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SUMMER CALCULATIONS I BASE I BASE GLASS 1 SINGL GLASS x SUMMER = SUMMER AREA x SUMMER P AREA PT. MULT, POINT!i CLEAR N "'L,\{ 82.2 ,q'/7 N "L\f 51.0 NE \ 82,2 NE . 77.2 E "i/-() 82,2 10 1')'1 P E 'VO 109,2 SE 82,2 SE 112,9 S -1..;] J 82,2 ~ c;c >--C(, S '4 <.I. 1I 100.2 SW 82.2 SW I 112,9 W 1.<. '1 82,2 '7'-1" r W I. t"'." 109,2 NW . 82.2 NW 77.2 U) H' 82.2 ./ H' 367,7 U) C 1../.,."1 .;c:l- 'l_ ).. \ "''' ;;. :)&, ..., :5 -IV /.i.('j (/)....1 <1,. ~ .:.,..<;/ A/ tALJ CJ 'Y -.... I COND ! TOTAL I BASE J BASE -1 ADJUSTED .15 i FLOOR GLASS i ADJUST. i GLASS GLASS AREA T AREA FACTOR SUBTOTAL i BASE SP _ ,15 I 15'<.1 0 I 'l.-UJ..<;/ I d ~~I ~').. ~I I 1~-rr:5 I ... COMPONENT 1 BASE SUMMER I BASE COM DESCRIPTION AREA x POINT. MUL T, = SUMMER DESC POINTS EXTERIOR 10 S-I 1.0 1f).5' I ...J ADJACENT 'l-- I ') .7 1 uc./ ...J CC . ;: ... to f II ... E-PANE OINT MULT, OR TINf2 51.5 76,6 107.1 110,3 98,3 110.3 107,1 76,6 303,3 PONENT RIPTlON 4.8 1.6 CJ UNDER ATTIC I"'~() ,6 a '';)..l/ /'\(..(0 ,. /;:. t;"}J z OR SINGLE -, ,6 , . ::::i iii ASSEMBLY (.) BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING. AS.BUIL T CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE, rn EXTERIOR g ,ADJACENT I ..).-{ L 0 a: o o ...J LL ~ - I ~I'l'" I -31,8 -3.43 DOUBLE-PANE SUMMER POINT MUL T, CLEAR TINf2 47,8 43,5 71,7 63.4 102,0 87.3 104.1 89.4 90,9 78,8 104.1 89.4 102,0 87,3 71,7 63.4 324,6 238,1 ... I tJ V ~l ~ ~ \ M. r ... FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE. ... INFILTRATION 10,9 TOTAL COMPONENT BASE SUMMER POINT; COOLING BASE COOLING TOTAL BASE SYSTEM x SUMMER SYSTEM MULTIPLIER POINTS ,37 \ = HOT WATER SYSTEM AS.BUIL T HOT WATER SYSTEM DESC. 'H = HORIZONTAL GLASS (SKYLIGHTS) 2FOR GLASS WITH KNOWN SHADING COEFFICIENT, SEE SECTION 1,1 OF APPENDIX C. TINT MULTIPLIERS MAY BE USED FOR GLASS WITH SOLAR SCREENS, FILM, OR TINT, .2.