Description

Book Synopsis

About our authors

LAURA FROST is a Professor of Chemistry at Florida Gulf Coast University and Director of the Whitaker Center for Science, Technology, Engineering, and Mathematics (STEM) Education. She received a bachelor's degree in chemistry from Kutztown University and her Ph.D. in chemistry with a biophysical focus from the University of Pennsylvania. She has been teaching chemistry in higher education for over 20 years and continues to teach chemistry to students in the health professions.

Professor Frost is actively engaged in the teaching and learning in all STEM subjects, particularly chemistry, and uses a guided inquiry approach in her classes. She is very involved in the scholarship of teaching and learning and has demonstrated that the use of inquiry-based activities increases student learning in her one-semester chemistry course for health professionals.

Dr. Frost is a member of the American Chemical Society and its Chemical Edu

Table of Contents

1. Chemistry Basics - Matter and Measurement
1.1 Classifying Matter: Pure Substance or Mixture
1.2 Elements, Compounds, and Periodic Table
1.3 How matter Changes
1.4 Math Counts
1.5 Matter: The "Stuff" of Chemistry
1.6 Measuring Matter

2. Atoms and Radioactivity
2.1 Atoms and Their Components
2.2 Atomic Number and Mass Number
2.3 Isotopes and Atomic Mass
2.4 Radioactivity and Radioisotopes
2.5 Nuclear Equations and Radioactive Decay
2.6 Radiation Units and Half-Lives
2.7 Medical Applications for Radioisotopes

3. Compounds - How Elements Combine
3.1 Electron Arrangements and the Octet Rule
3.2 In Search of an Octet, Part 1: Ion Formation
3.3 Ionic Compounds- Electron Give and Take
3.4 In Search of an Octet, Part 2: Covalent Bond Formation
3.5 The Mole: Counting Atoms and Compounds
3.6 Getting Covalent Compounds into Shape
3.7 Electronegativity and Molecular Polarity

4. Introduction to Organic Compounds
4.1 Representing the Structures of Organic Compounds
4.2 Alkanes: The Simplest Organic Compounds
4.3 Families of Organic Compounds- Functional Groups
4.4 Nomenclature of Simple Alkanes
4.5 Isomerism in Organic Compounds

5. Chemical Reactions
5.1 Thermodynamics
5.2 Chemical Reactions: Kinetics
5.3 Overview of Chemical Reactions
5.4 Oxidation and Reduction
5.5 Organic Reactions: Condensation and Hydrolysis
5.6 Organic Addition Reactions to Alkenes

6. Carbohydrates - Life's Sweet Molecules
6.1 Classes of Carbohydrates
6.2 Function Groups in Monosaccharides
6.3 Stereochemistry in Monosaccharides
6.4 Reactions of Monosaccharides
6.5 Disaccharides
6.6 Polysaccharides
6.7 Carbohydrates and Blood

7. States of Matter and Their Attractive Forces: Gas Laws, Solubility, and Applications to the Cell Membrane
7.1 Gases and Gas Laws
7.2 Liquids and Solids: Predicting Properties Through Attractive Forces
7.3 Attractive Forces and Solubility
7.4 Dietary Lipids
7.5 Attractive Forces and the Cell Membrane

8. Solution Chemistry - Sugar and Water Do Mix
8.1 Solutions Are Mixtures
8.2 Formation of Solutions
8.3 Chemical Equations for Solution Formation
8.4 Concentration
8.5 Dilution
8.6 Osmosis and Diffusion
8.7 Transport Across

9. Acids, Bases, and Buffers in the Body
9.1 Acids and Bases- Definitions
9.2 Strong Acids and Bases
9.3 Chemical Equilibrium
9.4 Weak Acids and Bases
9.5 pH and the pH Scale
9.6 pKa
9.7 The Relationship Between pH, pKa, Drug Solubility, and Diffusion
9.8 Buffers and Blood- The Bicarbonate Buffer System

10. Proteins - Workers of the Cell
10.1 Amino Acids- The Building Blocks
10.2 Protein Formation
10.3 The Three-Dimensional Structure of Proteins
10.4 Denaturation of Proteins
10.5 Protein Functions
10.6 Enzymes - Life's Catalysts
10.7 Factors That Affect Enzyme Activity

11. Nucleic Acids - Big Molecules with a Big Role
11.1 Components of Nucleic Acids
11.2 Nucleic Acid Formation
11.3 DNA
11.4 RNA and Protein Synthesis
11.5 Putting It Together: The Genetic Code and Protein Synthesis
11.6 Genetic Mutations
11.7 Viruses
11.8 Recombinant DNA Technology

12. Food as Fuel - An Overview of Metabolism
12.1 How Metabolism Works
12.2 Metabolically Relevant Nucleotides
12.3 Digestion - From Food Molecules to Hydrolysis Products
12.4 Glycolysis - From Hydrolysis Production to Common Metabolites
12.5 The Citric Acid Cycle - Central Processing
12.6 Electron Transport and Oxidative Phosphorylation
12.7 ATP Production
12.8 Other Fuel Choices

General Organic and Biological Chemistry

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    Publisher: Pearson Education (US)
    Publication Date: 11/01/2019
    ISBN13: 9780134988696, 978-0134988696
    ISBN10: 0134988698
    Also in:
    Science & Nature Chemistry

    Description

    Book Synopsis

    About our authors

    LAURA FROST is a Professor of Chemistry at Florida Gulf Coast University and Director of the Whitaker Center for Science, Technology, Engineering, and Mathematics (STEM) Education. She received a bachelor's degree in chemistry from Kutztown University and her Ph.D. in chemistry with a biophysical focus from the University of Pennsylvania. She has been teaching chemistry in higher education for over 20 years and continues to teach chemistry to students in the health professions.

    Professor Frost is actively engaged in the teaching and learning in all STEM subjects, particularly chemistry, and uses a guided inquiry approach in her classes. She is very involved in the scholarship of teaching and learning and has demonstrated that the use of inquiry-based activities increases student learning in her one-semester chemistry course for health professionals.

    Dr. Frost is a member of the American Chemical Society and its Chemical Edu

    Table of Contents

    1. Chemistry Basics - Matter and Measurement
    1.1 Classifying Matter: Pure Substance or Mixture
    1.2 Elements, Compounds, and Periodic Table
    1.3 How matter Changes
    1.4 Math Counts
    1.5 Matter: The "Stuff" of Chemistry
    1.6 Measuring Matter

    2. Atoms and Radioactivity
    2.1 Atoms and Their Components
    2.2 Atomic Number and Mass Number
    2.3 Isotopes and Atomic Mass
    2.4 Radioactivity and Radioisotopes
    2.5 Nuclear Equations and Radioactive Decay
    2.6 Radiation Units and Half-Lives
    2.7 Medical Applications for Radioisotopes

    3. Compounds - How Elements Combine
    3.1 Electron Arrangements and the Octet Rule
    3.2 In Search of an Octet, Part 1: Ion Formation
    3.3 Ionic Compounds- Electron Give and Take
    3.4 In Search of an Octet, Part 2: Covalent Bond Formation
    3.5 The Mole: Counting Atoms and Compounds
    3.6 Getting Covalent Compounds into Shape
    3.7 Electronegativity and Molecular Polarity

    4. Introduction to Organic Compounds
    4.1 Representing the Structures of Organic Compounds
    4.2 Alkanes: The Simplest Organic Compounds
    4.3 Families of Organic Compounds- Functional Groups
    4.4 Nomenclature of Simple Alkanes
    4.5 Isomerism in Organic Compounds

    5. Chemical Reactions
    5.1 Thermodynamics
    5.2 Chemical Reactions: Kinetics
    5.3 Overview of Chemical Reactions
    5.4 Oxidation and Reduction
    5.5 Organic Reactions: Condensation and Hydrolysis
    5.6 Organic Addition Reactions to Alkenes

    6. Carbohydrates - Life's Sweet Molecules
    6.1 Classes of Carbohydrates
    6.2 Function Groups in Monosaccharides
    6.3 Stereochemistry in Monosaccharides
    6.4 Reactions of Monosaccharides
    6.5 Disaccharides
    6.6 Polysaccharides
    6.7 Carbohydrates and Blood

    7. States of Matter and Their Attractive Forces: Gas Laws, Solubility, and Applications to the Cell Membrane
    7.1 Gases and Gas Laws
    7.2 Liquids and Solids: Predicting Properties Through Attractive Forces
    7.3 Attractive Forces and Solubility
    7.4 Dietary Lipids
    7.5 Attractive Forces and the Cell Membrane

    8. Solution Chemistry - Sugar and Water Do Mix
    8.1 Solutions Are Mixtures
    8.2 Formation of Solutions
    8.3 Chemical Equations for Solution Formation
    8.4 Concentration
    8.5 Dilution
    8.6 Osmosis and Diffusion
    8.7 Transport Across

    9. Acids, Bases, and Buffers in the Body
    9.1 Acids and Bases- Definitions
    9.2 Strong Acids and Bases
    9.3 Chemical Equilibrium
    9.4 Weak Acids and Bases
    9.5 pH and the pH Scale
    9.6 pKa
    9.7 The Relationship Between pH, pKa, Drug Solubility, and Diffusion
    9.8 Buffers and Blood- The Bicarbonate Buffer System

    10. Proteins - Workers of the Cell
    10.1 Amino Acids- The Building Blocks
    10.2 Protein Formation
    10.3 The Three-Dimensional Structure of Proteins
    10.4 Denaturation of Proteins
    10.5 Protein Functions
    10.6 Enzymes - Life's Catalysts
    10.7 Factors That Affect Enzyme Activity

    11. Nucleic Acids - Big Molecules with a Big Role
    11.1 Components of Nucleic Acids
    11.2 Nucleic Acid Formation
    11.3 DNA
    11.4 RNA and Protein Synthesis
    11.5 Putting It Together: The Genetic Code and Protein Synthesis
    11.6 Genetic Mutations
    11.7 Viruses
    11.8 Recombinant DNA Technology

    12. Food as Fuel - An Overview of Metabolism
    12.1 How Metabolism Works
    12.2 Metabolically Relevant Nucleotides
    12.3 Digestion - From Food Molecules to Hydrolysis Products
    12.4 Glycolysis - From Hydrolysis Production to Common Metabolites
    12.5 The Citric Acid Cycle - Central Processing
    12.6 Electron Transport and Oxidative Phosphorylation
    12.7 ATP Production
    12.8 Other Fuel Choices

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