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1. Title
2. Introduction
3. Objectives
4. Outline
5. Sec 1: thunderstorm lifecycle - introduction
6. Sec 1: answers to review questions
7. Sec 1: shallow cumulus - vertical motions
8. Sec 1: shallow cumulus - review question #1
9. Sec 1: shallow cumulus - review answer #1
10. Sec 1: shallow cumulus - review question #2
11. Sec 1: shallow cumulus - review answer #2
12. Sec 1: shallow cumulus - review question #3
13. Sec 1: shallow cumulus - review answer #3
14. Sec 1: shallow cumulus - warm rain precipitation
15. Sec 1: shallow cumulus - review question #4
16. Sec 1: shallow cumulus - review answer #4
17. Sec 1: shallow cumulus - review question #5
18. Sec 1: shallow cumulus - review answer #5
19. Sec 1: shallow cumulus - heterogeneous nucleation
20. Sec 1: shallow cumulus - review question #6
21. Sec 1: shallow cumulus - review answer #6
22. Sec 1: shallow cumulus - ice crystal growth
22. Sec 1: towering cumulus 1
25. Sec 1: towering cumulus 4
26. Sec 1: towering cumulus 5
27. Sec 1: towering cumulus 6
28. Sec 1: towering cumulus 7
29. Sec 1: towering cumulus 8
30. Sec 1: mature Cb 1
31. Sec 1: mature Cb 2
32. Sec 1: mature Cb 3
33. Sec 1: mature Cb 4
34. Sec 1: mature Cb 5
35. Sec 1: dissipating Cb 1
36. Sec 1: dissipating Cb 2
37. Sec 1: thunderstorm summary 1
38. Sec 1: thunderstorm summary 2
39. Sec 2: introduction to electrification
40. Sec 2: ice-ice collisional charging mechanism
41. Sec 2: dipole charge distribution 1
42. Sec 2: dipole charge distribution 2
43. Sec 2: dipole charge distribution 3
44. Sec 2: dipole charge distribution 4
45. Sec 2: dipole charge distribution 5
46. Sec 2: dipole charge distribution 6
48. Sec 2: dipole charge distribution 8
50. Sec 2: electrification summary 2
51. Sec 2: introduction to Fort Collins case (FCL)
52. Sec 2: FCL sounding 1
53. Sec 2: FCL sounding 2
54. Sec 2: FCL IR4 and CGs
55. Sec 2: FCL radar time-height analysis
56. Sec 2: FCL radar four-panel
57. Sec 2: FCL summary
58. Sec 3: introduction to isolated storms
59. Sec 3: induction exercise 1
60. Sec 3: induction exercise 2
61. Sec 3: induction exercise 3
62. Sec 3: induction exercise 4
63. Sec 3: induction exercise 5
65. Sec 3: induction exercise 7
67. Sec 3: induction exercise 9
67. Sec 3: Positive Strikes
68. Sec 3: utility of -CGs and +CGs 1
71. Sec. 3 Melbourne case (MLB) sounding
72. Sec 3: MLB radar
73. Sec 3: MLB radar and CGs
74. Sec 3: MLB summary 1
75. Sec 3: MLB summary 2
76. Sec 3: MLB summary 3
77. Sec 4: introduction to MCSs
78. Sec 4: convective vs. stratiform regions 1
79. Sec 4: convective vs. stratiform regions 2
80. Sec 4: convective vs. stratiform regions 3
81. Sec 4: stratiform charging
82. Sec 4: MCS charge distributions and CG lightning 1
84. Sec 4: MCS charge distributions and CG lightning 3
85. Sec 4: Flagstaff case (FGZ) topography
86. Sec 4: FGZ sounding
87. Sec 4: FGZ VIS and CGs
88. Sec 4: FGZ summmary 1
89. Sec 4: FGZ summmary 2
90. Sec 4: FGZ summmary 3
91. Sec 4: FGZ summmary 4
92. Sec 5: introduction to warning decision making
93. Sec 5: Des Moines case (DMX) radar
94. Sec 5: DMX radar and CGs
95. Sec 5: DMX IR4
96. Sec 5: DMX IR4 and CGs
97. Sec 5: DMX summary 1
98. Sec 5: DMX summary 2
99. Sec 5: DMX summary 3
100. Summary of objectives 1
101. Summary of objectives 2
102. Summary of objectives 3
103. Summary of objectives 4
104. Summary of objectives 5
105. Summary of objectives 6
106. Summary of objectives 7
107. Summary of objectives 8
108. Summary of objectives 9
109. Summary of objectives 10
110. Summary of objectives 11
111. Summary of objectives 12
112. Conclusions
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