  • 1.6.
  • 11.
  • Liquids
  • 11.1.
  • Kinetic Molecular Description of Liquids
  • 11.2.
  • Intermolecular Forces
  • 11.3.
  • Unique Properties of Liquids
  • 11.4.
  • Vapor Pressure
  • Isotopes and Atomic Masses
  • 11.5.
  • Changes of State
  • 11.6.
  • Critical Temperature and Pressure
  • 11.7.
  • Phase Diagrams
  • 11.8.
  • Liquid Crystals
  • 12.
  • Solids
  • 1.7.
  • 12.1.
  • Crystalline and Amorphous Solids
  • 12.2.
  • Arrangement of Atoms in Crystalline Solids
  • 12.3.
  • Structures of Simple Binary Compounds
  • 12.4.
  • Defects in Crystals
  • 12.5.
  • Correlation Between Bonding and the Properties of Solids
  • Introduction to the Periodic Table
  • 12.6.
  • Bonding in Metals and Semiconductors
  • 12.7.
  • Superconductors
  • 12.8.
  • Polymeric Solids
  • 12.9^-
  • 10.2ns
  • Contemporary Materials
  • 13.
  • Part I.
  • 1.8.
  • Solutions
  • 13.1.
  • Factors Affecting Solution Formation
  • 13.2.
  • Solubility and Molecular Structure
  • 13.3.
  • Units of Concentration
  • 13.4.
  • Effects of Temperature and Pressure on Solubility
  • 13.5.
  • Essential Elements
  • Colligative Properties of Solutions
  • 13.6.
  • Aggregate Particles in Aqueous Solution
  • Part IV.
  • Kinetics and Equilibria
  • 14.
  • Chemical Kinetics
  • 14.1.
  • Factors That Affect Reaction Rates
  • 14.2.
  • 2.
  • Reaction Rates and Rate Laws
  • 14.3.
  • Methods of Determining Reaction Orders
  • 14.4.
  • Using Graphs to Determine Rate Laws, Rate Constants, and Reaction Orders
  • 14.5.
  • Half-Lives and Radioactive Decay Kinetics
  • 14.6.
  • Reaction Rates-A Microscopic View
  • 14.7.
  • Molecules, Ions, and Chemical Formulas
  • Collision Model of Chemical Kinetics
  • 14.8.
  • Catalysis
  • 15.
  • Chemical Equilibrium
  • 15.1.
  • Concept of Chemical Equilibrium
  • 15.2.
  • Equilibrium Constant
  • 15.3.
  • 2.1.
  • Solving Equilibrium Problems
  • 15.4^^-
  • 10.2ns
  • Nonequilibrium Conditions
  • 15.5.
  • Factors That Affect Equilibrium
  • 15.6.
  • Controlling the Products of Reactions
  • 16.
  • Aqueous Acid-Base Equilibria
  • Chemical Compounds
  • 16.1.
  • Autoionization of Water
  • 16.2.
  • Qualitative Description of Acid-Base Equilibria
  • 16.3.
  • Molecular Structure and Acid-Base Strength
  • 16.4.
  • Quantitative Aspects of Acid-Base Equilibria
  • 16.5.
  • Acid-Base Titrations
  • 2.2.
  • 16.6.
  • Buffers
  • 17.
  • Solubility and Complexation Equilibria
  • 17.1.
  • Determining the Solubility of Ionic Compounds
  • 17.2.
  • Factors That Affect Solubility
  • 17.3.
  • Complex-Ion Formation
  • Chemical Formulas
  • 17.4.
  • Solubility and pH
  • 17.5.
  • Qualitative Analysis Using Selective Precipitation
  • 18.
  • Chemical Thermodynamics
  • 18.1.
  • Thermodynamics and Work
  • 18.2.
  • First Law of Thermodynamics
  • 2.3.
  • 18.3.
  • Second Law of Thermodynamics
  • 18.4.
  • Entropy Changes and the Third Law of Thermodynamics
  • 18.5.
  • Free Energy
  • 18.6^
  • 15.4^^-
  • 10.2ns
  • Spontaneity and Equilibrium
  • Naming Ionic Compounds
  • 18.7.
  • Comparing Thermodynamics and Kinetics
  • 18.8.
  • Thermodynamics and Life
  • 19.
  • Electrochemistry
  • 19.1.
  • Describing Electrochemical Cells
  • 19.2.
  • Standard Potentials
  • Fundamental Concepts
  • 2.4.
  • 19.3.
  • Comparing Strengths of Oxidants and Reductants
  • 19.4.
  • Electrochemical Cells and Thermodynamics
  • 19.5.
  • Commercial Galvanic Cells
  • 19.6.
  • Corrosion
  • 19.7.
  • Electrolysis
  • Naming Covalent Compounds
  • 20.
  • Nuclear Chemistry
  • 20.1.
  • Components of the Nucleus
  • 20.2.
  • Nuclear Reactions
  • 20.3.
  • Interaction of Nuclear Radiation with Matter
  • 20.4.
  • Thermodynamic Stability of the Atomic Nucleus
  • 2.5.
  • 20.5.
  • Applied Nuclear Chemistry
  • 20.6.
  • Origin of the Elements
  • Part V.
  • Chemistry of the Elements
  • 21.
  • Periodic Trends and the s-Block Elements
  • 21.1.
  • Overview of Periodic Trends
  • Acids and Bases
  • 21.2.
  • Chemistry of Hydrogen
  • 21.3.
  • Alkali Metals (Group 1)
  • 21.4.
  • Alkaline Earth Metals (Group 2)
  • 21.5^^^-
  • 10.2ns
  • s-Block Elements in Biology
  • 22.
  • 2.6.
  • p-Block Elements
  • 22.1.
  • Elements of Group 13
  • 22.2.
  • Elements of Group 14
  • 22.3.
  • Elements of Group 15 (the Pnicogens)
  • 22.4.
  • Elements of Group 16 (the Chalcogens)
  • 22.5.
  • Industrially Important Chemicals
  • Elements of Group 17 (the Halogens)
  • 22.6.
  • Elements of Group 18 (the Noble Gases)
  • 23.
  • d-Block Elements
  • 23.1.
  • General Trends Among the Transition Metals
  • 23.2.
  • Brief Survey of Transition-Metal Chemistry
  • 23.3.
  • 3.
  • Metallurgy
  • 23.4.
  • Coordination Compounds
  • 23.5.
  • Crystal Field Theory
  • 23.6.
  • Transition Metals in Biology
  • 24.
  • Organic Compounds
  • 24.1.
  • Chemical Reactions
  • Functional Groups and Classes of Organic Compounds
  • 24.2.
  • Isomers of Organic Compounds
  • 24.3.
  • Reactivity of Organic Molecules
  • 24.4.
  • Common Classes of Organic Reactions
  • 24.5.
  • Common Classes of Organic Compounds
  • 24.6.
  • 3.1.
  • Molecules of Life
  • A.
  • Standard Thermodynamic Quantities for Chemical Substances at 25[degree]C
  • B.
  • Solubility-Product Constants (K[subscript sp]) for Compounds at 25[degree]C
  • C.
  • Dissociation Constants and pK[subscript a] Values for Acids at 25[degree]C
  • D.
  • Ionization Constants and pK[subscript b] Values for Bases at 25[degree]C
  • E.
  • Mole and Molar Masses
  • Standard Reduction Potentials at 25[degree]C
  • F.
  • Properties of Water
  • G.
  • Glossary
  • H.
  • Answers to Selected Problems
  • 1.
  • 3.2.
  • Determining Empirical and Molecular Formulas
  • 3.3.
  • Chemical Equations
  • 3.4.
  • Mass Relationships in Chemical Equations
  • 3.5.
  • Classifying Chemical Reactions
  • 3.6.
  • Chemical Reactions in the Atmosphere
  • Introduction to Chemistry
  • 4.
  • Reactions in Aqueous Solution
  • 4.1.
  • Aqueous Solutions
  • 4.2
  • Solution Concentrations
  • 4.3.
  • Stoichiometry of Reactions in Solution
  • 4.4.
  • Ionic Equations
  • 1.1.
  • 4.5.
  • Precipitation Reactions
  • 4.6.
  • Acid-Base Reactions
  • 4.7.
  • Chemistry of Acid Rain
  • 4.8.
  • Oxidation-Reduction Reactions in Solution
  • 4.9.
  • Quantitative Analysis Using Titrations
  • Chemistry in the Modern World
  • 5.
  • Energy Changes in Chemical Reactions
  • 5.1.
  • Energy and Work
  • 5.2.
  • Enthalpy
  • 5.3.
  • Calorimetry
  • 5.4.
  • Thermochemistry and Nutrition
  • 1.2.
  • 5.5.
  • Energy Sources and the Environment
  • Part II.
  • Atomic and Molecular Structure
  • 6.
  • Structure of Atoms
  • 6.1.
  • Waves and Electromagnetic Radiation
  • 6.2.
  • Quantization of Energy
  • Scientific Method
  • 6.3.
  • Atomic Spectra and Models of the Atom
  • 6.4.
  • Relationship Between Energy and Mass
  • 6.5.
  • Atomic Orbitals and Their Energies
  • 6.6.
  • Building Up the Periodic Table
  • 7.
  • Periodic Table and Periodic Trends
Dimensions
29 cm
Extent
xxxv, 1131, 75, 3, 24 pages
Isbn
9780321413703
Lccn
2005022980
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Note
Donated by Horace Luong.
Other physical details
illustrations (some color), portraits
System control number
  • (OCoLC)61247264
  • (OCoLC)ocm61247264
Label
Chemistry : principles, patterns, and applications, Bruce Averill, Patricia Eldredge ; with contributions by C. Alton Hassell, Daniel J. Stasko
Publication
Note
Includes index
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • 1.3.
  • 7.1.
  • History of the Periodic Table
  • 7.2.
  • Sizes of Atoms and Ions
  • 7.3.
  • Energetics of Ion Formation
  • 7.4.
  • Chemical Families
  • 7.5.
  • Trace Elements in Biological Systems
  • Description of Matter
  • 8.
  • Structure and Bonding I: Ionic Versus Covalent Bonding
  • 8.1.
  • Overview of Chemical Bonding
  • 8.2.
  • Ionic Bonding
  • 8.3.
  • Lattice Energies in Ionic Solids
  • 8.4.
  • Introduction to Lewis Electron Structures
  • 1.4.
  • 8.5.
  • Lewis Structures and Covalent Bonding
  • 8.6.
  • Exceptions to the Octet Rule
  • 8.7.
  • Lewis Acids and Bases
  • 8.8.
  • Properties of Covalent Bonds
  • 8.9.
  • Polar Covalent Bonds
  • Brief History of Chemistry
  • 9.
  • Structure and Bonding II: Molecular Geometry and Models of Covalent Bonding
  • 9.1.
  • Predicting the Geometry of Molecules and Polyatomic Ions
  • 9.2.
  • Localized Bonding and Hybrid Atomic Orbitals
  • 9.3.
  • Delocalized Bonding and Molecular Orbitals
  • 9.4.
  • Combining the Valence Bond and Molecular Orbital Approaches
  • 1.5.
  • Part III.
  • States of Matter
  • 10.
  • Gases
  • 10.1.
  • Gaseous Elements and Compounds
  • 10.2ns
  • Gas Pressure
  • 10.3.
  • Relationships Between Pressure, Temperature, Amount, and Volume
  • Atom
  • 10.4.
  • Ideal Gas Law
  • 10.5.
  • Mixtures of Gases
  • 10.6.
  • Gas Volumes and Stoichiometry
  • 10.7.
  • Kinetic Molecular Theory of Gases
  • 10.8.
  • Behavior of Real Gases
  • 1.6.
  • 11.
  • Liquids
  • 11.1.
  • Kinetic Molecular Description of Liquids
  • 11.2.
  • Intermolecular Forces
  • 11.3.
  • Unique Properties of Liquids
  • 11.4.
  • Vapor Pressure
  • Isotopes and Atomic Masses
  • 11.5.
  • Changes of State
  • 11.6.
  • Critical Temperature and Pressure
  • 11.7.
  • Phase Diagrams
  • 11.8.
  • Liquid Crystals
  • 12.
  • Solids
  • 1.7.
  • 12.1.
  • Crystalline and Amorphous Solids
  • 12.2.
  • Arrangement of Atoms in Crystalline Solids
  • 12.3.
  • Structures of Simple Binary Compounds
  • 12.4.
  • Defects in Crystals
  • 12.5.
  • Correlation Between Bonding and the Properties of Solids
  • Introduction to the Periodic Table
  • 12.6.
  • Bonding in Metals and Semiconductors
  • 12.7.
  • Superconductors
  • 12.8.
  • Polymeric Solids
  • 12.9^-
  • 10.2ns
  • Contemporary Materials
  • 13.
  • Part I.
  • 1.8.
  • Solutions
  • 13.1.
  • Factors Affecting Solution Formation
  • 13.2.
  • Solubility and Molecular Structure
  • 13.3.
  • Units of Concentration
  • 13.4.
  • Effects of Temperature and Pressure on Solubility
  • 13.5.
  • Essential Elements
  • Colligative Properties of Solutions
  • 13.6.
  • Aggregate Particles in Aqueous Solution
  • Part IV.
  • Kinetics and Equilibria
  • 14.
  • Chemical Kinetics
  • 14.1.
  • Factors That Affect Reaction Rates
  • 14.2.
  • 2.
  • Reaction Rates and Rate Laws
  • 14.3.
  • Methods of Determining Reaction Orders
  • 14.4.
  • Using Graphs to Determine Rate Laws, Rate Constants, and Reaction Orders
  • 14.5.
  • Half-Lives and Radioactive Decay Kinetics
  • 14.6.
  • Reaction Rates-A Microscopic View
  • 14.7.
  • Molecules, Ions, and Chemical Formulas
  • Collision Model of Chemical Kinetics
  • 14.8.
  • Catalysis
  • 15.
  • Chemical Equilibrium
  • 15.1.
  • Concept of Chemical Equilibrium
  • 15.2.
  • Equilibrium Constant
  • 15.3.
  • 2.1.
  • Solving Equilibrium Problems
  • 15.4^^-
  • 10.2ns
  • Nonequilibrium Conditions
  • 15.5.
  • Factors That Affect Equilibrium
  • 15.6.
  • Controlling the Products of Reactions
  • 16.
  • Aqueous Acid-Base Equilibria
  • Chemical Compounds
  • 16.1.
  • Autoionization of Water
  • 16.2.
  • Qualitative Description of Acid-Base Equilibria
  • 16.3.
  • Molecular Structure and Acid-Base Strength
  • 16.4.
  • Quantitative Aspects of Acid-Base Equilibria
  • 16.5.
  • Acid-Base Titrations
  • 2.2.
  • 16.6.
  • Buffers
  • 17.
  • Solubility and Complexation Equilibria
  • 17.1.
  • Determining the Solubility of Ionic Compounds
  • 17.2.
  • Factors That Affect Solubility
  • 17.3.
  • Complex-Ion Formation
  • Chemical Formulas
  • 17.4.
  • Solubility and pH
  • 17.5.
  • Qualitative Analysis Using Selective Precipitation
  • 18.
  • Chemical Thermodynamics
  • 18.1.
  • Thermodynamics and Work
  • 18.2.
  • First Law of Thermodynamics
  • 2.3.
  • 18.3.
  • Second Law of Thermodynamics
  • 18.4.
  • Entropy Changes and the Third Law of Thermodynamics
  • 18.5.
  • Free Energy
  • 18.6^
  • 15.4^^-
  • 10.2ns
  • Spontaneity and Equilibrium
  • Naming Ionic Compounds
  • 18.7.
  • Comparing Thermodynamics and Kinetics
  • 18.8.
  • Thermodynamics and Life
  • 19.
  • Electrochemistry
  • 19.1.
  • Describing Electrochemical Cells
  • 19.2.
  • Standard Potentials
  • Fundamental Concepts
  • 2.4.
  • 19.3.
  • Comparing Strengths of Oxidants and Reductants
  • 19.4.
  • Electrochemical Cells and Thermodynamics
  • 19.5.
  • Commercial Galvanic Cells
  • 19.6.
  • Corrosion
  • 19.7.
  • Electrolysis
  • Naming Covalent Compounds
  • 20.
  • Nuclear Chemistry
  • 20.1.
  • Components of the Nucleus
  • 20.2.
  • Nuclear Reactions
  • 20.3.
  • Interaction of Nuclear Radiation with Matter
  • 20.4.
  • Thermodynamic Stability of the Atomic Nucleus
  • 2.5.
  • 20.5.
  • Applied Nuclear Chemistry
  • 20.6.
  • Origin of the Elements
  • Part V.
  • Chemistry of the Elements
  • 21.
  • Periodic Trends and the s-Block Elements
  • 21.1.
  • Overview of Periodic Trends
  • Acids and Bases
  • 21.2.
  • Chemistry of Hydrogen
  • 21.3.
  • Alkali Metals (Group 1)
  • 21.4.
  • Alkaline Earth Metals (Group 2)
  • 21.5^^^-
  • 10.2ns
  • s-Block Elements in Biology
  • 22.
  • 2.6.
  • p-Block Elements
  • 22.1.
  • Elements of Group 13
  • 22.2.
  • Elements of Group 14
  • 22.3.
  • Elements of Group 15 (the Pnicogens)
  • 22.4.
  • Elements of Group 16 (the Chalcogens)
  • 22.5.
  • Industrially Important Chemicals
  • Elements of Group 17 (the Halogens)
  • 22.6.
  • Elements of Group 18 (the Noble Gases)
  • 23.
  • d-Block Elements
  • 23.1.
  • General Trends Among the Transition Metals
  • 23.2.
  • Brief Survey of Transition-Metal Chemistry
  • 23.3.
  • 3.
  • Metallurgy
  • 23.4.
  • Coordination Compounds
  • 23.5.
  • Crystal Field Theory
  • 23.6.
  • Transition Metals in Biology
  • 24.
  • Organic Compounds
  • 24.1.
  • Chemical Reactions
  • Functional Groups and Classes of Organic Compounds
  • 24.2.
  • Isomers of Organic Compounds
  • 24.3.
  • Reactivity of Organic Molecules
  • 24.4.
  • Common Classes of Organic Reactions
  • 24.5.
  • Common Classes of Organic Compounds
  • 24.6.
  • 3.1.
  • Molecules of Life
  • A.
  • Standard Thermodynamic Quantities for Chemical Substances at 25[degree]C
  • B.
  • Solubility-Product Constants (K[subscript sp]) for Compounds at 25[degree]C
  • C.
  • Dissociation Constants and pK[subscript a] Values for Acids at 25[degree]C
  • D.
  • Ionization Constants and pK[subscript b] Values for Bases at 25[degree]C
  • E.
  • Mole and Molar Masses
  • Standard Reduction Potentials at 25[degree]C
  • F.
  • Properties of Water
  • G.
  • Glossary
  • H.
  • Answers to Selected Problems
  • 1.
  • 3.2.
  • Determining Empirical and Molecular Formulas
  • 3.3.
  • Chemical Equations
  • 3.4.
  • Mass Relationships in Chemical Equations
  • 3.5.
  • Classifying Chemical Reactions
  • 3.6.
  • Chemical Reactions in the Atmosphere
  • Introduction to Chemistry
  • 4.
  • Reactions in Aqueous Solution
  • 4.1.
  • Aqueous Solutions
  • 4.2
  • Solution Concentrations
  • 4.3.
  • Stoichiometry of Reactions in Solution
  • 4.4.
  • Ionic Equations
  • 1.1.
  • 4.5.
  • Precipitation Reactions
  • 4.6.
  • Acid-Base Reactions
  • 4.7.
  • Chemistry of Acid Rain
  • 4.8.
  • Oxidation-Reduction Reactions in Solution
  • 4.9.
  • Quantitative Analysis Using Titrations
  • Chemistry in the Modern World
  • 5.
  • Energy Changes in Chemical Reactions
  • 5.1.
  • Energy and Work
  • 5.2.
  • Enthalpy
  • 5.3.
  • Calorimetry
  • 5.4.
  • Thermochemistry and Nutrition
  • 1.2.
  • 5.5.
  • Energy Sources and the Environment
  • Part II.
  • Atomic and Molecular Structure
  • 6.
  • Structure of Atoms
  • 6.1.
  • Waves and Electromagnetic Radiation
  • 6.2.
  • Quantization of Energy
  • Scientific Method
  • 6.3.
  • Atomic Spectra and Models of the Atom
  • 6.4.
  • Relationship Between Energy and Mass
  • 6.5.
  • Atomic Orbitals and Their Energies
  • 6.6.
  • Building Up the Periodic Table
  • 7.
  • Periodic Table and Periodic Trends
Dimensions
29 cm
Extent
xxxv, 1131, 75, 3, 24 pages
Isbn
9780321413703
Lccn
2005022980
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Note
Donated by Horace Luong.
Other physical details
illustrations (some color), portraits
System control number
  • (OCoLC)61247264
  • (OCoLC)ocm61247264

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    49.809961 -97.131878
  • Bibliothèque Alfred-Monnin (Université de Saint-Boniface)Borrow it
    200, avenue de la Cathédrale, Local 2110, Winnipeg, MB, R2H 0H7, CA
    49.888861 -97.119735
  • Bill Larson Library (Grace Hospital)Borrow it
    300 Booth Drive, G-227, Winnipeg, MB, R3J 3M7, CA
    49.882400 -97.276436
  • Carolyn Sifton - Helene Fuld Library (St. Boniface General Hospital)Borrow it
    409 Tache Avenue, Winnipeg, MB, R2H 2A6, CA
    49.883388 -97.126050
  • Concordia Hospital LibraryBorrow it
    1095 Concordia Avenue, Winnipeg, MB, R2K 3S8, CA
    49.913252 -97.064683
  • Donald W. Craik Engineering LibraryBorrow it
    75B Chancellors Circle (Engineering Building E3), Room 361, Winnipeg, MB, R3T 2N2, CA
    49.809053 -97.133292
  • E.K. Williams Law LibraryBorrow it
    224 Dysart Road, Winnipeg, MB, R3T 5V4, CA
    49.811829 -97.131017
  • Eckhardt-Gramatté Music LibraryBorrow it
    136 Dafoe Road (Taché Arts Complex), Room 257, Winnipeg, MB, R3T 2N2, CA
    49.807964 -97.132222
  • Elizabeth Dafoe LibraryBorrow it
    25 Chancellors Circle, Winnipeg, MB, R3T 2N2, CA
    49.809961 -97.131878
  • Fr. H. Drake Library (St. Paul's College)Borrow it
    70 Dysart Road, Winnipeg, MB, R3T 2M6, CA
    49.810605 -97.138184
  • J.W. Crane Memorial Library (Deer Lodge Centre)Borrow it
    2109 Portage Avenue, Winnipeg, MB, R3J 0L3, CA
    49.878000 -97.235520
  • Libraries Annex (not open to the public; please see web page for details)Borrow it
    25 Chancellors Circle (in the Elizabeth Dafoe Library), Winnipeg, MB, R3T 2N2, CA
    49.809961 -97.131878
  • Neil John Maclean Health Sciences LibraryBorrow it
    727 McDermot Avenue (Brodie Centre), 200 Level, Winnipeg, MB, R3E 3P5, CA
    49.903563 -97.160554
  • Sciences and Technology LibraryBorrow it
    186 Dysart Road, Winnipeg, MB, R3T 2M8, CA
    49.811526 -97.133257
  • Seven Oaks General Hospital LibraryBorrow it
    2300 McPhillips Street, Winnipeg, MB, R2V 3M3, CA
    49.955177 -97.148865
  • Sister St. Odilon Library (Misericordia Health Centre)Borrow it
    99 Cornish Avenue, Winnipeg, MB, R3C 1A2, CA
    49.879592 -97.160425
  • St. John's College LibraryBorrow it
    92 Dysart Road, Winnipeg, MB, R3T 2M5, CA
    49.811242 -97.137156
  • Victoria General Hospital LibraryBorrow it
    2340 Pembina Highway, Winnipeg, MB, R3T 2E8, CA
    49.806755 -97.152739
  • William R Newman Library (Agriculture)Borrow it
    66 Dafoe Road, Winnipeg, MB, R3T 2R3, CA
    49.806936 -97.135525
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