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Strength of Materials II: Combined Loadings, State of Stress (4 of 19)
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Strength of Materials II
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- 1 Strength of Materials II: Review of Strength of Materials I (Torsion, Bending, etc.) (1 of 19)
- 2 Strength of Materials II: Review Mohr's Circle, Principal Stresses (2 of 19)
- 3 Strength of Materials II: Stress Transformation, 3D Analysis (3 of 19)
- 4 Strength of Materials II: Combined Loadings, State of Stress (4 of 19)
- 5 Strength of Materials II: Thin-Walled Pressure Vessels (5 of 19)
- 6 Strength of Materials II: Principal Stresses in Beams, Beam Design (6 of 19)
- 7 Strength of Materials II: Shaft Design (7 of 19)
- 8 Strength of Materials II: Deflection of Beams, Integration Methods (8 of 19)
- 9 Strength of Materials II: Integration Method; Application to Indeterminate Beams (9 of 19)
- 10 Strength of Materials II: Deflection of Beams, Singularity Methods (10 of 19)
- 11 Strength of Materials II: Singularity Method; Application to Indeterminate Beams (11 of 19)
- 12 Strength of Materials II: Deflection of Beams, Superposition Method (12 of 19)
- 13 Strength of Materials II: Plane Strain vs Plane Stress (13 of 19)
- 14 Strength of Materials II: Strain Transformation, Mohr's Circle for Strain (14 of 19)
- 15 Strength of Materials II: Strain Energy (15 of 19)
- 16 Strength of Materials II: Strain-Energy and Work-Energy Methods (16 of 19)
- 17 Strength of Materials II: Castigliano's Theorem and Design (17 of 19)
- 18 Strength of Materials II: Buckling of Columns; Centric and Eccentric Loadings (18 of 19)
- 19 Strength of Materials II: Column Design, Empirical Equations AISC (19 of 19)