The URL can be used to link to this page

Home My WebLink About1316 S Laurel St - Technical TECHNICAL Permit Address 1 1, Le 5 (--ct reJl �T Project description P,lcct, hecl Date the permit was finaled i t 2fo Number of technical a es p g. r "-e ra-u. ai." `5+ +....y,._,<.t s ti k w;:�^ x.rti .-5 x. s vw.y''w''"" '�ti •r; r RECEIVED ,,C 4 t. LINDBERO AMITH 001 0 1 2009 A R C I-1 I '1‘E‘ C T S ..:71,i, J4 319 S. Peabody, Suite B., Port Angeles, WA 98362 CITY OF PORT ANGEI4:ES 1 wy v valrox EiUILDING DIVISION 360.452.6116 fax 360.452.7064 Y 4: Ili -;;;;;;Va 4 contact(a,lindarch.corri www.lindarch.com -to rti le Project: 117". s LA v p,. L. Project No. Rai S t oh 5 Subject: LifiiiirdtAL,, By: 1;.5 Date: pr Sheet 2- of SHEAR WALL SUMMARY W L H V V/L SW VH- WL/2 POST HOLD DOWN tol?PtTr, Alt ‘,,L_ri)..11,,,, i 5 /15 4 Moil 1 1 0 2. t2so z i4 ri 41 7277 v i? A 2g, /4) 56 0 4113 ft= asel D 9 41 5 5 X tags tor rat I A 4 Z.b55 474 4 3.56 e l -3‘' ii 2.2 St, i 411** MD* 0 i 95411:6 Ar me L-r, rxwiis 77 I/ALLOFIT/FIRMINFO/FORMS/SREARWAL Roof Beam( 2000 International Building Code (97 NDS) Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 09 -30 -2009 4:05:51 PM Project: WEST Location: 8' -0" WINDOW HEADER Summary: (2) 1.5 IN x 5.5 IN x 8.0 FT #2 Douglas Fir -Larch Dry Use Section Adequate By: 67.1 Controlling Factor: Section Modulus Depth Required 4.25 In Deflections: Dead Load: DLD= 0.07 IN Live Load: LLD= 0.10 IN L/924 Total Load: TLD= 0.18 IN L/548 Reactions (Each End): Live Load: LL -Rxn= 300 LB Dead Load: DL -Rxn= 206 LB Total Load: TL -Rxn= 506 LB Bearing Length Required (Beam only, support capacity not checked): BL= 0.27 IN Beam Data: Span: L= 8.0 FT Maximum Unbraced Span: Lu= 2.0 FT Pitch Of Roof: RP= 4 12 Live Load Deflect. Criteria: L/ 240 Total Load Deflect. Criteria: L/ 180 Roof Loading: Roof Live Load -Side One: LL1= 25.0 PSF Roof Dead Load -Side One: DL1= 15.0 PSF Tributary Width -Side One: TW1= 2.0 FT Roof Live Load -Side Two: LL2= 25.0 PSF Roof Dead Load -Side Two: DL2= 15.0 PSF Tributary Width -Side Two: TW2= 1.0 FT Roof Duration Factor: Cd= 1.15 Beam Self Weight: BSW= 4 PLF Slope /Pitch Adjusted Lengths and Loads: Adjusted Beam Length: Ladj= 8.0 FT Beam Uniform Live Load: wL= 75 PLF Beam Uniform Dead Load: wD_adj= 51 PLF Total Uniform Load: wT= 126 PLF Properties For: #2- Douglas Fir -Larch Bending Stress: Fb= 900 PSI Shear Stress: Fv= 95 PSI Modulus of Elasticity: E= 1600000 PSI Stress Perpendicular to Grain: Fc_perp= 625 PSI Adjusted Properties Fb' (Tension): Fb'= 1341 PSI Adjustment Factors: Cd =1.15 CI =1.00 Cf =1.30 Fv': Fv'= 109 PSI Adjustment Factors: Cd =1.15 Design Requirements: Controlling Moment: M= 1012 FT -LB 4.0 ft from left support Critical moment created by combining all dead and live loads. Controlling Shear: V= 455 LB At a distance d from support. Critical shear created by combining all dead and live loads. Comparisons With Required Sections: Section Modulus (Moment): Sreq= 9.05 N3 S= 15.13 N3 Area (Shear): Areq= 6.25 N2 A= 16.50 N2 Moment of Inertia (Deflection): lreq= 13.65 N4 I= 41.59 N4 t 1 1 8 5vaXs0..a w I (z) I I 1 NO2 .NO2 TAB a j ATQ'OG q II> Z Z ;0 4. 1 CA 11 I-0 r r '4 Z TA 230/9 ve' RAPIERS Z f, f AT 24' 0L. I U i t TA 290/9 V8° RAPIERS i AT 24• 0.C. 8V4X 9V8' AMA LAM 41 1 8 (2) 2X6'8 Mall l DF NO2 1 E i; il c i'l D 4 4 A oP P.. r o f M i!III g i °1 :5 1 1 i air i i !g ill imigg iE 0 2 t ,-.4 0 o a 1o?7F mar I il$t 1 r- se E A s r iiiIiilli fad n Vrh gltg c at g F F I F N N M WALL 'P rn WAU.I' MAIM 4 Al N 2 4 /71;:16 4 6 16 4 I> o fitS r- ii>. 47.0f0.9, or, oN r r r ;r Z Z r I m m Al Al r r WALL T I m MALI. Z' 111 NO OMAR Mal 9 =4W BEAR Nom= r 1r A z p Sig South 9k DATE nesisrkrttol A New Shop /Garage For. 1s r t1 t o. IL.IINID Ir) c 111 1 1 I n CH TECT Port Angeles, WA 98382 Trevor Parrish A T� !T+ NZ A 'll' 1Q �f'� '4' n�.....dlowu 4..g14 a ow.. ow.. vet rAr(cicisnac1,1 4 LINDBEIL MI J H A R C H I C T S 319 s. peabody, suite b, port angeles, wa 98362 i ce' YYt :_E? 360.452.6116 fax 360.452.7064 3t:eird' Project: -)-z2)17 Project No. Sub'ect: AL B fib w S heet of Date: ANA '2OOc/ j tr t W o *i 3 4 4 IA Low rz i' -poNe3 GI,1.1r-2 ,vliv I t 4 LINDBER ITH 319 S. Peabody, Suite B., Port Angeles, WA 98362 360.452.6116 fax 360.452.7064 contact(a,lindarch.com www.lindarch.com Project:_ T e' -,L4ra Project No. Subject: T° AL By: /7,',,,p Date: )144e" r'L�c�c j Sheet 1, of SHEAR WALL SUMMARY W L H V V/L SW VH- WL /2 POST HOLD DOWN Pr2 ;1' *1.4)40 )1 4 h 11# 2 )7107 I f" A 2.40 /¢Z ss 3635 4 71 4 35 I 3 D ej12, 5 s 13 5e65 2e. 4 2 1324 at)v, x .s176-2.5 PIZOv 1 Ow' ✓i m /2 o t) I Al t L 1--) 2 Oa* 11Y) Dfd 5 11/ AT A L1.• 1-)01.4 440i -►7 O 'WN I /ALLOFIT/FIRMINFO/FORMS /SHEARWAL A. PL -YWOOD OR O.S.B. SHEAR WALLS 1. MAXIMUM SHEAR 250 P.L.F. USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 6" O.C. FOR FRAMING, USE DF NO.2. PROVIDE W DIAMETER ANCHOR BOLTS AT 32" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 2: MAXIMUM SHEAR 315 P.L.F. USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 5" O.C. FOR FRAMING, USE DF NO.2. PROVIDE DIAMETER ANCHOR BOLTS AT 32" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 3. MAXIMUM SHEAR 375 P.L.F. USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT4" O.C. FOR FRAMING, USE 3X DF NO.2. PROVIDE DIAMETER ANCHOR BOLTS AT 24" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 4. MAXIMUM SHEAR 490 P.L.F. USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 3" O:C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 32" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 5. MAXIMUM SHEAR 560 P.L.F. USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 3" 0.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 24" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 6. MAXIMUM SHEAR 685 P.L.F. USE W SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2 1/2" O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 20" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 7. MAXIMUM SHEAR 770 P.L.F. USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2" O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM. PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 18" O.C. MAXIMUM SPACING AT THE FOUNDATION.. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. A 8. MAXIMUM SHEAR 870 P.L.F. USE SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 3 1/2" O.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 20" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 9. MAXIMUM SHEAR 980 P.L.F. USE SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 3" O.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 18" O.C. MAXIMUM SPACING AT THE FOUNDATION: FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 10. MAXIMUM SHEAR 1,200 P.L.F. USE SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 3" O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 14" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 11. MAXIMUM SHEAR 1,540 P.L.F. USE SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2" O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 11" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. 12. MAXIMUM SHEAR 1,740 P.L.F. USE 5/8" SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2" O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 9" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS. it r 5vaX8 0 INIII IETNI x1 u f1 AT Ir O z z lug 1 x 'V z u 2 141WRa 1 AT 24' OG 1 iJ12�d1 IPAFtAffi AT 24' oL bV4X1'ALAM 4 11 gli. 4 4 rv2X6S (2)7)461 I i i E OF NOS OF NO2 EM was 4 71 it R g i. N D p o gPRO a apps T i Oh hile4 gl Ali 70 2 4 diPig Wit g WI w A Miligi :111 RI r pli 1111 (P Rill TI i l i 81; I ID i fe ii* 1 .ik A 11 ii (tea N o m 1 1W1 T m v.,... WY4 A target 4 NO dIE4R 1YY L "4;1? E os ll z z r A in 10° m r in r ill GIALL T suwcae��>:am�a�.c<: m��:,armsa�ccs,:..ea..:•e� I r w ax: 4 ROLL E LIINn ��i i I 1 1 Peat Suite B St asp T\ R asaRs A Ne Shop /Garage For Angeles. •A NM MEM 1 naauncr t w .6 s Of` 6 .f\I.:7\1,\. 0 tr 0 cit 1 1 a 0 t-.4 d v*s,- 1 ---i P i=m1INEANIEMENIEL, 0 q ,iiiimissisi J i ■1 1 aill i 4 i h 1 t g ..Lo At .s1 r Imial l int] 4- m j! aw r A 1 0 1 AN ii? 1 ti'ij'i ,V. Ss- A, N it 1 1 1 1 MIIIIMMC mig: MIMMMIIM ei A) f.P t v .2 4 4 0 ...SI Nti 6-2'. j Co. N ik f`54 til'-' (a b 1 e 1--- vEliNgt 1119* inki 1 mo 4 .3§4 i 145 ali- 940 004101 1 eill 4 9011 1 0 Wit 1 42 1 04 e 4 P g All _4 10) sa z 441111 1 45 0 7).' on it; A o 112VW NIRF F OF lailigi dr Int r F1 0 1 0 0 lial(110 pp il Rhpil r t 4 14 i h i i -31 3 21; i Roof Beam' 2000 International Building Code (97 NDS)1 Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 12:45:38 AM Project: i Location: ROOF 1 Summary: 5.125 IN x 22.5 IN x 25.0 FT 24F -V4 Visually Graded Western Species Dry Use Section Adequate By: 146.3% Controlling Factor: Section Modulus Depth Required 14.84 In Deflections: Dead Load: DLD= 0.20 IN Live Load: LLD= 0.28 IN L/1087 Total Load: TLD= 0.48 IN L/627 Reactions (Each End): Live Load: LL -Rxn= 3437 LB Dead Load: DL -Rxn= 2524 LB Total Load: TL -Rxn= 5962 LB Bearing Length Required (Beam only, support capacity not checked): BL= 1.79 IN Camber Reqd.: C= 0.30 IN Beam Data: Span: L= 25.0 FT Maximum Unbraced Span: Lu= 2.0 FT Pitch Of Roof: RP= 4 12 Live Load Deflect. Criteria: L/ 240 Total Load Deflect. Criteria: L/ 180 Camber Adjustment Factor: CAF= 1.5 X DLD Roof Loading: Roof Live Load -Side One: LL1= 25.0 PSF Roof Dead Load -Side One: DL1= 15.0 PSF Tributary Width -Side One: TW1= 5.5 FT Roof Live Load -Side Two: LL2= 25.0 PSF Roof Dead Load -Side Two: DL2= 15.0 PSF Tributary Width -Side Two: TW2= 5.5 FT Roof Duration Factor: Cd= 1.15 Beam Self Weight: BSW= 28 PLF Slope /Pitch Adjusted Lengths and Loads: Adjusted Beam Length: Ladj= 25.0 FT Beam Uniform Live Load: wL= 275 PLF Beam Uniform Dead Load: wD_adj= 202 PLF Total Uniform Load: wT= 477 PLF Properties For: 24F -V4- Visually Graded Western Species Bending Stress: Fb= 2400 PS Shear Stress: Fv= 190 PS Modulus of Elasticity: Ex= 1800000 PS Ey= 1600000 PS Stress Perpendicular to Grain: Fc perp= 650 PS Bending Stress of Comp. Face in Tension: Fb_cpr= 1200 PS Adjusted Properties Fb' (Tension): Fb'= 2547 PS Adjustment Factors: Cd =1.15 CI =0.99 Cv =0.92 Fv': Fv'= 219 PS Adjustment Factors: Cd =1.15 Design Requirements: Controlling Moment: M= 37262 FT -LB 12.5 ft from left support Critical moment created by combining all dead and live loads. Controlling Shear: V= 5127 LB At a distance d from support. Critical shear created by combining all dead and live loads. Comparisons With Required Sections: Section Modulus (Moment): Sreq= 175.55 N3 S= 432.42 N3 Area (Shear): Areq= 35.20 N2 A= 115.31 N2 Moment of Inertia (Deflection): keg= 1397.10 N4 1= 4864.75 N4 Roof Beamf 2000 International Building Code (97 NDS)1 Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 12:46:42 AM Project: Location: ROOF 2 Summary. (2) 1.5 IN x 3.5 IN x 4.0 FT #2 Douglas Fir -Larch Dry Use Section Adequate By: 216.3% Controlling Factor: Section Modulus Depth Required 1.97 In Deflections: Dead Load: DLD= 0.02 IN Live Load: LLD= 0.03 IN L/1906 Total Load: TLD= 0.04 IN L/1144 Reactions (Each End): Live Load: LL -Rxn= 150 LB Dead Load: DL -Rxn= 100 LB Total Load: TL -Rxn= 250 LB Bearing Length Required (Beam only, support capacity not checked): BL= 0.13 IN Beam Data: Span: L= 4.0 FT Maximum Unbraced Span: Lu= 2.0 FT Pitch Of Roof: RP= 4 12 Live Load Deflect. Criteria: L/ 240 Total Load Deflect. Criteria: U 180 Roof Loading: Roof Live Load -Side One: LL1= 25.0 PSF Roof Dead Load -Side One: DL1= 15.0 PSF Tributary Width -Side One: TW1= 1.0 FT Roof Live Load -Side Two: LL2= 25.0 PSF Roof Dead Load -Side Two: DL2= 15.0 PSF Tributary Width -Side Two: TW2= 2.0 FT Roof Duration Factor: Cd= 1.15 Beam Self Weight: BSW= 3 PLF Slope /Pitch Adjusted Lengths and Loads: Adjusted Beam Length: Ladj= 4.0 FT Beam Uniform Live Load: wL= 75 PLF Beam Uniform Dead Load: wD_adj= 50 PLF Total Uniform Load: wT= 125 PLF Properties For: #2- Douglas Fir -Larch Bending Stress: Fb= 900 PSI Shear Stress: Fv= 95 PSI Modulus of Elasticity: E= 1600000 PSI Stress Perpendicular to Grain: Fc_perp= 625 PSI Adjusted. Properties Fb' (Tension): Fb'= 1549 PSI Adjustment Factors: Cd =1.15 CI =1.00 Cf =1.50 Fv': Fv'= 109 PSI Adjustment Factors: Cd =1.15 Design Requirements: Controlling Moment: M= 250 FT -LB 2.0 ft from left support Critical moment created by combining all dead and live loads. Controlling Shear: V= 215 LB At a distance d from support. Critical shear created by combining all dead and live loads. Comparisons With Required Sections: Section Modulus (Moment): Sreq= 1.94 N3 S= 6.13 N3 Area (Shear): Areq= 2.95 N2 A= 10.50 N2 Moment of Inertia (Deflection): Ireq= 1.69 N4 I= 10.72 N4 Roof Rafter[ 2000 International Building Code (97 NDS) 1 Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 12:47:42 AM Project: Location: RAFTER 1 Summary: TJI 230 11.875 Trus Joist MacMillan x 12.0 FT (11 1) A 24 O.C. Section Adequate By: 122.8% Controlling Factor: Allowable end reaction Consult manufacturers specifications for all cantilever applications. I- joists were designed for simple spans with a limited cantilever using the joist manufacturers published values. If the design does not match the actual joist loading or span conditions in any way, contact the joist manufacturer for design verification. Interior Span Deflections: Dead Load: DLD- Interior= 0.05 IN Live Load: LLD Interior= 0.07 IN L/1916 Total Load: TLD- Interior= 0.12 IN L/1182 Eave Deflections (Positive Deflections used for design): Dead Load: DLD -Eave= 0.00 IN Live Load: LLD -Eave= 0.00 IN 2L/41716 Total Load: TLD -Eave= 0.00 IN 2L/25298220 Rafter End Loads and Reactions: LOADS: RXNS: Upper Live Load: 138 PLF 275 LB Upper Dead Load: 86 PLF 172 LB Upper Total Load: 224 PLF 447 LB Lower Live Load: 164 PLF 327 LB Lower Dead Load: 103 PLF 207 LB Lower Total Load: 267 PLF 534 LB Upper Equiv. Tributary Width: UTWeq= 5.5 FT Lower Equiv. Tributary Width: LTWeq= 6.55 FT Rafter Data: Interior Span: L= 11.0 FT Eave Span: L -Eave= 1.0 FT Rafter Spacing: Spacing= 24.0 IN O.C. Rafter Pitch: RP= 4.0 12 Roof sheathing applied to top of joists -Top of rafters fully braced. Live Load Deflect. Criteria: L/ 240 Total Load Deflect. Criteria: L/ 180 Rafter Loads: Roof Live Load: LL= 25.0 PSF Roof Dead Load: DL= 15.0 PSF Roof Duration Factor: Cd= 1.15 Slope Adjusted Spans And Loads: Interior Span: L -adj= 11.6 FT Eave Span: L- Eave -adi= 1.05 FT Rafter Live Load: wL -adj= 45 PLF Rafter Dead Load: wD -adj= 28 PLF Rafter Total Load: wT -adj= 73 PLF Properties For: TJI 230 11.875- Trus Joist MacMillan Depth: D= 11.875 IN Moment Capacity: Mcap= 4015 FT -LB Shear Capacity: Vcap= 1655 LB El: E1= 310000000 LB -IN2 End Reaction Capacity: Rcap= 1035 LB Comparisons With Required Sections: Controlling Moment: M= 1227 FT -LB Adjusted Moment Capacity: Mcap -adi= 4617 FT -LB Controlling Shear: V= 361 LB Adjusted Shear Capacity: Vcap -adi= 1903 LB El Required: El -req= 47189720 LB -IN2 El: E1= 310000000 LB -IN2 Maximum End Reaction: Rmax= 534 LB Adjusted Reaction Capacity: Rcap -adj= 1190 LB Floor Joist[ 2000 International Building Code (97 NDS) Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 12:50:29 AM Project: I Location: FLOOR JOISTS 1 Summary: TJI 560 11.785 Trus Joist MacMillan x 21.0 FT (a7 12 O.C. Section Adequate By: 64.6% Controlling Factor: Allowable Deflection I- joists were designed for simple spans using the joist manufacturers published values. If the design does not match the actual foist loading or span conditions in any way, contact the joist manufacturer for design verification. Joist Span Deflections: Dead Load: DLD- Center= 0.12 IN Live Load: LLD- Center= 0.31 IN L/815 Total Load: TLD- Center= 0.43 IN L/593 Joist Span Left End Reactions (Support A): Live Load: LL- Rxn -A= 420 LB Dead Load: DL- Rxn -A= 158 LB Total Load: TL- Rxn -A= 577 LB Bearing Length Required (Beam only, support capacity not checked): BL -A= 1.75 IN Joist Span Riqht End Reactions (Support B): Live Load: LL- Rxn -B= 420 LB Dead Load: DL- Rxn -B= 158 LB Total Load: TL- Rxn -B= 577 LB Bearing Length Required (Beam only, support capacity not checked): BL -B= 1.75 IN Joist Data: Joist Span Length: L2= 21.0 FT Floor sheathing applied to top of joists -top of joists fully braced. Live Load Duration Factor: Cd= 1.00 Live Load Deflect. Criteria: L/ 480 Total Load Deflect. Criteria: L/ 360 Joist Span Loading: Uniform Floor Loading: Live Load: LL -2= 40.0 PSF Dead Load: DL -2= 15.0 PSF Total Load: TL -2= 55.0 PSF Total Load Adjusted for Joist Spacing: wT -2= 55 PLF Properties For: TJI 560 11.785- Trus Joist MacMillan Depth: D= 11.785 IN Moment Capacity: Mcap= 9500 FT -LB Shear Capacity: Vcap= 2050 LB El: E1= 636000000 LB -IN2 End Reaction Capacity: Rcap= 1265 LB Comparisons With Required Sections: Controlling Moment: M= 3032 FT -LB Adjusted Moment Capacity: Mcap-adi= 9500 FT -LB Controlling Shear: V= 531 LB Adjusted Shear Capacity: Vcap -adj= 2050 LB El Required: EI -req= 386275500 LB -IN2 El: E1= 636000000 LB -IN2 Maximum End Reaction: Rmax= 577 LB Adjusted Reaction Capacity: Rcap -adj= 1265 LB Combination Roof and Floor Beam!' 2000 International Building Code (97 NDS) Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 12:52:20 AM Project: i Location: FLOOR 1 Summary: 1.75 IN x 11.875 IN x 11.5 FT Versa -Lam 2800 Fb DF Boise Cascade Section Adequate By: 14.3% Controlling Factor: Section Modulus Depth Required 11.11 In Deflections: Dead Load: DLD= 0.11 IN Live Load: LLD= 0.29 IN U476 Total Load: TLD= 0.40 IN L/342 Reactions (Each End): Live Load: LL -Rxn= 2070 LB Dead Load: DL -Rxn= 814 LB Total Load: TL -Rxn= 2884 LB Bearing Length Required (Beam only, support capacity not checked): BL= 1.83 IN Beam Data: Span: L= 11.5 FT Maximum Unbraced Span: Lu= 1.0 FT Live Load Deflect. Criteria: U 360 Total Load Deflect. Criteria: U 240 Roof Loading: Roof Live Load -Side One: RLL1= 25.0 PSF Roof Dead Load -Side One: RDL1= 15.0 PSF Roof Tributary Width -Side One: RTW1= 0.0 FT Roof Live Load -Side Two: RLL2= 25.0 PSF Roof Dead Load -Side Two: RDL2= 15.0 PSF Roof Tributary Width -Side Two: RTW2= 0.0 FT Roof Duration Factor: Cd -roof= 1.15 Floor Loading: Floor Live Load -Side One: FLL1= 40.0 PSF Floor Dead Load -Side One: FDL1= 15.0 PSF Floor Tributary Width -Side One: FTW1= 9.0 FT Floor Live Load -Side Two: FLL2= 40.0 PSF Floor Dead Load -Side Two: FDL2= 15.0 PSF Floor Tributary Width -Side Two: FTW2= 0.0 FT Floor Duration Factor: Cd -floor= 1.00 Wall Load: WALL= 0 PLF Beam Loads: Roof Uniform Live Load: wL -roof= 0 PLF Roof Uniform Dead Load (Adjusted for roof pitch): wD -roof= 0 PLF Floor Uniform Live Load: wL -floor= 360 PLF Floor Uniform Dead Load: wD -floor= 135 PLF Beam Self Weight: BSW= 6 PLF Combined Uniform Live Load: wL= 360 PLF Combined Uniform Dead Load: wD= 141 PLF Combined Uniform Total Load: wT= 501 PLF Controlling Total Desiqn Load: wT -cont= 501 PLF Properties For: Versa -Lam 2800 Fb DF- Boise Cascade Bending Stress: Fb= 2800 PSI Shear Stress: Fv= 285 PSI Modulus of Elasticity: E= 2000000 PSI Stress Perpendicular to Grain: Fc_perp= 900 PSI Adjusted Properties Fb' (Tension): Fb'= 2765 PSI Adjustment Factors: Cd =1.00 CI =0.99 Cf =1.00 Fv': Fv'= 285 PSI Adjustment Factors: Cd =1.00 Design Requirements: Controlling Moment: M= 8290 FT -LB 5.75 ft from left support Critical moment created by combining all dead and live loads. Controlling Shear: V= 2422 LB At a distance d from support. Critical shear created by combining all dead and live loads. Comparisons With Required Sections: Section Modulus (Moment): Sreq= 35.98 N3 S= 41.13 N3 Area (Shear): Areq= 12.75 N2 A= 20.78 N2 Moment of Inertia (Deflection): Ireq= 184.76 N4 1= 244.21 N4 Multi- Loaded Beam! 2000 International Building Code (97 NDS)1 Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 12:54:17 AM Projec ocation: FLOOR 2 Summai 5.25 IN x 11.875 IN x 21.0 FT Versa -Lam 3080 Fb DF Boise Cascade Section Adequate By: 151.3% Controlling Factor: Moment of Inertia Depth Required 8.73 In Center Span Deflections: Dead Load: DLD- Center= 0.16 IN Live Load: LLD Center= 0.26 IN L/971 Total Load: TLD- Center= 0.42 IN L/603 Center Span Left End Reactions (Support A): Live Load: LL- Rxn -A= 1984 LB Dead Load: DL- Rxn -A= 981 LB Total Load: TL- Rxn -A= 2965 LB Bearing Length Required (Beam only, support capacity not checked): BL -A= 0.63 IN Center Span Right End Reactions (Support B): Live Load: LL- Rxn -B= 506 LB Dead Load: DL- Rxn -B= 400 LB Total Load: TL- Rxn -B= 905 LB Bearing Length Required (Beam only, support capacity not checked): BL -B= 0.19 IN Beam Data: Center Span Length: L2= 21.0 FT Center Span Unbraced Length -Top of Beam: Lu2 -Top= 18.0 FT Center Span Unbraced Length Bottom of Beam: Lu2- Bottom= 21.0 FT Live Load Duration Factor: Cd= 1.00 Live Load Deflect. Criteria: L/ 360 Total Load Deflect. Criteria: L/ 240 Center Span Loading: Uniform Load: Live Load: wL -2= 20 PLF Dead Load: wD -2= 8 PLF Beam Self Weight: BSW= 19 PLF Total Load: wT -2= 47 PLF Point Load 1 Live Load: PL1 -2= 2070 LB Dead Load: PD1 -2= 814 LB Location (From left end of span): X1 -2= 3.0 FT Properties For: Versa -Lam 3080 Fb DF- Boise Cascade Bendinq Stress: Fb= 3080 PSI Shear Stress: Fv= 285 PSI Modulus of Elasticity: E= 2000000 PSI Stress Perpendicular to Grain: Fc_perp= 900 PSI Adjusted Properties Fb' (Tension): Fb'= 2976 PSI Adjustment Factors: Cd =1.00 CI =0.97 Cf =1.00 Fv': Fv'= 285 PSI Adjustment Factors: Cd =1.00 Design Requirements: Controlling Moment: M= 8675 FT -LB 3.15 Ft from left support of span 2 (Center Span) Critical moment created by combining all dead loads and live loads on span(s) 2 Controlling Shear: V= 2926 LB At a distance d from left support of span 2 (Center Span) Critical shear created by combining all dead loads and live loads on span(s) 2 Comparisons With Required Sections: Section Modulus (Moment): Sreq= 34.97 N3 S= 123.39 N3 Area (Shear): Areq= 15.40 N2 A= 62.34 N2 Moment of Inertia (Deflection): Ireq= 291.55 N4 1= 732.62 N4 Multi- Loaded Beam' 2000 International Building Code (97 NDS)1 Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 1:02:13 PM Protect: Location: FLOOR 3 Summary: 5.5 IN x 9.5 IN x 4.0 FT #2 Douglas Fir -Larch Dry Use Section Adequate By: 47.2% Controlling Factor: Area Depth Required 6.78 In Center Span Deflections: Dead Load: DLD- Center= 0.01 IN Live Load: LLD- Center= 0.01 IN U4600 Total Load: TLD- Center= 0.02 IN U2832 Center Span Left End Reactions (Support A): Live Load: LL- Rxn -A= 1697 LB Dead Load: DL- Rxn -A= 1023 LB Total Load: TL- Rxn -A= 2720 LB Bearing Length Required (Beam only, support capacity not checked): BL -A= 0.79 IN Center Span Right End Reactions (Support B): Live Load: LL- Rxn -B= 1749 LB Dead Load: DL- Rxn -B= 1095 LB Total Load: TL- Rxn -B= 2844 LB Bearing Length Required (Beam only, support capacity not checked): BL -B= 0.83 IN Beam Data: Center Span Length: L2= 4.0 FT Center Span Unbraced Length -Top of Beam: Lu2 -Top= 1.67 FT Center Span Unbraced Length- Bottom of Beam: Lu2- Bottom= 4.0 FT Live Load Duration Factor: Cd= 1.00 Live Load Deflect. Criteria: L/ 360 Total Load Deflect. Criteria: L/ 240 Center Span Loading: Uniform Load: Live Load: wL -2= 325 PLF Dead Load: wD -2= 263 PLF Beam Self Weight: BSW= 13 PLF Total Load: wT -2= 601 PLF Point Load 1 Live Load: PL1 2= 506 LB Dead Load: PD1 -2= 400 LB Location (From left end of span): X1 -2= 2.5 FT Trapezoidal Load 1 Left Live Load: TRL- Left-1 -2= 440 PLF Left Dead Load: TRD- Left-1 -2= 165 PLF Right Live Load: TRL Right -1 -2= 440 PLF Right Dead Load: TRD- Right -1 -2= 165 PLF Load Start: A -1 -2= 0.0 FT Load End: B -1 -2= 2.5 FT Load Length: C -1 -2= 2.5 FT Trapezoidal Load 2 Left Live Load: TRL- Left-2 -2= 360 PLF Left Dead Load: TRD- Left-2 -2= 135 PLF Right Live Load: TRL- Right -2 -2= 360 PLF Right Dead Load: TRD- Right -2 -2= 135 PLF Load Start: A -2 -2= 2.5 FT Load End: B -2 -2= 4.0 FT Load Length: C -2 -2= 1.5 FT Properties For: #2- Douglas Fir -Larch Bending Stress: Fb= 875 PSI Shear Stress: Fv= 85 PSI Modulus of Elasticity: E= 1300000 PSI Stress Perpendicular to Grain: Fc_perp= 625 PSI Adjusted Properties Fb' (Tension): Fb'= 874 PSI Adjustment Factors: Cd =1.00 CI =1.00 Cf =1.00 Fv': Fv'= 85 PSI Adjustment Factors: Cd =1.00 Design Requirements: Controlling Moment: M= 3068 FT -LB 2.24 Ft from left support of span 2 (Center Span) Critical moment created by combining all dead loads and live loads on span(s) 2 Controlling Shear: V= 2011 LB At a distance d from right support of span 2 (Center Span) Critical shear created by combining all dead loads and live loads on span(s) 2 Comparisons With Required Sections: Section Modulus (Moment): Sreq= 42.12 N3 S= 82.73 N3 Area (Shear): Areq= 35.49 N2 A= 52.25 N2 Moment of Inertia (Deflection): Ireq= 33.30 N4 I= 392.96 N4 Multi- Loaded Beam( 2000 International Building Code (97 NDS) Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 1:58:30 PM Protect: Location: RPPF 4 Summary: 5.125 IN x 15.0 IN x 14.0 FT 24F -V4 Visually Graded Western Species Dry Use Section Adequate By: 29.6% Controlling Factor: Section Modulus Depth Required 13.18 In Center Span Deflections: Dead Load: DLD- Center= 0.16 IN Live Load: LLD- Center= 0.18 IN L/950 Total Load: TLD- Center= 0.33 IN L/506 Camber Required: C= 0.23 IN Center Span Left End Reactions (Support A): Live Load: LL- Rxn -A= 2519 LB Dead Load: DL- Rxn -A= 2386 LB Total Load: TL- Rxn -A= 4904 LB Bearing Length Required (Beam only, support capacity not checked): BL -A= 1.47 IN Center Span Right End Reactions (Support B): Live Load: LL- Rxn -B= 2519 LB Dead Load: DL- Rxn -B= 2386 LB Total Load: TL- Rxn -B= 4904 LB Bearing Length Required (Beam only, support capacity not checked): BL -B= 1.47 IN Beam Data: Center Span Length: L2= 14.0 FT Center Span Unbraced Length -Top of Beam: Lu2 -Top= 7.0 FT Center Span Unbraced Length- Bottom of Beam: Lu2- Bottom= 14.0 FT Live Load Duration Factor: Cd= 1.00 Live Load Deflect. Criteria: L/ 360 Total Load Deflect. Criteria: U 240 Center Span Loading: Uniform Load: Live Load: wL -2= 75 PLF Dead Load: wD -2= 113 PLF Beam Self Weight: BSW= 19 PLF Total Load: wT -2= 207 PLF Point Load 1 Live Load: PL1 -2= 3987 LB Dead Load: PD1 -2= 2928 LB Location (From left end of span): X1 -2= 7.0 FT Properties For: 24F -V4- Visually Graded Western Species Bending Stress: Fb= 2400 PS Shear Stress: Fv= 190 PS Modulus of Elasticity: Ex= 1800000 PS Ey= 1600000 PS Stress Perpendicular to Grain: Fc perp= 650 PS Bending Stress of Comp. Face in Tension: Fb_cpr= 1200 PS Adjusted Properties Fb' (Tension): Fb'= 2368 PS Adjustment Factors: Cd =1.00 CI =0.99 Fv': Fv'= 190 PS Adjustment Factors: Cd =1.00 Design Requirements: Controlling Moment: M= 29266 FT -LB 7.0 Ft from left support of span 2 (Center Span) Critical moment created by combining all dead loads and live loads on span(s) 2 Controlling Shear: V= 4673 LB At a distance d from left support of span 2 (Center Span) Critical shear created by combining all dead loads and live loads on span(s) 2 Comparisons With Required Sections: Section Modulus (Moment): Sreq= 148.32 N3 S= 192.19 N3 Area (Shear): Areq= 36.89 N2 A= 76.88 N2 Moment of Inertia (Deflection): Ireq= 683.84 N4 1= 1441.41 N4 Multi- Loaded Beamf 2000 International Building Code (97 NDS)1 Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009: 1:03:11 PM Project: Location: FLOOR 5 Summary: 5.5 IN x 11.5 IN x 4.0 FT #2 Douglas Fir -Larch Dry Use Section Adequate By: 20.4% Controlling Factor: Area Depth Required 9.55 In Center Span Deflections: Dead Load: DLD- Center= 0.00 IN Live Load: LLD Center= 0.01 IN L/5566 Total Load: TLD- Center= 0.01 IN L/3581 Center Span Left End Reactions (Support A): Live Load: LL- Rxn -A= 2150 LB Dead Load: DL- Rxn -A= 1208 LB Total Load: TL- Rxn -A= 3358 LB Bearing Length Required (Beam only, support capacity not checked): BL -A= 0.98 IN Center Span Right End Reactions (Support B): Live Load: LL- Rxn -B= 2234 LB Dead Load: DL- Rxn -B= 1299 LB Total Load: TL- Rxn -B= 3533 LB Bearing Length Required (Beam only, support capacity not checked): BL -B= 1.03 IN Beam Data: Center Span Length: L2= 4.0 FT Center Span Unbraced Length -Top of Beam: Lu2 -Top= 1.67 FT Center Span Unbraced Length- Bottom of Beam: Lu2- Bottom= 4.0 FT Live Load Duration Factor: Cd= 1.00 Live Load Deflect. Criteria: L/ 360 Total Load Deflect. Criteria: L/ 240 Center Span Loading: Uniform Load: Live Load: wL -2= 325 PLF Dead Load: wD -2= 263 PLF Beam Self Weight: BSW= 15 PLF Total Load: wT -2= 603 PLF Point Load 1 Live Load: PL1 -2= 1984 LB Dead Load: PD1 -2= 981 LB Location (From left end of span): X1 -2= 2.5 FT Trapezoidal Load 1 Left Live Load: TRL- Left-1 -2= 440 PLF Left Dead Load: TRD- Left-1 -2= 165 PLF Right Live Load: TRL Right -1 -2= 440 PLF Right Dead Load: TRD- Right -1 -2= 165 PLF Load Start: A -1 -2= 0.0 FT Load End: B -1 -2= 2.5 FT Load Length: C -1 -2= 2.5 FT Properties For: #2- Douglas Fir -Larch Bending Stress: Fb= 875 PSI Shear Stress: Fv= 85 PSI Modulus of Elasticity: E= 1300000 PSI Stress Perpendicular to Grain: Fc_perp= 625 PSI Adjusted Properties Fb' (Tension): Fb'= 874 PSI Adjustment Factors: Cd =1.00 CI =1.00 Cf =1.00 Fv': Fv'= 85 PSI Adjustment Factors: Cd =1.00 Design Requirements: Controlling Moment: M= 4613 FT -LB 2.48 Ft from left support of span 2 (Center Span) Critical moment created by combining all dead loads and live loads on span(s) 2 Controlling Shear: V= 2977 LB At a distance d from right support of span 2 (Center Span) Critical shear created by combining all dead loads and live loads on span(s) 2 Comparisons With Required Sections: Section Modulus (Moment): Sreq= 63.34 N3 S= 121.23 N3 Area (Shear): Areq= 52.54 N2 A= 63.25 N2 Moment of Inertia (Deflection): Ireq= 46.72 N4 I= 697.07 N4 Combination Roof and Floor Beam' 2000 International Building Code (97 NDS) Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009 2:02:26 PM Project: Location: ROOF 6 Summary: (2) 1.5 IN x 5.5 IN x 4.0 FT #2 Douglas Fir -Larch Dry Use Section Adequate By: 247.1% Controlling Factor: Area Depth Required 2.82 In Deflections: Dead Load: DLD= 0.01 IN Live Load: LLD= 0.01 IN U5839 Total Load: TLD= 0.02 IN U2499 Reactions (Each End): Live Load: LL -Rxn= 190 LB Dead Load: DL -Rxn= 254 LB Total Load: TL -Rxn= 444 LB Bearing Length Required (Beam only, support capacity not checked): BL= 0.24 IN Beam Data: Span: L= 4.0 FT Maximum Unbraced Span:. Lu= 4.0 FT Live Load Deflect. Criteria: U 360 Total Load Deflect. Criteria: U 240 Roof Loading: Roof Live Load -Side One: RLL1= 25.0 PSF Roof Dead Load -Side One: RDL1= 15.0 PSF Roof Tributary Width -Side One: RTW1= 2.0 FT Roof Live Load -Side Two: RLL2= 25.0 PSF Roof Dead Load -Side Two: RDL2= 15.0 PSF Roof Tributary Width -Side Two: RTW2= 1.0 FT Roof Duration Factor: Cd -roof= 1.15 Floor Loading: Floor Live Load -Side One: FLL1= 40.0 PSF Floor Dead Load -Side One: FDL1= 15.0 PSF Floor Tributary Width -Side One: FTW1= 0.5 FT Floor Live Load -Side Two: FLL2= 40.0 PSF Floor Dead Load -Side Two: FDL2= 15.0 PSF Floor Tributary Width -Side Two: FTW2= 0.0 FT Floor Duration Factor: Cd -floor= 1.00 Wall Load: WALL= 68 PLF Beam Loads: Roof Uniform Live Load: wL -roof= 75 PLF Roof Uniform Dead Load (Adjusted for roof pitch): wD- roof 47 PLF Floor Uniform Live Load: wL- floor= 20 PLF Floor Uniform Dead Load: wD -floor= 8 PLF Beam Self Weight: BSW= 4 PLF Combined Uniform Live Load: wL= 95 PLF Combined Uniform Dead Load: wD= 127 PLF Combined Uniform Total Load: wT= 222 PLF Controlling Total Design Load: wT -cont= 222 PLF Properties For: #2- Douglas Fir -Larch Bending Stress: Fb= 900 PSI Shear Stress: Fv= 95 PSI Modulus of Elasticity: E= 1600000 PSI Stress Perpendicular to Grain: Fc_perp= 625 PSI Adjusted Properties Fb' (Tension): Fb'= 1337 PSI Adjustment Factors: Cd =1.15 CI =0.99 Cf =1.30 Fv': Fv'= 109 PSI Adjustment Factors: Cd =1.15 Design Requirements: Controlling Moment: M= 444 FT -LB 2.0 ft from left support Critical moment created by combining all dead and live loads. Controlling Shear: V= 346 LB At a distance d from support. Critical shear created by combining all dead and live loads. Comparisons With Required Sections: Section Modulus (Moment): Sreq= 3.98 N3 S= 15.13 N3 Area (Shear): Areq= 4.75 N2 A= 16.50 N2 Moment of Inertia (Deflection): Ireq= 3.99 N4 1= 41.59 N4 Combination Roof and Floor Beam' 2000 International Building Code (97 NDS) Ver: 6.00.7 By: Charles Smith Lindberg Smith on: 08 -18 -2009 2:03:12 PM Project: 1 Location: ROOF 7 Summary: 3.5 IN x 5.5 IN x 4.0 FT #2 Douglas Fir -Larch Dry Use Section Adequate By: 2.9% Controlling Factor: Area Depth Required 5.35 In Deflections: Dead Load: DLD= 0.02 IN Live Load: LLD= 0.04 IN L/1182 Total Load: TLD= 0.06 IN L/741 Reactions (Each End): Live Load: LL -Rxn= 1095 LB Dead Load: DL -Rxn= 653 LB Total Load: TL -Rxn= 1748. LB Bearing Length Required (Beam only, support capacity not checked): BL= 0.80 IN Beam Data: Span: L= 4.0 FT Maximum Unbraced Span: Lu= 1.0 FT Live Load Deflect. Criteria: L/ 360 Total Load Deflect. Criteria: L/ 240 Roof Loading: Roof Live Load -Side One: RLL1= 25.0 PSF Roof Dead Load -Side One: RDL1= 15.0 PSF Roof Tributary Width -Side One: RTW1= 2.0 FT Roof Live Load -Side Two: RLL2= 25.0 PSF Roof Dead Load -Side Two: RDL2= 15.0 PSF Roof Tributary. Width -Side Two: RTW2= 5.5 FT Roof Duration Factor: Cd -roof= 1.15 Floor Loading: Floor Live Load -Side One: FLL1= 40.0 PSF Floor Dead Load -Side One: FDL1= 15.0 PSF Floor Tributary Width -Side One: FTW1= 9.0 FT Floor Live Load -Side Two: FLL2= 40.0 PSF Floor Dead Load -Side Two: FDL2= 15.0 PSF Floor Tributary Width -Side Two: FTW2= 0.0 FT Floor Duration Factor: Cd -floor= 1.00 Wall Load: WALL= 68 PLF Beam Loads: Roof Uniform Live Load: wL -roof= 188 PLF Roof Uniform Dead Load (Adjusted for roof pitch): wD -roof= 119 PLF Floor Uniform Live Load: wL -floor= 360 PLF Floor Uniform Dead Load: wD -floor= 135 PLF Beam Self Weight: BSW= 5 PLF Combined Uniform Live Load: wL= 548 PLF Combined Uniform Dead Load: wD= 326 PLF Combined Uniform Total Load: wT= 874 PLF Controlling Total Desiqn Load: wT -cont= 874 PLF Properties For: #2- Douglas Fir -Larch Bendinq Stress: Fb= 900 PSI Shear Stress: Fv= 95 PSI Modulus of Elasticity: E= 1600000 PSI Stress Perpendicular to Grain: Fc_perp= 625 PSI Adjusted Properties Fb' (Tension): Fb'= 1344 PSI Adjustment Factors: Cd =1.15 CI =1.00 Cf =1.30 Fv': Fv'= 109 PSI Adjustment Factors: Cd =1.15 Design Requirements: Controlling Moment: M= 1748 FT -LB 2.0 ft from left support Critical moment created by combining all dead and live Toads. Controlling Shear: V= 1363 LB At a distance d from support. Critical shear created by combining all dead and live Toads. Comparisons With Required Sections: Section Modulus (Moment): Sreq= 15.60 N3 S= 17.65 N3 Area (Shear): Areq= 18.71 N2 A= 19.25 N2 Moment of Inertia (Deflection): lreq= 15.73 N4 1= 48.53 N4