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General, Organic and Biochemistry, 6e
Denniston/Topping/Caret
1 Significant Figures TA 1.2, Page 13
2 Precision and Accuracy Figure 1.7
3 Relationship Among Various Volume Units
Figure 1.9
4 Three Common Units of Temperature Figure 1.11
5 Density—A Unique Property of Material
Figure 1.12
6 Classification of Matter Figure 1.5
7 Experiment Demonstrating the Charge of Cathode Rays Figure 2.3
8 Alpha Particle Scattering Experiment Figure 2.4
9 Electromagnetic Spectrum Figure 2.7
10 Bohr Representation of Atoms Figure 2.9
11 Variation in Size of Atoms Figure 2.15
12 Ionization Energies of the First Forty Elements Figure 2.17
13 Arrangement of Ions in a Crystal of NaCl Figure 3.2
14 The Interaction of Polar Covalent Water Molecules with Ammonia Figure 3.13
15 Interconversion Between Numbers of Moles, Particles, and Grams Figure 4.2
16 General Problem-Solving Strategy Figure 4.7
17 Illustration of Boyle’s Law Figure 5.3
18 Illustration of Charles’ Law Figure 5.4
19 Hydrogen Bonding in Water Figure 5.8
20 Equilibrium of Osmosis Figure 6.3
21 Effects of Hypertonic and Hypotonic Solutions on the Cell Figure 6.4
22 A Graphical Representation of a Chemical Reaction Figure 7.7
23 Illustration of Chemical Change Over Time Figure 7.8
24 Change in Potential Energy for an Exothermic Reaction and Endothermic Reaction Figure 7.10
25 Effect of a Catalyst on Activation Energy Figure 7.11
26 Conjugate Acid-Base Pairs Figure 8.2
27 A Galvanic Cell Figure 8.8
28 Decay Curve for Medically Useful Isotope Technetium-99m Figure 9.2
29 Fission of Uranium-235 Producing a Chain Reaction Figure 9.4
30 Family of Hydrocarbons Divided into Aliphatic and Aromatic Classes Figure 10.2
31 Common Functional Groups Table 10.2
32 Tetrahedral Carbon Atom Figure 10.3
33 Molecular Models of Hydrocarbons Figure 10.4
34 Conformational Isomers of Ethane and Butane Figure 10.6
35 Molecular Models of Ethane, Ethene, and Ethyne TA 11.1 page 342
36 cis-9-octadecenoic acid TA 11.10 page 370; trans-9-octadecenoic acid TA 11.11 page 371
37 Some Important Addition Polymers of Alkenes Table 11.2
38 Benzene Molecule Figure 11.7
39 Hydrogen Bonding Between Alcohol Molecules Figure 12.2
40 Structures of Methyl, Primary, Secondary, and Tertiary Alcohols TA 12.6 page 409
41 Two Steps in the Synthesis of Insulin Figure 12.10
42 Hydrogen Bonding of Aldehydes and Ketones Figure 13.2
43 Hydrogen Bonding (a) in Carboxylic Acids and (b) between Carboxylic Acids and Water Figure 14.2
44 Structures of Ammonia and Primary, Secondary, and Tertiary Amines TA 15.02 page 514
45 D- and L-Glyceraldehyde Figure 16.4
46 Cyclization of Glucose Figure 16.7
47 Method of Converting Fischer Projections into Haworth Structures Example 16.3
48 α, β, Glycosidic Linkage Figure 16.11
49 Structure of Amylose Figure 16.12
50 Structures of Amylopectin and Glycogen Figure 16.13
51 Classification of Lipids Figure 17.1
52 Melting Points of Fatty Acids Figure 17.2
53 Structure of Four Prostaglandins Figure 17.3
54 Steroid Nucleus page 601
55 Structure of a Plasma Lipoprotein Figure 17.8a
56 Summary of the Relative Amounts in the Four Classes of Lipoproteins Figure 17.9
57 Fluid Mosaic Model of Membrane Structure Figure 17.12
58 General Structure of Alpha-Amino Acid Figure 18.1
59 α -Helix Figure 18.5
60 Antiparallel β -Pleated Sheet of Silk Fibroin Figure 18.7
61 Weak Interactions that Help Maintain Tertiary Structure Figure 18.9
62 Four Levels of Protein Structure Figure 18.10
63 Myoglobin Figure 18.11
64 Differences in Energy Between the Reactants and Products Figure 19.1
65 Lock-and-Key Model of Enzyme-Substrate Binding Figure 19.3
66 Induced-Fit Model of Enzyme-Substrate Binding Figure 19.5b
67 Apoenzyme Unable to Bind to Its Substrate Figure 19.6
68 Enzymes Requiring a Coenzyme to Facilitate the Reaction Figure 19.7
69 Components of Nucleic Acids Figure 20.1
70 (a) General Structures of a Deoxyribo-nucleotide and a Ribonucleotide; (b) Adenosine Triphosphate
Figure 20.2
71 Covalent, Primary Structure of DNA Figure 20.3
72 DNA Double Helix Figure 20.4
73 Structure of tRNA Figure 20.13
74 Stages of Transcription Figure 20.14
75 Diagram of mRNA Splicing Figure 20.16
76 Structure of Ribosome Figure 20.19
77 Translation Figure 20.21
78 Southern Blot Hybridization Figure 20.22
79 Polymerase Chain Reaction Figure 20.25
80 Structure of ATP Figure 21.1
81 Hydrolysis of ATP Figure 21.2
82 Conversion of Food into Cellular Energy in Form of ATP Figure 21.3
83 Summary of Reactions of Glycolysis Figure 21.6
84 Comparison of Glycolysis and Gluconeogenesis Figure 21.10
85 Opposing Effects of Hormones Insulin and Glucagon Figure 21.18
86 Structure of Mitochondrion Figure 22.1
87 Structure of Acetyl CoA Figure 22.2
88 Central Role of Acetyl CoA in Cellular Metabolism Figure 22.4
89 Reactions of the Citric Acid Cycle Figure 22.5
90 Regulation of Pyruvate Dehydrogenase Complex and Citric Acid Cycle Figure 22.6
91 Respiratory Electron Transport System Figure 22.7
92 Carbon Skeletons of Amino Acid Converted to Citric Acid Cycle Figure 22.8
93 Reactions of Urea Cycle Figure 22.12
94 Byproducts of Glycolysis and Citric Acid Cycle Figure 22.13
95 Structure of Micelle Formed from Phospholipid Lecithin Figure 23.1
96 Stages of Lipid Digestion in Intestinal Tract Figure 23.3
97 β-Oxidation of Fatty Acids Figure 23.6
98 Ketogenesis Figure 23.9
99 Antagonistic Effects of Insulin and Glucagon Figure 23.16