Chapter 6 Opener

Figure 6.1 The Concept of Coupling Reactions

Figure 6.1 The Concept of Coupling Reactions

Figure 6.2 ATP

Figure 6.2 ATP

In-Text Art, Ch. 6, p. 102 (1)

Figure 6.3 Oxidation, Reduction, and Energy

In-Text Art, Ch. 6, p. 102 (2)

In-Text Art, Ch. 6, p. 102 (2)

Figure 6.4 NAD+/NADH Is an Electron Carrier in Redox Reactions

Figure 6.4 NAD+/NADH Is an Electron Carrier in Redox Reactions

Figure 6.4 NAD+/NADH Is an Electron Carrier in Redox Reactions (Part 1)

Figure 6.4 NAD+/NADH Is an Electron Carrier in Redox Reactions (Part 2)

Figure 6.5 Chemiosmosis

Figure 6.5 Chemiosmosis

Figure 6.5 Chemiosmosis (Part 1)

Figure 6.5 Chemiosmosis (Part 2)

Figure 6.6 An Experiment Demonstrates the Chemiosmotic Mechanism

Figure 6.6 An Experiment Demonstrates the Chemiosmotic Mechanism

Figure 6.6 An Experiment Demonstrates the Chemiosmotic Mechanism (Part 1)

Figure 6.6 An Experiment Demonstrates the Chemiosmotic Mechanism (Part 2)

Figure 6.7 ATP, Reduced Coenzymes, and Metabolism

Figure 6.7 ATP, Reduced Coenzymes, and Metabolism

Figure 6.8 Energy Metabolism Occurs in Small Steps

Figure 6.8 Energy Metabolism Occurs in Small Steps

Figure 6.9 Energy-Releasing Metabolic Pathways

In-Text Art, Ch. 6, p. 107

Figure 6.10 Glycolysis Converts Glucose into Pyruvate

Figure 6.10 Glycolysis Converts Glucose into Pyruvate

Figure 6.10 Glycolysis Converts Glucose into Pyruvate (Part 1)

Figure 6.10 Glycolysis Converts Glucose into Pyruvate (Part 2)

Figure 6.10 Glycolysis Converts Glucose into Pyruvate (Part 3)

In-Text Art, Ch. 6, p. 108 (1)

In-Text Art, Ch. 6, p. 108 (2)

Figure 6.11 The Citric Acid Cycle

Figure 6.11 The Citric Acid Cycle

Figure 6.12 Electron Transport and ATP Synthesis in Mitochondria

Figure 6.12 Electron Transport and ATP Synthesis in Mitochondria

Apply the Concept, Ch. 6, p. 109

Figure 6.13 Fermentation

Figure 6.13 Fermentation (Part 1)

Figure 6.13 Fermentation (Part 2)

Figure 6.14 Relationships among the Major Metabolic Pathways of the Cell

Figure 6.15 An Overview of Photosynthesis

Figure 6.16 The Electromagnetic Spectrum

Figure 6.16 The Electromagnetic Spectrum

In-Text Art, Ch. 6, p. 114

Figure 6.17 Absorption and Action Spectra

Figure 6.17 Absorption and Action Spectra

Figure 6.18 The Molecular Structure of Chlorophyll

Figure 6.18 The Molecular Structure of Chlorophyll

Figure 6.18 The Molecular Structure of Chlorophyll (Part 1)

Figure 6.18 The Molecular Structure of Chlorophyll (Part 2)

Figure 6.19 Noncyclic Electron Transport Uses Two Photosystems

Figure 6.19 Noncyclic Electron Transport Uses Two Photosystems

Apply the Concept, Ch. 6, p. 117

Figure 6.20 Cyclic Electron Transport Traps Light Energy as ATP

Figure 6.20 Cyclic Electron Transport Traps Light Energy as ATP

Figure 6.21 The Calvin Cycle

Figure 6.21 The Calvin Cycle

Figure 6.22 RuBP Is the Carbon Dioxide Acceptor

Figure 6.22 RuBP Is the Carbon Dioxide Acceptor

In-Text Art, Ch. 6, p. 119

Figure 6.23 Products of Glucose Metabolism