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Wind Load Cont. <br />95 mph ASCE 7-16 Figure 26.5-1B <br />C <br />1.0 ASCE 7-16 Sec 26.8.2 <br />0.85 ASCE 7-16 Table 26.10-1 <br />0.85 ASCE 7-16 Table 26.6-1 <br />1.00 ASCE 7-16 Table 26.9-1 <br />16.64 psf <br />18.0 Degrees <br />1.5 Conservatively assuming all exposed <br />0.8 conservatively assuming 10 ft2 effective area <br />Uplift (W)Zone(1,2e)Zone(2r, 2n)Zone(3e)Zone(3r) <br />Fig. 30-3-2 GCp=-1.1 -2 -2 -2.4 <br />Eq. 29.4-7 P=qh(GCp)(γE)(γa)=-21.96 -39.93 -39.93 -47.91 <br />GCp=0.5 Figure 30.3-2 <br />P=qh(GCp)(γE)(γa)=5.49 Equation 29.4-7 <br />Rafter Attachments: 0.6D+0.6W (CD=1.6) <br />Connection Check <br />Attachment max. spacing=6 ft <br />5/16" Lag Screw Withdrawal Value=266 lbs/in Table 12.2A - NDS <br />2.5 in DFL Assumed <br />Prying Coefficient 1.4 <br />Allowable Capacity=760 lbs <br />Zone Trib Width Area (ft)Uplift (lbs)Down (lbs) <br />Zone(1,2e)6 16.5 135.9 140.1 <br />Zone(2r, 2n)6 16.5 233.7 140.1 <br />Zone(3e)6 16.5 233.7 140.1 <br />Zone(3r)6 16.5 277.2 140.1 <br />Conservative Max=277.2 <760 <br />CONNECTION IS OK <br />Risk Category = <br />KZ = <br />Kd = <br />Ke = <br />2. Embedment is measured from the top of the framing member to the tapered tip of a lag screw. <br />Embedment in sheading or other material does not count. <br />II <br />V= <br />Exposure = <br />1. Pv seismic dead weight is negligible to result in significant seismic uplift, therefore the wind uplift <br />governs <br />γE= <br />γa= <br /> KZt = <br />qh= 0.00256KzKztKdKeV2= <br />Pitch = <br />Lag Screw Penetration <br />projects@evengineersnet.com <br />http://www.evengineersnet.com <br />2050 W Martha Ln <br />9/16/2024