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APPROVED BLD-BLD2020-1177+Structural_Calculations+10.30.2020_10.20.19_AMNASH & ASSOCIATES ARCHITECTS RECEIVED Nov 05 2020 CITY OF EDMONDS DEVELOPMENT SERVICES DEPARTMENT i............................................ REVIEWED BY CITY OF EDMONDS BUILDING DEPARTMENT PLAN 3112 BEAM, LATERAL AND SEISMIC CALCULATIONS REf,;I�Tr l�ED Aki.rii i T WASHINGTON 2015 IBC JULY 1, 2016 8003 118th AVE NE Kirkland, WA 98033 (425) 828-4117 WWW. NASH-ARCHITECTS. COM CLIENT: NASH - ASSOCIATES BEAM DESIGN DATA PROJECT. ARCHITECTS DATE: NAME: Roof Loads: LL 25 #/sf DL 15 #/sf Total 40 #/sf Unless Noted Otherwise Floor Loads: LL 40 #/sf DL 10 #/sf Total 50 #/sf Deck Loads: LL 60 #/sf DL 10 #/sf Total 70 #/sf Soil: 1500 PSF Min. Concrete: Per IBC 15 Masonry Per IBC 15 Steel Per IBC 15 Wood: Per IBC 15 Nailing: Per IBC 15 4" Beam: Douglas Fir #2 fv = 180 fb = 900 PSI E = 1,600.000 6" Beam: Douglas Fir #2 fv = 170 fb = 875 PSI E = 1,300,000 Joists & Hem Fir #2 Rafters: fv = 150 fb = 850 PSI E = 1,300,000 Glu—Lam Beams: fv = 240 PSI fb = 2,400 PSI (reduced by size factor, CF■ffi) E = 1,800,000 8003 118th AVE NE Kirkland, WA 98033 (425) 828-4117 WWW. NASH—ARCHITECTS. COM BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 _ MASTER BEDROOM RB-1 Date: 6/18/13 Selection 3-1/8x 9 GLB 24F-V4 DF/DF Lu = 0.0 Ft Conditions NDS 2005 Min Bearing Area R1= 4.0 in2 R2= 4.0 in (1.5) DL Defl= 0.07 in Recom Camber= 0.10 in Data Beam Span 7.0 ft Reaction 1 LL 1621 # Reaction 2 LL 1621 # Beam Wt per ft 6.83 # Reaction 1 TL 2614 # Reaction 2 TL 2614 # Bm Wt Included 48 # Maximum V 2614 # Max Moment 4574'# Max V (Reduced) 2054 # TL Max Defl L / 240 TL Actual Defl L / 599 LL Max Defl L / 360 LL Actual Defl L / >1000 Attributes Section (InD Shear m TL Defl in LL Defl Actual 42.19 28.13 0.14 0.07 Critical 22.87 12.84 0.35 0.23 Status OK OK OK OK Ratio 54% 46% 40% 31 % Fb (psi) Fv (psi.) E (psi x mil) FC 1 Values Reference Values 2400 240 1.8 650 Adjusted Values 2400 240 1.8 650 Adiustments Cv Volume 1.000 Cd Duration 1.00 1.00 Cr Repetitive 1.00 Ch Shear Stress N/A Cm Wet Use 1.00 1.00 1.00 1.00 Cl Stability 1.0000 Rb = 0.00 Le = 0.00 Ft Loads Uniform LL: 463 Uniform TL: 740 = A Uniform Load A C- -- 1 -' Z11 R 1 = 2614 R2 = 2614 SPAN =7FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 COVERED PATIO B-1 Date: 6/18/13 Selection 4x 12 DF-L #2 Lu = 0.0 Ft Conditions NDS 2005 Min Bearing Area R1= 1.9 in2 R2= 1.9 in' (1.5) DL Defl= 0.09 in Data Beam Span 13.0 ft Reaction 1 LL 813 # Reaction 2 LL Beam Wt per ft 9.57 # Reaction 1 TL 1200 # Reaction 2 TL Bm Wt Included 124 # Maximum V 1200 # Max Moment 3899'# Max V (Reduced) 1027 # TL Max Defl L / 240 TL Actual Defl L / 754 LL Max Defl L / 360 LL Actual Defl L / > 1000 Attributes Section (in') Shear (ink TL Defl (in) LL Defl Actual 73.83 39.38 0.21 0.12 CriticE F47.26 8.56 0.65 0.43 Status OK OK OK OK Ratio 64% 22% 32% 28% Fb (psi) _Fv (Psi) E (psi x mil) F_ c(psi Values Reference Values 900 180 1.6 625 Adjusted Values 990 180 1.6 625 Ad-Lstments CF Size Factor Cd Duration Cr Repetitive Ch Shear Stress Cm Wet Use Cl Stability Loads R1 = 1200 1.100 1.00 1.00 1.00 N/A 1.00 1.00 "I.000U KD = U.UU Le = u.uu ri Uniform LL: 125 Uniform Load A Uniform TL: 175 = A R2 = 1200 SPAN =13FT Uniform and partial uniform loads are Ibs per lineal ft. 813# 1200 # BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 DINING ROOM B-2 Date: 6/18/13 Selection 4x 10 DF-L #2 Lu = 0.0 Ft Conditions NDS 2005 Min Bearing Area R1= 2.1 in R2= 2.1 in (1.5) DL Defl= 0.05 in Data Beam Span 8.0 ft Reaction 1 LL 800 # Reaction 2 LL 800 # Beam Wt per ft 7.87 # Reaction 1 TL 1311 # Reaction 2 TL 1311 # Bm Wt Included 63 # Maximum V 1311 # Max Moment 2623'# Max V (Reduced) 1059 # TL Max Defl L / 240 TL Actual Defl L / 984 LL Max Defl L / 360 LL Actual Defl L / >1000 Attributes Section 00 Shear to TL Defl in LL Defl Actual 49.91 32.38 0.10 0.05 Critical 29.14 8.82 0.40 0.27 Status OK OK OK OK Ratio 58% 27% 24% 19% Values Adiustments Loads Reference Values i Adjusted Values CF Size Factor Cd Duration Cr Repetitive Ch Shear Stress Cm Wet Use Cl Stability Fb (psi) Fv (psi) E (psi x mil) 900 180 1.6 1080 180 1.6 1.200 1.00 1.00 1.00 N/A 1.00 1.00 1.00 1.0000 Rb = 0.00 Le = 0.00 Ft Uniform LL: 200 Uniform TL: 320 = A Fc L (ILsi)_ 625 625 1.00 Uniform Load A 1 R1=1311 R2=1311 SPAN =8FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 DINING ROOM B-3 Date: 6/18/13 Selection 3-1/8x 9 GLIB 24F-V4 DF/DF Lu = 0.0 Ft Conditions NDS 2005 Data Attributes Actual Critical Status Ratio Nun Gearing Area Kl= 4.0 In` KL= 4.0 In` (1.5) uL uerl= u.1Z In Kecom uamoer= u.-id In Beam Span 8.0 ft Reaction 1 LL 1400 # Reaction 2 LL 1400 # Beam Wt per ft 6.83 # Reaction 1 TL 2587 # Reaction 2 .TL 2587 # Bm Wt Included 55 # Maximum V 2587 # Max Moment 5175'# Max V (Reduced) 2102 # TL Max Defl L / 240 TL Actual Defl L / 448 LL Max Defl L / 360 LL Actual Defl L / >1000 Section in' Shear in TL Defl in LL Defl 42.19 28.13 0.21 0.09 25.87 13.14 0.40 0.27 OK OK OK OK 61% 47% 54% 35% Fb �� Values Reference Values 2400 Ad'usted Values 2400 Adjustments Cv Volume 1.000 Cd Duration 1.00 Cr Repetitive 1.00 Ch Shear Stress Cm Wet Use 1.00 Fv (ps 240 240 1.00 N/A 1.00 E (psi x mil) Fc I 1.8 650 1 R ASS 1.00 1.00 Cl Stability 1.0000 Rb = 0.00 Le = 0.00 Ft Loads Uniform LL: 350 Uniform TL: 640 = A R1 = 2587 Uniform Load A R2 = 2587 SPAN =8FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 GREAT ROOM B-4 Date: 7/15/13 Selection 3-1/8x 10-1/2 GLB 24F-V4 DF/DF Lu = 8.0 Ft Conditions NDS 2005 Min Bearing Area R1= 8.6 in2 R2= 8.6 in (1-5) DL Defl= 0.08 in Recom Camber= 0.12 in Data Beam Span 8.0 ft Reaction 1 LL 3684 # Reaction 2 LL 3684 # Beam Wt per ft 7.97 # Reaction 1 TL 5566 # Reaction 2 TL 5566 # Bm Wt Included 64 # Maximum V 5566 # Max Moment 7138'# Max V (Reduced) 4316 # TL Max Defl L / 240 TL Actual Defl L / 460 LL Max Defl L / 360 LL Actual Defl L / 762 Attributes Section in' Shear fln TL Defl in LL Defl Actual 57.42 32.81 0.21 0.13 Critical 36.93 26.98 0.40 0.27 Status OK OK OK OK Ratio 64% 82% 52% 47% _ Fb (psi) Fv (psi) E (psi x mil Fc-(psi) Values Reference Values 2400 240 1.8 650 Adjusted Values 2319 240 1.8 650 Adiustments Cv Volume 1.000 Cd Duration 1.00 1.00 Cr Repetitive 1.00 Ch Shear Stress N/A Cm Wet Use 1.00 1.00 1.00 1.00 Cl Stability 0.9663 Rb = 14.22 Le = 15.67 Ft Loads Point LL Point TL Distance Par Unif LL Par Unif TL Start End 1621 B = 2614 1.0 863 H = 1420 0 1.0 1621 C = 2614 7.0 400 1 = 500 1.0 7.0 863 J = 1420 7.0 8.0 H Pt loads: FBI CC R1 = 5566 R2 = 5566 SPAN = 8 FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 MUDROOM B-5 Date: 7/15/13 Selection 5-1/8x 12 GLB 24F-V4 DF/DF Lu = 6.0 Ft Conditions NDS 2005 Min Bearing Area R1= 8.4 in2 R2= 13.7 inz (1.5) DL Defl= 0.04 in Recom Camber= 0.06 in Data Beam Span 6.0 ft Reaction 1 LL 3134 # Reaction 2 LL 5217 # Beam Wt per ft 14.94 # Reaction 1 TL 5450 # Reaction 2 TL 8935 # Bm Wt Included 90 # Maximum V 8935 # Max Moment 16539'# Max V (Reduced) 8280 # TL Max Defl L / 240 TL Actual Defl L / 874 LL Max Defl L / 360 LLActual Defl L / >1000 Attributes Section in' Shear in TL Defl in LL Defl Actual 123.00 61.50 0.08 0.04 Critical 83.37 51.75 0.30 0.20 Status OK OK OK OK Ratio 68% 84% 27% 20% Values Adjustments Fb(psi) Fv(psi) E(psi x mil).Fc1(psi) Reference Values 2400 240 1.8 650 Adjusted Values 2380 240 1.8 650 Cv Volume 1.000 Cd Duration 1.00 1.00 Cr Repetitive 1.00 Ch Shear Stress N/A Cm Wet Use 1.00 1.00 1.00 1.00 Cl Stability 0.9918 Rb = 8.23 Le = 12.36 Ft Loads Uniform LL: 350 Uniform TL: 640 = A Point LL Point TL Distance 6251 B = 10455 4.0 Uniform Load A Pt loads: R 1 = 5450 R2 = 8935 SPAN =6FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 DINING ROOM B-GT Date: 6/18/13 Selection 3-1/8x 18 G_LB 24F-V4 DF/DF Lu = 0.0 Ft Conditions NDS 2005 Min Bearing Area R1= 9.4 in2 R2= 9.4 in (1.5) DL Defl= 0.13 in Recom Camber= 0.20 in Data Beam Span 16.0 ft Reaction 1 LL 4800 # Reaction 2 LL 4800 # Beam Wt per ft 13.67 # Reaction 1 TL 6109 # Reaction 2 TL 6109 # Bm Wt Included 219 # Maximum V 6109 # Max Moment 24437'# Max V (Reduced) 4964 # TL Max Defl L / 240 TL Actual Defl L / 422 LL Max Defl L / 360 LL Actual Defl L / 594 Attributes Section (in') Shear (ins} TL Defl (in) LL Defl Actual 168.75 56.25 0.46 0.32 Critical 122.19 31.02 0.80 0.53 Status OK OK OK OK Ratio 72% 55% 57% 61 % Values Adjustments Loads Fb (psi) Fv(psi) E(psi x mil Fc!(psi) Reference Values 2400 240 1.8 650 Adjusted Values 2400 240 1.8 650 Cv Volume 1.000 Cd Duration 1.00 1.00 Cr Repetitive 1.00 Ch Shear Stress N/A Cm Wet Use 1.00 1.00 1.00 1.00 CI Stability 1.0000 Rb = 0.00 Le = 0.00 Ft Uniform LL: 600 Uniform TL: 750 =A Uniform Load A 0 R1 = 6109 R2 = 6109 SPAN =16FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 GARAGE GB-1 Date: 6/18/13 Selection 3-1/8x 10-1/2 GLB 24F-V4 DF/DF Lu = 0.0 Ft Conditions NDS 2005 Min Bearing Area R1= 3.0 inz R2= 3.0 in (1.5) DL Defl= 0.07 in Recom Camber= 0.11 in Data Beam Span 11.0 ft Reaction 1 LL 1540 # Reaction 2 LL 1540 # Beam Wt per ft 7.97 # Reaction 1 TL 1969 # Reaction 2 TL 1969 # Bm Wt Included 88 # Maximum V 1969 # Max Moment 5414'# Max V (Reduced) 1656 # TL Max Defl L / 240 TL Actual Defl L / 549 LL Max Defl L / 360 LL Actual Defl L / 778 Attributes Section (in') Shear (inn TL Defl (in) LL Defl Actual 57.42 32.81 0.24 0.17 Critical 27.07 10.35 0.55 0.37 Status OK OK OK OK Ratio 47% 32% 44% 46% Fb (psi) Fv (psi) E (psi x mil) Fc L (psi) Values Reference Values 2400 240 1.8 650 Adjusted Values 2400 240 1.8 650 Adiustments Cv Volume 1.000 Cd Duration 1.00 1.00 Cr Repetitive 1.00 Ch Shear Stress N/A Cm Wet Use 1.00 1.00 1.00 1.00 Cl Stability 1.0000 Rb = 0.00 Le = 0.00 Ft Loads Uniform LL: 280 Uniform TL: 350 =A Uniform Load A ] R1 = 1969 R2 = 1969 SPAN =11 FT Uniform and partial uniform loads are Ibs per lineal ft. BeamChek v2011 licensed to: Michael Johnson Reg # 7992-66428 GARAGE GB-2 Date: 6/18/13 Selection 3-1/8x 12 GLB 24F-V4 DF/DF Lu = 0.0 Ft Conditions NDS 2005 Min Bearing Area R1= 2.0 in2 R2= 1.9 in (1.5) DL Defl= 0.44 in Recom Camber= 0.67 in Data Beam Span 16.0 ft Beam Wt per ft 9.11 # Reaction 1 TL 1298 # Reaction 2 TL 1248 # Bm Wt Included 146 # Maximum V 1298 # Max Moment 4895'# Max V (Reduced) 1189 # TL Max Defl L / 240 TL Actual Defl L / 432 Attributes Actual Critical Status Ratio Values A ftstments Section_(in' Shear (in') TL Defl (in) 75.00 37.50 0.44 24.47 7.43 0.80 OK OK OK 33% 20% 56% Fb (psi) Fv (psi) Reference Values 2400 240 Adjusted Values 2400 240 Cv Volume 1.000 Cd Duration 1.00 1.00 Cr Repetitive 1.00 Ch Shear Stress N/A Cm Wet Use 1.00 1.00 E(psi x 1.8 1.8 1KIT11 CI Stability 1.0000 Rb = 0.00 Le = 0.00 Ft Fc L (psi) 650 650 1.00 Loads Uniform TL: 100 = A 77-71 Point TL Distance B = 400 3.0 C = 400 12.0 Uniform Load A Pt loads: 10 Id d R1 = 1298 R2 = 1248 SPAN =16FT Uniform and partial uniform loads are Ibs per lineal ft. !NASH CLIENT. & ASSOCIATES WIND AND 5E 15M I G DE516N DATA PROJECT ARCHITECTS PER 2015 IBG DATE: NAME. WIND DE516N GRITERIA DE51614 PER A50E 7-10 I. NOMINAL/ULTIMATE WIND SPEED V/asd / Vult 85/110 mph 2. RISK CATEGORY II 1.00 5. WIND EXPOSURE CATEGORY "B" 4. INTERNAL PRE55LIRE GOEFFIGENT +/-55 5. COMPONENTS AND GLADDIN6 DES16N PRE55LRE +/- 16 psf BUILDINGS, STRUCTURES, AND PARTS THEREOF SHALL BE DE516NED AND CONSTRUCTED IN ACCORDANCE WITH 5TREN5TH DESIGN, LOAD, AND RESISTANCE FACTOR DE516N, ALLOWABLE STRE55 DESIGN, EMPIRICAL DESIGN OR CONVENTIONAL CONSTRUCTION METHODS, AS PERMITTED BY THE APPLICABLE MATERIAL CHAPTER, SECTION 1604.1 BUILDINGS, 5TRUGTURES, AND PARTS THEREOF, SHALL BE DE516NED TO WITHSTAND WIND LOADS AS DEFINED IN SECTION 16001 AND A5GE 7-10 SIMPLIFIED METHOD TO BE L"M? FOR WIND DE516N PER ASGE "1-10, SECTION 2-7S (BUILDING HEIGHT 15 LESS THAN 160 FEET? 110 MPH ULTIMATE WIND SPEED USE 14.6 PSF PER TABLE 27.6.1 "EXPOSURE B" WOOD DESIGN PER SECTIONS 2304-2506. 5TRUGTL RE-5 U51N6 WOOD SHEAR WALLS AND DIAPHRAGM5 TO RE515T WIND, SEISMIC, AND ALL OTHER LATERAL LOADS SHALL BE DE516NED AND CONSTRUCTED IN ACCORDANCE WITH AF 4 PA 5DPW5 AND PROV15IONS OF SECTIONS 2305-2306 5E15MIG DESIGN DATA DESIGN PER A5CE i-10/SECTION 1613 I. SEISMIC IMPORTANCE FACTOR le 1.00 2. SHORT PERIOD ACCELERATION 59 1.66 "see footnote at bottom of page 3. 1 SECOND ACCELERATION 51 0:748 'see footnote at bottom of page 4. 51TE GLA55 D (default class per IBG) 5. SPECTRAL RESPONSE COEFFICIENT So, OA72 'see footnote at bottom of page 6. SPECTRAL RESPONSE COEFFICIENT Sp 0.748 *see footnote at bottom of page 7. SEISMIC DESIGN CATEGORY D 8. SEISMIC FORCE RESISTING 5Y5TEM PLYWOOD SHEAR WALLS 4. DE516N BASE SHEAR (see selsmic calculations) 10. SEISMIC RESPONSE COEFFICIENT C5 0.15 11. RESPONSE MODIFICATION FACTOR R 6.5 12. ANALY515 PROCEDURE EQUIVALENT LATERAL FORGE 15. R15K GATE5ORY II THE ANCHORAGE OF WALLS SUPPORTING GON5TRUGTION SHALL BE BE DESIGNED IN ACCORDANCE WITH ASGE 7-10, SECTION 12.11.2 IN 5TRUGTURE5 ASSIGNED TO SEISMIC DE516N CATEGORY G-F, COLLECTOR ELEMENTS AND THEIR CONNECTIONS TO VERTICAL ELEMENTS SHALL BE DESIGNED TO RESIST MAXIMUM EFFECTS AS SPECIFIED IN ASGE "1-10, SECTION 12.102.1 BASE SHEAR V= (F 5vs /R) W ANCHOR BOLT5e 5/8" DIA X 10", A30*7 OR BETTER W/ 7" MIN. EMBEDMENT. V= 1104#/BOLT PER U565, THE MAXIMUMS, IN THE STATE OF WASHINGTON 15 0.748. ALL SEISMIC DESIGN VALUES USED IN THIS ANALY515 ARE BASED UPON THIS NUMBER. SINGE 5115 LE55 THAN 0.-15, THEN USE SEISMIC CATEGORY D IF R15K CATEGORY 15 I, 11, OR III 8003 118th AVE NE Kirkland, IPA 98033 (425) 828-4117 WWW. NASH-ARCHITECTS. COM sd J ,p I 14-9 1d t,-9-id CLIENT: PROJECT: NASH & ASSOCIATES LATERAL CALCULATIONS WIND WORKSHEET DATE: ARCHITECTS 55 MPH/110 MPH= NOMINALNLTIMATE WIND SPEED NAME: 19b P5P- EXPOSURE "B" FRONT ELEVATION LEFT ELEVATION REAR ELEVATION RIGHT ELEVATION LOCATION TOTAL SHEAR FORCE (#) W x H x (see chart for wind pressure SHEAR WALL UNIT SHEAR SHEAR WALL 0 specified height) LENGTH (ft) (#/ft) TYPE 3Sz� /7 f � 3sz 3-- �dn 1 &faro /7 RX�9r( Cu� xRXl�r��I 3r�s e 3 z tfg 3SZ -7�s4, '2 3/3 191-yll 7os C16 /53 Pl—&(r 14 mely Cfc-1<0 13/Vd/1� 8 b 2 0 � �, 2S 3 Pl 2'/ k r� k Rr 6 -y 3 17 cZ3 - 11644 N.E. 80th St. Kirkland, WA 98033 (425) 828-4117 Fax (425) 822-1918 WWW. NASH—ARCHITECTS. COM LATERAL CALCULATIONS CLIENT: 7 NASH ASSOCIATE$ PROJECT: WIND WORKSHEET DATE: ARCHITECTS 85 MPH/110 MPH= NOMINALNLTIMATE WIND SPEED NAME: Iq.6 P5F- EXPOSURE "B° FRONT ELEVATION LEFT ELEVATION REAR ELEVATION RIGHT ELEVATION LOCATION TOTAL SHEAR FORCE (#) SHEAR UNIT SHEAR W x H x (see chart for grind pressure WALL SHEAR WALL 0 specified height) LENGTH (ft) (#/ft) TYPE bJVXV4j o y a K 4,C2> Z �S 6 11644 N.E. 80th St. Kirkland, WA 98033 (425) 828-4117 Fax (425) 822-1918 WWW. NASH—ARCHITECTS. COM CLIENT: NASH & ASSOCIATES SEISMIC ANALYSIS PROJECT: ARCHITECTS DATE: NAME - Weight of Building: Roof Assembly. Asphalt Shingles - 2.00 #/ft Cedar Shakes - 2.25 #/ft Tile - 9.50 #/ft Felt - 0.15 #/ft Felt - 0.15 #/ft Felt 0.15 #/ft 1/2" Plywood - 1.50 #/ft 1/2" Plywood - 1.50 #/ft 1/2" Plywood - 1.60 #/ft Trusses ® 24" o.c. - 1.75 #/ft Trusses 0 24" o.c. - 1.75 #/ft Trusses 0 24" o.c. - 1.75 #/ft R-38 Insulation - 2.35 #/ft R-30 Insulation - 2.25 #/ft R-30 Insulation - 2.25 #/ft 1/2" GWB Ceiling - 2.00 #/ft 1/2" GWB Ceiling - 2.00 #/ft 1/2" GWB Ceiling - 2.00 #/ft Total 9.75 #/ft Total 9.90 #/ft Total 17.90 #/ft Use 10.00 #/ft Use 10.00 #/ft Use 18.00 #/ft 1st & 2nd Floor Assembly: Caret / Pad 0.50 #/ft Hardwood - 2.50 #/ft 3/4' T&G Plywood - 2.50 #/ft 3/4" T&G Plywood - 2.50 #/ft 2x10 ® 16" o.c. - 2.30 #/ft 2x10 0 16' o.c. - 2.30 #/ft 1/2" GWB Ceiling - 2.00 #/ft 1/2" GWB Ceiling - 2.00 #/ft Total 7.30 #/ft Total 9.30 #/ft Use 10.00 #/ft Use 10.00 #/ft Interior Wall Assembly: Exterior Wall Assembly: 1/2" GWB - 2.00 #/ft 3/4" Wood Siding - 2.30 #/ft 2X4 ® 16" o.c. - 1.10 #/ft 1/2" Plywood - 1.50 #/ft 1/2" GWB - 2.00 #/ft 2x6 0 16 o.c. - 1.37 #/ft Total 5.10 #/ft R-21 Insulation - 2.10 ft �/ft Use 8.00 #/ft 1/2" GWB- 2.00 Total 9.27 #/ft Use 10.00 #/ft 4" Brick Veneer - + 3.20 #/ft 11644 N.E. 80th St. Kirkland, WA 98033 (425) 828-4117 Fax (425) 822-1918 WWW. NASH-ARCHITECTS. COM 1NAS CLIENT: H & ASSOCIATES SEISMIC ANALYSIS PROJECT: ARCHITECTS DATE: NAME: 2 SEISMIC: V = (C-) (Wdl) (plywood) 2nd Level: Roof: (Asphalt /Cedar Shake) 10#/ft X � � O O sf = j gOO?5 or (Tile) 18#/ft X sf = Exterior Walls: L x 10#/sf x 1/2 (h) / 2OD (E2) Interior Walls: L x 8#/sf x 1/2 (h) TOTAL: — O 1st Level: Roof: (1st Floor Roof) 10#/ft X I Lf d sf = + 4 0 O 2nd Floor: 10#/ft X (D R to sf = Exterior Walls: (E2) L x 10#/sf x 1/2 (h) ('SS Lf 0 /+/ (E1) l2 00'� 'I q2.KIf7,\L4l y— Interior Walls: (I 2) + L x 8#/sf x 1/2 (h) 9 TOTAL: _ '� 4 2 u F-15 S Z Z� Basement: 1st Floor: 10#/ft X sf = , Exterior Walls: (E1) + L x 10#/sf x 1/2 (h) Interior Walls: (I1) + L x 8#/sf x 1/2 (h) TOTAL _ I 11644 N.E. 80th St. Kirkland, WA 98033 (425) 828-4117 Fax (425) 622-1918 WWW. NASH—ARCHITECTS. COM L CLIENT: _ NASH & ASSOCIATES SEISMIC ANALYSIS PROJECT: ARCHITECTS DATE: NAME: BASE SHEAR: BASE SHEAR V= (F 5V5/W W V= F (A-12)/6.5= .14q 2 A Z at b ` LEVEL 2: Wdl #E x 0.149 = LEVEL 1: Wdl V 4 0 Z # x 0.149 = TOTAL:- Wdl / # x 0.149 = � 2 G% (V) Level Dead Load (Wdl) Hei ht (h� Moment (Wdl)(h) Shear @ Stor Fx = [(Wdl)(h)l'V Remarks (Wdl) (h) 311Z 2 f� �, 2g �� z C�► zK� 16 z/ Z 1 I� Total % S S %by 3,( 6 11644 N.E. 60th St. Kirkland, WA 98033 (425) 628-4117 Fax (425) 622-1916 WWW.NASH—ARCHITECTS. COM x LEVEL LEVEL LINE LINE SHEAR LINE SHEAR TOTAL P > 1 WALL LENGTH Vmax SEISMIC (#/ft) WIND SHEAR WALL HEIGHT OVER TURNING HOLD - DOWN SHEAR WALL z�l ABOVE V / 1.4 FORCE REQ d x x o �1� 3� r� 7. f' l7�(! ZG 8 IbOg ,r►s�y 2 Z 3r ti�l 3� r q Z 16 C o Z (� S r� 5 aZ (p 2( s-r 8 r Z JF 31, V1 3<1 fq IG S2 ��'1St it $ 2 j 10 f [ a 1 24 3' j o2 va ZKq r%$ 313 28 17 sib 1 a Z l qb (o21 v& g 'f 15 3 co A . �z i� s� Z ��r I Z1 1�1 qp3 � K3H� Koh c� � 25� �$5 3u3 q 3ob� sy�d 1�6y (� S—, jkqb 5 ��,Z� �� pr r co `°1)2 / ,vZ I �� 4 rS( spyoP z a o z z m ` l NASH&ASSOCIATES SEISMIC ANALYSIS CLIENT: PROJECT: ARCHITECTS DATE: NAME: 5 Redundant Factor L Maximum allowable wall shear for p<=1 Vumax = (2)(Vaccstory)/Ab 1/2 2. Maximum actual shear Vmax = Largest seismic wall shear 500 ...,'q&o 3. p = 2—[2(Vaccstory)/(Vumax)(Ab 1/2) z VV 11644 N.E. 80th St. Kirkland, WA 98033 (425) 828-4117 Fax (425) 822-1918 WWfM1C NASH-ARCHITECTS. COM