finished pages 926-935
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@ -197,7 +197,7 @@ P52D CALL # READ VEHICLE ATTITUDE AND
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TC BANKCALL # DISPLAY GIMBAL ANGLES
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CADR GOFLASH
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TC GOTOPOOH
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TCF COARSTYP # V33 -- PROCEED, SEE IF GYRO TORQUE COARSE
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TCF COARSTYP # V33-PROCEED, SEE IF GYRO TORQUE COARSE
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P52H TC INTPRET
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GOTO
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P52D
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@ -215,14 +215,14 @@ VB05N09 = V05N09
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V06N34* VN 634
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# Page 931
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# CHECK FOR GYRO TORQUE COARSE ALIGNMENT
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# CHECK FOR GRRO TORQUE COARSE ALIGNMENT
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COARSTYP CAF OCT13
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TC BANKCALL # DISPLAY V 50N25 WITH COARSE ALIGN OPTION
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CADR GOPERF1
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TCF GOTOPOOH # V34 -- TERMIN&OE
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TCF REGCOARS # V33 -- NORMAL COARSE
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TC INTPRET # V32 -- GYRO TORQUE COARSE
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TCF GOTOPOOH # V34-TERMIN&OE
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TCF REGCOARS # V33-NORMAL COARSE
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TC INTPRET # V32-GYRO TORQUE COARSE
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VLOAD MXV
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XSMD # GET SM(DESIRED) WRT SM(PRESENT)
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REFSMMAT
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@ -264,7 +264,7 @@ P52LS SET CLEAR # GET LANDING SITE ORIENTATION
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STCALL XSMD
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LSORIENT
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GOTO
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P52D # NOW GO COMPUTE GIMBAL ANGLES.
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P52D # NOW GO COMPUTE GIMBAL ANGLES
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# Page 933
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# SUBROUTINE TO CALCULATE AND DISPLAY THE LUNAR LANDING SITE
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@ -289,9 +289,9 @@ N89DISP STQ
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LSDISP CAF V06N89* # DISPLAY LAT,LONG/2,ALT
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TC BANKCALL
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CADR GOFLASH
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TCF GOTOPOOH # V34 -- TERMINATE -- EXIT P57
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TCF +2 # V33 -- PROCEED -- ACCEPT LS DATA
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TCF LSDISP # V32 OR E -- LOOK AGAIN AND/OR LOAD NEW LS
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TCF GOTOPOOH # V34-TERMINATE-EXIT P57
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TCF +2 # V33-PROCEED- ACCEPT LS DATA
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TCF LSDISP # V32 OR E- LOOK AGAIN AND/OR LOAD NEW LS
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TC INTPRET
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DLOAD SL1
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@ -309,57 +309,53 @@ LSDISP CAF V06N89* # DISPLAY LAT,LONG/2,ALT
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V06N89* VN 689
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# Page 934
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# NAME -- S50 ALIAS LOCSAM
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# NAME -S50 ALIAS LOCSAM
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# BY
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# VINCENT
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#
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# FUNCTION -- COMPUTE INPUTS FOR PICAPAR AND PLANET
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# FUNCTION - COMPUTE INPUTS FOR PICAPAR AND PLANET
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#
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# DEFINE
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#
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# U = UNIT( SUN WRT EARTH )
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# U = UNIT( SUN WRT EARTH)
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# ES
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#
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# U = UNIT( MOON WRT EARTH )
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# U =UNIT( MOON WRT EARTH)
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# EM
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#
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# R = POSITION VECTOR OF LEM
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# R =POSITION VECTOR OF LEM
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# L
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#
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# R = MEAN DISTANCE (384402KM) BETWEEN EARTH AND MOON
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# R =MEAN DISTANCE (384402KM) BETWEEN EARTH AND MOON
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# EM
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#
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# P = RATIO R /(DISTANCE SUN TO EARTH) > .00257125
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# EM
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# P =RATIO R /(DISTANCE SUN TO EARTH) >.00257125
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# EM
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#
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# R = EQUATORIAL RADIUS (6378.166KM) OF EARTH
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# R =EQUATORIAL RADIUSS (6378.166KM) OF EARTH
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# E
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#
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# LOCSAM COMPUTES IN EARTH INFLUENCE
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#
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# VSUN = U
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# ES
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# VSUN = U
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# ES
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#
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# VEARTH = -UNIT( R )
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# L
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#
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# VMOON = UNIT(R .U - R )
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# EM EM L
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# VMOON = UNIT(R .U - R )
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# EM EM L
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#
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# CSUN = COS 90
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# CSUN = COS 90
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#
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# CEARTH = COS(5 + ARCSIN(R /MAG(R )))
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# E L
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#
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# CMOON = COS 5
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# CMOON = COS 5
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#
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# INPUT -- TIME IN MPAC
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#
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# OUTPUT -- LISTED ABOVE
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#
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# SUBROUTINES -- LSPOS, LEMPREC
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#
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# DEBRIS -- VAC AREA, TSIGHT
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# INPUT - TIME IN MPAC
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# OUTPUT - LISTED ABOVE
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# SUBROUTINES -LSPOS,LEMPREC
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# DEBRIS - VAC AREA ,TSIGHT
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# Page 935
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COUNT* $$/LOSAM
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