Flipped Classes – Example Problems
Material Covered | MP4 | Time | Notes |
Determine the x, y, and z scalar components of a 3-D force. Express the force in Cartesian vector form. Determine the magnitude of the rectangular components of the force along the line of action of a second force. |
Text Problem #2-65 Video |
25 mins | Problem 2-65 |
1) Locations of centroids | Video | 31 mins | Class notes |
2) Compute reactions | Video | 43 mins | Class notes |
3) Compute frame reactions | Video | 34 mins | Class notes |
4) Volumes of rotation | Video | 15 mins | Class notes |
5) Water pressure | Video | 14 mins | Class notes |
6) Flexible cable forces | Video | 28 mins | Class notes |
7) Truss member forces by method of joints | Video | 35 mins | Class notes |
8) Truss member forces by method of sections | Video | 14 mins | Class notes |
9) Friction | Video | 42 mins | Class notes |
10) Internal member forces – Axial | Video | 19 mins | Class notes |
11) Internal member forces – Torque | Video | 41 mins | Class notes |
12) Internal shear and moment at a point in a frame | Video | 10 mins | Class notes |
13) Forces on pins in frames | Video | 46 mins | Class notes |
14) Shear and moment (V&M) diagrams by free-body equilibrium (cut-cut-cut) | Video | 26 mins | Class notes |
15) Shear and moment (V&M) diagrams by graphical solutions | Video | 20 mins | Class notes |
16) V&M diagrams for a 1200N concentrated load on a simply supported beam | Video | 23 mins | Class notes |
17) V&M diagrams for a 2k/ft distributed load over left end of a simply supported beam | Video | 21 mins | Class notes |
18) Drawing V&M diagrams for a 2k/ft distributed load on a simply supported beam, and how to write the corresponding V&M equations for the beam. | Video | 47 mins | Class notes |
19) Drawing V&M diagrams for a 2k/ft uniform/triangular distributed load on a overhanging simply supported beam. Also, how to write V&M equations for the beam. 19a) Drawing V&M diagrams for a 2k/ft uniform/triangular distributed load on a overhanging simply supported beam. (First half of above) 19b) How to write V&M equations for the above beam. (Second half of above) |
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68 mins 36 minutes
32 minutes |
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20) Calculation of moment of inertia for an I shape | Video | 12 mins | Class notes |
21) Moment of inertia for a T shape | Video | 17 mins | Class notes |
22) Moment of inertia for a rectangle with semicircular holes | Video | 14 mins | Class notes |
23) Moment of inertia for a rectangle with triangular hole | Video | 3 mins | Class notes |
24) Location and calculation of zero-force members | Video | 19 mins | Class notes |
25) How to use Engineering Equation Solver | Video | 25 mins | Notes |