Final answer:
Shear and bending formulas are applicable to wood beams, steel beams, and concrete beams. For each type of beam, there are specific formulas based on their material properties.
Step-by-step explanation:
Shear and bending formulas are applicable to wood beams, steel beams, and concrete beams.
For wood beams, the shear formula is Fv = (3V)/(2bd), where Fv is the shear stress, V is the applied shear force, b is the beam width, and d is the beam depth. The bending formula is M = (Fb * d)/6, where M is the bending moment, Fb is the bending stress, and d is the beam depth.
For steel beams, the shear formula is V = Fv * A, where V is the applied shear force, Fv is the allowable shear stress, and A is the cross-sectional area of the beam. The bending formula is M = Fb * S, where M is the bending moment, Fb is the allowable bending stress, and S is the section modulus of the beam.
For concrete beams, the shear formula is Vc = (2Av * tau)/(s), where Vc is the shear force, Av is the area of vertical stirrups, tau is the allowable shear stress, and s is the spacing of vertical stirrups. The bending formula is Mc = (As * fy * d)/(s), where Mc is the flexural capacity, As is the area of reinforcement, fy is the yield strength of reinforcement, d is the effective depth of the beam, and s is the spacing of reinforcement.