RETURN TO SEARCH RESULTS
Inquiry into Physical Science: A Contextual Approach Volume 2: Kitchen Science: Will Science Be a Guest at Your Next Dinner?

Inquiry into Physical Science: A Contextual Approach Volume 2: Kitchen Science: Will Science Be a Guest at Your Next Dinner?

Author(s): Roger Nanes

Edition: 2

Copyright: 2008

Pages: 302

Choose Your Format

Print

$57.89

ISBN 9780757587344

Details Print Product Only (SA,CP, Pak, all Print)

Faculty Review Copy

  New material in this edition includes:

  • An expanded discussion of elements, mixtures, and compounds, including a discussion of heterogeneous and homogeneous mixtures.
  • A new Activity and a new Making Connections exercise on Elements, Mixtures and Compounds
  • A new version of the Making Connections exercise on the Classification of Matter.
The Activity and the accompanying Making Connections exercise on the Electrolysis of Water have been extensively overhauled.

 

Kitchen Science

Leading Question: Will Science Be a Guest at Your Next Dinner?

 

Chapter 1

Know Your Ingredients

 

Preface--A Message to the Student

1.1 Introduction

1.2 Classification of Matter

1.2.1 Element, Mixture, or Compound 

1.2.2 Separation of a Mixture 

Making Connections: Element, Mixture, Compound 

1.2.3 Is It Physical or Chemical? 

Making Connections: Classification of Matter 

1.3 Atomic Theory

1.3.1 The Mystery Box 

1.4 The Modern View of the Atom

1.4.1 Static Electricity 

1.4.2 The Atomic "Staircase" 

Making Connections: Atomic Spectra 

1.5 The Periodic Table--The Chemist's "Spice Rack"

1.5.1 Patterns in Nature 

1.5.2 The Periodic Table 

1.5.3 Valence, The Combining Power of Atoms 

Making Connections: The Periodic Table 

Enlarged Version of Periodic Table 

Appendix 

 

Chapter 2

How Much Does the Recipe Call For?

 

2.1 Introduction

2.2 Mass--A Weighty Subject

2.2.1 The Law of Definite Proportions 

2.3 Relative Mass

2.3.1 Relative Mass 

2.3.2 Electrolysis of Water 

Making Connections: Electrolysis of Water 

2.4 The Mole Concept

2.4.1 What is a Passel? 

2.4.2 The Mole Concept 

2.4.3 The Reaction of Iron with Copper Chloride 

Making Connections: The Mole Concept 

 

Chapter 3

Cooking Our Foods

 

3.1 Introduction

3.2 Heat Transfer Revisited

Electromagnetic Radiation

Conduction

Interactive Demonstration--A Student Model for Conduction 

Interactive Demonstrations--Conduction 

Convection

Interactive Demonstrations--Convection 

Making Connections: Conduction, Convection and Radiation 

3.3 The Chemical Bond--Nature's Glue

Metallic Bonding

Pots and Pans--The Utensils That We Cook With

Ironic Bonding

3.3.1 Ionic Bonding 

Covalent Bonding

3.3.2 Covalent Bonding 

3.3.3 The Shape of Molecules 

Hydrogen Bonding

Making Connections: Chemical Bonding 

3.4 How Do We Cook Our Foods?

Moist-Heat Cooking

Dry-Heat Cooking

Broiling, Toasting, Barbequing

Roasting, Baking

Frying

Microwave Cooking

 

Chapter 4

The Foods We Eat

 

4.1 Introduction

4.2 Water

Boiling and Freezing

4.2.1 Solid, Liquid, Gas--How Do They Differ? 

4.2.2 Heating Water: A Temperature "History" 

4.2.3 Latent Heat of Fusion: Is It Melting or Freezing? 

4.2.4 Is the Boiling and Melting of Water Abnormal? 

Making Connections: Latent Heat of Fusion and Vaporization 

Specific Heat

4.2.5(I) Heat Capacity and Specific Heat/Part 1 

4.2.5(II) Heat Capacity and Specific Heat/Part 2 

Making connections: Heat Capacity and Specific Heat 

Is Water an Acid or a Base?

4.2.6 Household Items--Acid or Base? 

4.2.7 Household Items--What is the PH? 

4.3 Energy in Food

4.3.1 Measuring the Energy content of Food 

4.3.2 Exercise--Why Bother? 

4.4 Carbohydrates

4.4.1 Which "Carbs" are Present? 

4.4.2 Sugar in Soft Drinks and Fruit Juices 

4.5 Fats

4.5.1 Why Is Fat Such a Good Fuel? 

4.5.2 Fatty Acids 

4.5.3 Tests for Fats and Oils 

4.6 Proteins

4.6.1 Test for Protein 

Making Connections: Carbohydrates, Fats, Proteins 

 

Appendix

"Fold-Up Chemistry"

Foldable cut-outs to illustrate condensation reactions of carbohydrates and fats. 

 

Appendix 1: "Underpinnings" (from Chapter 1, Volume 1)

1.1  Fundamental vs. Derived Properties

1.2  Units

1.3  Area

1.4  Volume

1.4.1  Measuring Volume 

Making Connections:  Area and Volume 

1.5  Ratios

1.6  Density

1.6.1  Understanding Density 

1.7  Exponential Notation

Making Connections:  The Arithmetic of Exponential Numbers 

1.8  Straight Line Graphs

1.8.1  Graph­i­cal Anal­y­sis of Mass vs. Vol­ume 

1.9  Curved Graphs

1.9.1  Height of Liq­uid in a Con­tain­er vs. Vol­ume 

Making Connections:  Density and Graphical Analysis 

1.10  Let's Keep Things in Proportion

1.10.1  Understanding Proportions 

 

Appendix 2: "Energy" (Excerpted from Chapter 2, Volume 1)

2.1  The "Money" of Nature

2.2  Storage, Transfer, and Transformation of Energy
Roger Nanes

  New material in this edition includes:

  • An expanded discussion of elements, mixtures, and compounds, including a discussion of heterogeneous and homogeneous mixtures.
  • A new Activity and a new Making Connections exercise on Elements, Mixtures and Compounds
  • A new version of the Making Connections exercise on the Classification of Matter.
The Activity and the accompanying Making Connections exercise on the Electrolysis of Water have been extensively overhauled.

 

Kitchen Science

Leading Question: Will Science Be a Guest at Your Next Dinner?

 

Chapter 1

Know Your Ingredients

 

Preface--A Message to the Student

1.1 Introduction

1.2 Classification of Matter

1.2.1 Element, Mixture, or Compound 

1.2.2 Separation of a Mixture 

Making Connections: Element, Mixture, Compound 

1.2.3 Is It Physical or Chemical? 

Making Connections: Classification of Matter 

1.3 Atomic Theory

1.3.1 The Mystery Box 

1.4 The Modern View of the Atom

1.4.1 Static Electricity 

1.4.2 The Atomic "Staircase" 

Making Connections: Atomic Spectra 

1.5 The Periodic Table--The Chemist's "Spice Rack"

1.5.1 Patterns in Nature 

1.5.2 The Periodic Table 

1.5.3 Valence, The Combining Power of Atoms 

Making Connections: The Periodic Table 

Enlarged Version of Periodic Table 

Appendix 

 

Chapter 2

How Much Does the Recipe Call For?

 

2.1 Introduction

2.2 Mass--A Weighty Subject

2.2.1 The Law of Definite Proportions 

2.3 Relative Mass

2.3.1 Relative Mass 

2.3.2 Electrolysis of Water 

Making Connections: Electrolysis of Water 

2.4 The Mole Concept

2.4.1 What is a Passel? 

2.4.2 The Mole Concept 

2.4.3 The Reaction of Iron with Copper Chloride 

Making Connections: The Mole Concept 

 

Chapter 3

Cooking Our Foods

 

3.1 Introduction

3.2 Heat Transfer Revisited

Electromagnetic Radiation

Conduction

Interactive Demonstration--A Student Model for Conduction 

Interactive Demonstrations--Conduction 

Convection

Interactive Demonstrations--Convection 

Making Connections: Conduction, Convection and Radiation 

3.3 The Chemical Bond--Nature's Glue

Metallic Bonding

Pots and Pans--The Utensils That We Cook With

Ironic Bonding

3.3.1 Ionic Bonding 

Covalent Bonding

3.3.2 Covalent Bonding 

3.3.3 The Shape of Molecules 

Hydrogen Bonding

Making Connections: Chemical Bonding 

3.4 How Do We Cook Our Foods?

Moist-Heat Cooking

Dry-Heat Cooking

Broiling, Toasting, Barbequing

Roasting, Baking

Frying

Microwave Cooking

 

Chapter 4

The Foods We Eat

 

4.1 Introduction

4.2 Water

Boiling and Freezing

4.2.1 Solid, Liquid, Gas--How Do They Differ? 

4.2.2 Heating Water: A Temperature "History" 

4.2.3 Latent Heat of Fusion: Is It Melting or Freezing? 

4.2.4 Is the Boiling and Melting of Water Abnormal? 

Making Connections: Latent Heat of Fusion and Vaporization 

Specific Heat

4.2.5(I) Heat Capacity and Specific Heat/Part 1 

4.2.5(II) Heat Capacity and Specific Heat/Part 2 

Making connections: Heat Capacity and Specific Heat 

Is Water an Acid or a Base?

4.2.6 Household Items--Acid or Base? 

4.2.7 Household Items--What is the PH? 

4.3 Energy in Food

4.3.1 Measuring the Energy content of Food 

4.3.2 Exercise--Why Bother? 

4.4 Carbohydrates

4.4.1 Which "Carbs" are Present? 

4.4.2 Sugar in Soft Drinks and Fruit Juices 

4.5 Fats

4.5.1 Why Is Fat Such a Good Fuel? 

4.5.2 Fatty Acids 

4.5.3 Tests for Fats and Oils 

4.6 Proteins

4.6.1 Test for Protein 

Making Connections: Carbohydrates, Fats, Proteins 

 

Appendix

"Fold-Up Chemistry"

Foldable cut-outs to illustrate condensation reactions of carbohydrates and fats. 

 

Appendix 1: "Underpinnings" (from Chapter 1, Volume 1)

1.1  Fundamental vs. Derived Properties

1.2  Units

1.3  Area

1.4  Volume

1.4.1  Measuring Volume 

Making Connections:  Area and Volume 

1.5  Ratios

1.6  Density

1.6.1  Understanding Density 

1.7  Exponential Notation

Making Connections:  The Arithmetic of Exponential Numbers 

1.8  Straight Line Graphs

1.8.1  Graph­i­cal Anal­y­sis of Mass vs. Vol­ume 

1.9  Curved Graphs

1.9.1  Height of Liq­uid in a Con­tain­er vs. Vol­ume 

Making Connections:  Density and Graphical Analysis 

1.10  Let's Keep Things in Proportion

1.10.1  Understanding Proportions 

 

Appendix 2: "Energy" (Excerpted from Chapter 2, Volume 1)

2.1  The "Money" of Nature

2.2  Storage, Transfer, and Transformation of Energy

Roger Nanes
Roger Nanes