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Engineering Mechanics - Statics
Chapter 1 - Introduction
Downloadable Notes Outline
1.1 Introduction (20:42)
Chapter 2 - Force Vectors
2.1 Vector Operations (14:51)
2.2 Vector Addition of Forces (8:04)
2.3 Example 1 (10:11)
2.4 Example 2 (7:08)
2.5 Example 3 (5:25)
2.6 Coplanar Forces - Cartesian Notation (21:41)
2.7 Coplanar Forces - Scalar Notation (9:28)
2.8 Example 4 (11:46)
2.9 Example 5 (13:35)
2.10 3D Vectors and Coordinate Direction Angles (21:03)
2.11 Example 6 (13:57)
2.12 Transverse and Azmuth Angles (16:16)
2.13 Example 7 (14:54)
2.14 Example 8 (14:39)
2.15 Example 9 (13:27)
2.16 Position Vectors (13:19)
2.17 Example 10 (8:21)
2.18 Force Directed Along a Line (6:33)
2.19 Example 11 (12:36)
2.20 Example 12 (17:53)
2.21 Dot Product (14:56)
2.22 Example 13 (9:52)
2.23 Projection Along a Line (9:10)
2.24 Example 14 (13:00)
2.25 Example 15 (11:15)
Exam 1
Exam 1 Problems
Exam 1 Problem 1 Solution (10:59)
Exam 1 Problem 2 Solution (7:31)
Exam 1 Problem 3 Solution (5:44)
Chapter 3 - Particle Equilibrium
3.1 Equilibrium of a Particle and Springs, Cables, Normal Force (10:42)
3.2 2D Force Systems (5:42)
3.3 Example 16 (9:28)
3.4 Example 17 (9:53)
3.5 Example 18 (8:42)
3.6 Example 19 (16:03)
3.7 Example 20 (14:45)
Chapter 4 - Moments
4.1 Scalar Formation of Vectors (15:57)
4.2 Example 21 (7:41)
4.3 Example 22 (7:48)
4.4 Example 23 (10:50)
4.5 Cross Product (18:47)
4.6 Moment Vector (14:46)
4.7 Example 24 (11:00)
4.8 Example 25 (7:10)
4.9 Example 26 (7:59)
4.10 Moment About A Line (10:56)
4.11 Example 27 (10:22)
4.12 Example 28 (13:58)
4.13 Example 29 (12:06)
4.14 Couple Moments and Example 30 (13:02)
4.15 Couple Moments Continued and Examples 31 and 32 (14:48)
4.16 Example 33 (5:35)
4.17 Example 34 (12:12)
4.18 Equivalent Systems (8:15)
4.19 Example 35 (8:52)
4.20 Example 36 (7:42)
4.21 Example 37 (4:41)
4.22 Equivalent Systems with One Force and Example 38 (11:42)
4.23 Example 39 (9:31)
4.24 Example 40 (10:01)
Chapter 5 Rigid Body Equilibrium
5.1 2D Rigid Body Equilibrium (21:07)
5.2 Example 41 (6:52)
5.3 Example 42 (15:45)
5.4 Example 43 (13:40)
5.5 Example 44 (12:04)
5.6 Example 45 (11:39)
5.7 3D Rigid Body Equilibrium (17:20)
5.8 Example 46 (11:31)
5.9 Example 47 (12:31)
5.10 Example 48 (14:25)
Exam 2
Exam 2 Problems
Exam 2 Problem 1 Solution (7:30)
Exam 2 Problem 2 Solution (7:57)
Exam 2 Problem 3 Solution (6:34)
Chapter 6 - Frames and Machines
6.1 Intro to Structures and Method of Joints (7:02)
6.2 Example 49 (24:19)
6.3 Example 50 (20:42)
6.4 Method of Sections (7:09)
6.5 Example 51 (7:53)
6.6 Example 52 (10:37)
6.7 Frames and Machines (9:09)
6.8 Example 53 (7:59)
6.9 Example 54 (18:09)
6.10 Example 55 (12:24)
6.11 Example 56 (12:25)
Chapter 7 - Dry Friction
7.1 Friction (11:51)
7.2 Example 57 (11:14)
7.3 Example 58 (12:08)
7.4 Example 59 (10:54)
Chapter 8 - Center of Gravity and Centroids
8.1 Center of Mass and Centroids (19:40)
8.2 Example 60 (13:29)
8.3 Example 61 (7:06)
8.4 Example 62 (10:06)
8.5 Example 63 (6:52)
8.6 Example 64 (7:17)
8.7 Composite Bodies (5:18)
8.8 Example 65 (19:16)
8.9 Example 66 (11:41)
8.10 Example 67 (11:10)
Exam 3
Exam 3 Problems
Exam 3 Problem 1 Solution (13:29)
Exam 3 Problem 2 Solution (8:40)
Exam 3 Problem 3 Solution (7:04)
Chapter 9 - Area Moments of Inertia
9.1 Moment of Inertia and Parallel Axis Theorem (18:32)
9.2 Example 68 (4:18)
9.3 Example 69 (6:37)
9.4 Composite Areas to Find Moments of Inertia (4:21)
9.5 Example 70 (15:55)
9.6 Example 71 (20:15)
Chapter 10 - Distributed Loads
10.1 Distributed Loads (12:31)
10.2 Example 72 (10:48)
10.3 Example 73 (9:04)
Final Exam
Final Exam
Final Exam Problem 1 Solution (10:03)
Final Exam Problem 2 Solution (19:18)
Final Exam Problem 3 Solution (11:33)
Final Exam Problem 4 Solution (10:30)
Final Exam Problem 5 Solution (14:15)
Final Exam Problem 6 Solution (9:34)
5.2 Example 41
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