List of Tables

1. B.I.O.P + Verbal: How to organize your MCAT studying.
2. Determinants of plasma membrane fluidity.
3. Five processes by which substances move across cell membranes.
4. Side-by-side comparison of cilia and flagella.
5. Meiosis at a glance.
6. Complete list of products from glycolysis.
7. Complete list of products from the Citric Acid (TCA) cycle: per acetyl CoA and per glucose molecule.
8. Complete list of products from glycolysis.
9. Complete list of products from the Citric Acid (TCA) cycle: per acetyl CoA and per glucose molecule.
10. Origin of substrate-level ATP formation.
11. Complete list of products from the Citric Acid (TCA) cycle: ATP count.
12. Origin of oxidative-level ATP formation.
13. Origin of substrate-level ATP: A closer look.
14. Factors which move the oxygen-hemoglobin dissociation curve
15. Structural and functional differences between arterial and venous systems.
16. Carbohydrate digestive enzymes
17. Protein digestive enzymes
18. Lipid digestive enzymes
19. Stereotyped functions of the ANS.
20. Neurotransmitters of the ANS.
21. Dedicated spinal divisions of the ANS.
22. Variations in post-synaptic neuron length in the ANS.
23. The three general classes of hormones.
24. Anterior pituitary hormones.
25. Posterior pituitary hormones.
26. Thyroid gland hormones.
27. Parathyroid gland hormones.
28. Gastrointestinal hormones: Stomach.
29. Gastrointestinal hormones: Small intestine.
30. Pancreatic endocrine hormones
31. Pancreatic exocrine hormones
32. Pancreatic endocrine hormones.
33. Adrenal cortex hormones.
34. Adrenal medulla hormones.
35. Ovarian hormones.
36. Spermatogenesis
37. Oogenesis
38. Characteristics of muscle fibers.
39. Control of muscle types.
40. Characteristics of cortical and trabecular bone (see figure 23.4 on page ).
41. Six types of connective tissue at a glance.
42. Possible values of quantum numbers.
43. Principle ($n$) and angular momentum quantum numbers ($l$).
44. Magnetic ($m_{l}$) and spin quantum numbers ($m_{s}$).
45. Magnetic ($m_{l}$) and spin quantum numbers ($m_{s}$).
46. Valence electrons for the representative elements.
47. Three general covalent bonds, bond lengths and bond energies.
48. sp$^{3}$, sp$^{2}$ and sp orbitals.
49. Four common chemical reactions
50. Four common SI units in inorganic chemistry.
51. Calculating percent composition.
52. Acids and Bases: Examples of the conjugate form.
53. Relationship between the strength of an acid/base and the strength of its conjugate.
54. Strong acids and strong bases.
55. Key facts on electrolytic and galvanic cell.
56. Side-by-side comparison of the gas laws.
57. Three common ions and their charges.
58. Zero-, First- and Second- Order Reactions.
59. $K_{eq}$ and the direction of a reaction.
60. Applications of Le Châtelier's principle.
61. Thermodynamic systems
62. Relationship between states of matter and entropy.
63. Role of $\Delta H$, $T$ and $\Delta S$ in reaction outcomes.
64. Mechanical, electrical, thermal and chemical energy units
65. Bond dissociation energy: Br$_{2}$
66. Oxidation numbers for Groups across the periodic table.
67. Valence shell electron repulsion theory (VSEPR)
68. Summary of $S_{N}1$ & $S_{N}2$ Reactions
69. Similarities between $S_{N}2$ and $E2$ reactions.
70. Differences between $S_{N}2$ and $E2$ reactions.
71. Similarities between $S_{N}1$ and $E1$ reactions.
72. Differences between $S_{N}1$ and $E1$ reactions.
73. Common alkanes.
74. Common substituent alkane groups.
75. Infrared absorption of C-C and C-H bonds.
76. Infrared absorption of C=C.
77. Infrared absorption of C$\equiv$C.
78. Oxidative products of 1$^{o}$, 2$^{o}$ and 3$^{o}$ alcohols.
79. Activating electron-donating groups for benzene substituent groups.
80. Deactivating electron-withdrawing groups for benzene substituent groups.
81. Infrared absorption of the aldehyde C-H and the ketone carbonyl bonds
82. Products observed from specific organomerallic reactions.
83. Infrared absorption of $C-O-C$ bond.
84. Infrared absorption of carboxylic acids.
85. Two key differences between amides and amines.
86. Infrared absorption of carboxylic acids and derivatives.
87. What to react with an acyl chloride to yield a specific product.
88. Hydrogen bonding by 1$^{o}$, 2$^{o}$ and 3$^{o}$ amines.
89. Infrared absorption of the hydroxyl group ($C-OH$).
90. Two key differences between amides and amines.
91. Categories of monosaccharides.
92. Carbon number of common monosaccharides.
93. Infrared absorption for organic bonds.
94. Kinetic and Static Friction.
95. Inclined Plane: Relationship between angle of inclination and force calculations.
96. Electric fields vs. electric potentials.
97. Sound transmission in a tube open at one end vs. a tube open at both ends.
98. Particles released during radioactive decay.
99. Percent of original substance remaining based on the numbers of $T_{1/2}$ that have transpired.