Mechanics of Materials Companion: Case Studies, Design, and RetrofitCase histories--Work with real world engineering problems while learning about engineering history. * Design and Retrofit--Multistep, synthesis approach to problem solving. * Suitable as a companion for any textbook--All chapters are based on general concepts. |
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Page 110
... integrate three times , twice , or once . 3. Apply BC and / or CC to determine integration constant ( s ) . 4. Evaluate deflection and / or slope as required . SUPERPOSITION If there are multiple loads on a beam , you can compute ...
... integrate three times , twice , or once . 3. Apply BC and / or CC to determine integration constant ( s ) . 4. Evaluate deflection and / or slope as required . SUPERPOSITION If there are multiple loads on a beam , you can compute ...
Page 115
... Integrate M ( x ) once for slope and twice for deflection . EI1 01 ( x ) = √M1 ( x ) dx = EI1 v1 ( x ) = √EI 01 ( x ) dx = 6 in . ≤x≤ Do only the left half of the problem ( symmetry ) . 240 V - M2 ( x ) EI2 02 ( x ) = √M2 ( x ) dx ...
... Integrate M ( x ) once for slope and twice for deflection . EI1 01 ( x ) = √M1 ( x ) dx = EI1 v1 ( x ) = √EI 01 ( x ) dx = 6 in . ≤x≤ Do only the left half of the problem ( symmetry ) . 240 V - M2 ( x ) EI2 02 ( x ) = √M2 ( x ) dx ...
Page 121
... Integrate M ( x ) once for slope and twice for deflection 4. Apply appropriate BCs and CCs . 5. Determine maximum deflection Vmax . 6. Compute the second moment of inertia . 7. Apply allowable maximum deflection . 8. Adjust geometry and ...
... Integrate M ( x ) once for slope and twice for deflection 4. Apply appropriate BCs and CCs . 5. Determine maximum deflection Vmax . 6. Compute the second moment of inertia . 7. Apply allowable maximum deflection . 8. Adjust geometry and ...
Contents
FUNDAMENTALS OF STRENGTH OF MATERIALS | 1 |
AXIAL LOAD AND TORSION | 23 |
BENDING STRESS | 47 |
Copyright | |
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34 kips Axial Load beam Bending Stress calculations cars centroid chapter Combined Stresses components Compute Concrete Canoe cross section deformation Determine the reactions devices diameter Draw FBD Draw the corresponding Draw the FBD engineering equilibrium equations failure free body diagram Fundamentals of Strength hole in² in³ inertia integrity kg/m³ kN/m³ lap joints lb/in³ Load and Torsion M₂ Materials and Warm-Up Materials Companion maximum shear stresses Mechanics of Materials Mohr's circle molasses moment of inertia neutral axis normal stress piston plane pogo stick Poisson's Ratio problem retrofit riders rides rivet roller coaster safety dog scooters shear force shear stress single shear slugs/f+3 Solve the equilibrium Specific Weight spring static strain Strength of Materials Stresses and Combined structure tank thickness Tmax tower tube Ultimate Strength V₁ vertical Warm-Up Exercises yield strength Young's Modulus