Strength of Materials |
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Page 71
... segment of the shaft . Hint : Use the results of Prob . 322 and apply superposition . 324. A shaft composed of segments AC , CD , and DB is fastened to rigid supports and loaded as shown in Fig . P - 324 . G is 12 X 106 psi for steel ...
... segment of the shaft . Hint : Use the results of Prob . 322 and apply superposition . 324. A shaft composed of segments AC , CD , and DB is fastened to rigid supports and loaded as shown in Fig . P - 324 . G is 12 X 106 psi for steel ...
Page 91
... segments . The free - body diagram of the left segment in Fig . 4-3b shows that the externally applied load is R1 . To maintain equilibrium in this segment of the beam , the fibers in the exploratory section a - a must supply the ...
... segments . The free - body diagram of the left segment in Fig . 4-3b shows that the externally applied load is R1 . To maintain equilibrium in this segment of the beam , the fibers in the exploratory section a - a must supply the ...
Page 104
... segment produces equilibrium of that segment . Thus in Fig . 4-18 , the segments to the left and right of section b - b in Fig . 4-17 are held in equilibrium by the shear P1 P2 α R1 Fig . 4-18.- moment . w lb / ft - x ( a ) мо Mb V2 ( b ) ...
... segment produces equilibrium of that segment . Thus in Fig . 4-18 , the segments to the left and right of section b - b in Fig . 4-17 are held in equilibrium by the shear P1 P2 α R1 Fig . 4-18.- moment . w lb / ft - x ( a ) мо Mb V2 ( b ) ...
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allowable stresses aluminum angle applied assumed axial load beam in Fig beam loaded beam shown bending bending moment bolt bronze cantilever beam caused centroid column compressive stress Compute the maximum concentrated load concrete continuous beam cross section deformation Determine the maximum diameter elastic curve end moments equal equivalent Euler's formula factor of safety fibers flange flexure formula free-body diagram ft long ft-lb Hence Hooke's law horizontal ILLUSTRATIVE PROBLEMS inertia lb/ft length loaded as shown main plate maximum shearing stress maximum stress midspan deflection modulus Mohr's circle moment of area moment of inertia neutral axis obtain plane positive proportional limit R₂ radius reaction Repeat Prob resisting restrained beam resultant segment shaft shear diagram shearing force shown in Fig Solution Solve Prob span statically indeterminate steel strain tensile stress three-moment equation torque torsional uniformly distributed load vertical shear weld zero ΕΙ