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The beam is constructed from three boards. (Figure 1). The allowable shear stress that the wood can sustain is τallow=45
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The beam is constructed from three boards. (Figure 1). The allowable shear stress that the wood can sustain is τallow=45
The beam is constructed from three boards. (Figure 1). The allowable shear stress that the wood can sustain is τallow=450 psi. Each nail can support a shear force of 330 lb. Determine the maximum shear V that the beam can support,Determine the maximum allowable spacing s of the nails used to hold the top flange to the web, and Determine the maximum allowable spacing s of the nails used to hold the bottom flange to the web.
The beam is constructed from three boards. (Figure 1) The allowable shear stress that the wood can sustain is Tallow = 450 psi. Each nail can support a shear force of 330 lb. Figure 0 10 in. 6 in 1.5 in. 12 in 1 in. 15 m K 1 of 1
The beam is constructed from three boards. (Figure 1) The allowable shear stress that the wood can sustain is Tallow = 450 psi. Each nail can support a shear force of 330 lb. Figure 0 10 in. 6 in 1.5 in. 12 in 1 in. 15 m K 1 of 1