# <-- set first character to '#' to use extended annotation in this file C C GENERATED BY DYNAMIC SOLUTIONS' EFDC_EXPLORER ON 12-05-2011 C----------------------------------------------------------------------------- C01 MAIN TITLE CARDS C C01 THREE TITLE CARDS FOLLOW: ' , Water Quality Forecasting Project ' ' , Water Quality Forecasting Project ' ' ' ' ' C----------------------------------------------------------------------------- C02 I/O CONTROL VARIABLE CARD C C ONE TITLE CARD FOLLOWS: $$ C02 I/O control variables $$ $$ C02 I/O control variables $$ C C IWQLVL = Kinetic Complexity Level C 1 - Wasp5 Level Kinetics (Single Organic Carbon, Phosphorous, And C Nitrogen Classes + Reactive DOC/CBOD Variable) C 2 - Intermediate Level Kinetics (Total Refractory And Total Labile C Organic Carbon, Phosphorous, And Nitrogen Classes C + Reactive DOC/CBOD) C 3 - In base model the same as Level 2 C 4 - Extended CE-QUAL-ICM (4 Organic Carbon, Phosphorous, And C Nitrogen Classes + Reactive DOC/CBOD Variable) C NWQV = Number of water quality water column variables C NWQZ = Max. number of spatial zones having varying WQ settling C NWQPS = Max. number of water quality point source locations C NWQTD = Number of data points in the temperature lookup table C NWQTS = Max. number of water quality time-series output locations C NTSWQV = Max. number of water quality time-series output variables C NSMG = Max. Number of sediment diagenesis model groups (Hardwired, Must=3) C NSMZ = Max. number of sediment model spatial variation zones C NTSSMV = Max. number of sediment model time-series output variables C NSMTS = Not used C NWQKDPT = Number of kinetic updates per transport update C C02 IWQLVL NWQV NWQZ NWQPS NWQTD NWQTS NTSWQV NSMG NSMZ NTSSMV NSMTS NWQKDPT 3 21 4 24 400 30 21 3 1 0 0 360 3 21 4 24 400 30 21 3 1 0 0 360 C----------------------------------------------------------------------------- C02A KINETIC BYPASS FLAGS C ONLY USED IF IWQLVL=1 (ISTRWQ(NV),NV=1,NWQV) C ISTRWQ = 0 - Skip Kinetics C 1 - Compute Kinetics C ! 1) CHC - cyanobacteria C ! 2) CHG - diatom algae C ! 3) CHD - green algae C ! 4) ROC - refractory particulate organic carbon C ! 5) LOC - labile particulate organic carbon C ! 6) DOC - dissolved organic carbon C ! 7) ROP - refractory particulate organic phosphorus C ! 8) LOP - labile particulate organic phosphorus C ! 9) DOP - dissolved organic phosphorus C ! 10) P4D - total phosphate C ! 11) RON - refractory particulate organic nitrogen C ! 12) LON - labile particulate organic nitrogen C ! 13) DON - dissolved organic nitrogen C ! 14) NHX - ammonia nitrogen C ! 15) NOX - nitrate nitrogen C ! 16) SUU - particulate biogenic silica C ! 17) SAA - dissolved available silica C ! 18) COD - chemical oxygen demand C ! 19) DOX - dissolved oxygen C ! 20) TAM - total active metal C ! 21) FCB - fecal coliform bacteria C ! 22) MAC - macroalgae C02A 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 1 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 1 0 0 C----------------------------------------------------------------------------- C03 C IWQDT = Not Used C IWQM = Not Used C IWQBEN = benthic flux model switch (0=spec/const; 1=predictive flux, 2=specified) C IWQSI = switch to activate silica state variables (0=off; 1=activated) C IWQFCB = switch to activate fecal coliform bacteria (0=off; 1=activated) C IWQSRP = switch for sediment sorption (1=TAM sorption; 2=sediment sorption) C IWQSTOX = cyanobacteria salinity toxicity switch (0=no toxicity; 1=toxicity) C IWQKA = reaeration option switch C = 0, constant reaeration (WQKRO), no wind reaeration C = 1, constant reaeration (WQKRO) plus wind reaeration C = 2, use O'Connor-Dobbins (1958) formula C = 3, use Owens & Gibbs (1964) formula C = 4, use Owens & Gibbs Modifed formula (see code) C IWQVLIM = Switch for limiting macroalgae growth rate due to vegetative cover C = 0, No growth rate limit C = 1, Limit macroalgae growth, Michaelis-Menton Eq C = 2, Limit macroalgae growth, 5-Param Logistic Function C When IDNOTRVA>0 shade factor PSHADE(L) will be readfrom file MACALGMP.INPC C03 IWQDT IWQM IWQBEN IWQSI IWQFCB IWQSRP IWQSTOX IWQKA iSHADE 2 1 0 0 0 0 0 2 0 2 1 0 0 0 0 0 2 0 C----------------------------------------------------------------------------- C04 C IWQZ = number of zones for spatially varying WQ parameters C IWQNC = switch to save negative concentrations to WQ3DNC.LOG (0=OFF; 1=ON) C IWQRST = switch to save WQ restart data to WQWCRST.OUT (0=OFF; 1=ON) C NDMWQ = number of horizontal spatial domains for decomposition calc. (=1) C LDMWQ = number of horizontal cells in the WQ computational domain (=LC-2) C NDDOAVG = no longer used C NDLTAVG = Light Extinction Analysis/Diagnostics C IDNOTRVA = ID number of macroalgae water quality variable C When >0 the file MACALGMP.INP will be required C C04 IWQZ IWQNC IWQRST NDMWQ LDMWQ NDDOAVG NDLTAVG IDNOTRVA 4 1 1 1 3299 0 0 0 4 1 1 1 3299 0 0 0 C----------------------------------------------------------------------------- C05 C IWQICI = initial condition switch C 0=spatially constant initial conditions (card C44) C 1=read initial condition file ICIFN (see card C51) C 2=read initial conditions from restart file WQWCRST.INP C IWQAGR = algae growth kinetics switch C 0=use constant kinetics on card C45 C 1=read spatial/time-varying kinetics from file AGRFN (card C51) C IWQSTL = settling velocity switch C 0=use spatially/temporally constant settling velocities (card C46) C 1=use spatial/time-varying settling vel. from STLFN (card C51) C IWQSUN = solar radiation switch C 0=use constant solar radiation (I0) and FD from card C10 C 1=use daily average solar rad. and FD from file SUNDAY.INP C 2=use hourly solar rad. from ASER.INP file C IWQPSL = point source load switch C 0=use constant point source loads C 1=use time-variable point source loads from file WQPSL.INP C IWQNPL = 0=use time constant atmospheric dry deposition C isDIURDO = switch for saving diurnal D.O. data C 0=do not save diurnal D.O. data to file C 1=save diurnal D.O. data to binary file WQDIURDO.BIN C if WQDIURDO.BIN already exists, delete it C 2=save diurnal D.O. data to binary file WQDIURDO.BIN C if WQDIURDO.BIN already exists, append to it C WQDIUDT = time interval for writing to diurnal D.O. file (hours) C IWQKIN = switch for using spatially-varying kinetic rate constants C 0=do not use spatially-varying kinetics C 1=use spatially-varying kinetics in file KINETICS.INP C Only applies to IWQKA, KRO, KTR, REAC, KDC, KDCALGm, KHRm C DOPTm, KCD, and KHCOD. C C05 IWQICI IWQAGR IWQSTL IWQSUN IWQPSL IWQNPL isDIURDO WQDIUDT IWQKIN 2 1 0 2 2 0 0 1 0 2 1 0 2 2 0 0 1.000000 0 : FREQUENCY OF DIURNAL DO OUTPUT (IN DT UNIT) = 720 * IWQDT (DTWQ(D) = DT(S)*IWQDT/86400) = 2 * FULL VERSION WITH 21 VARIABLES IS ACTIVATED * SPATIALLY/TEMPORALLY CONSTANT BF IS SPECIFIED * NO SILICA (SU & SU) LIMITATION * FCB (FECAL COLIFORM BACTERIA) IS NOT MODELED * NO SORPTION OF PO4T/SA: MAY MODEL TSS & NO TAM * NO SALINITY TOXICITY: SALTWATER CYANOBACTERIA * OCONNOR-DOBBINS REAERATION FORMULA IS USED * MACROALGAE GROWTH IS NOT LIMITED BY VELOCITY * # OF ZONES FOR SPATIALLY VARYING PARAMETERS = 4 * WRITE NEGATIVE CONC. INFORMATION TO NEG-CONC.LOG * WRITE SPATIAL DISTRIBUTIONS TO IWQORST * SPATIALLY/TEMPORALLY-VARYING ICS FROM INWQRST * SPATIALLY A/O TEMPORALLY-VARYING ALGAL KINETICS * SPATIALLY/TEMPORALLY CONSTANT SETTLING VELOCITY * TEMPORALLY-VARYING IO & FD * SPATIALLY/TEMPORALLY CONSTANT NPS INPUT * FILE KINETICS.INP NOT USED C----------------------------------------------------------------------------- C06 C IWQTS = number of time-series locations to output to ASCII file WQWCTS.OUT C TWQTSB = beginning time for recording time-series data (Julian Day) C TWQTSE = ending time for recording time-series data (Julian Day) C WQTSDT = write interval (hours), also averaging interval for binary files C use 24.0 hours for daily averages (solar day) C use 24.8412 hours to average over the M2 tide period (lunar day) C isWQAVG = switch to save WQ averages to binary file WQWCAVG.BIN C 0=OFF; 1=ON, overwrite existing file; 2=ON, append to existing file C isWQMIN = switch to save WQ minimums to binary file WQWCMIN.BIN C 0=OFF; 1=ON, overwrite existing file; 2=ON, append to existing file C isWQMAX = switch to save WQ minimums to binary file WQWCMAX.BIN C 0=OFF; 1=ON, overwrite existing file; 2=ON, append to existing file C isCOMP = switch to save DO components to file WQDOCOMP.BIN C 0=OFF; 1=ON, overwrite existing file; 2=ON, append to existing file C C06 IWQTS TWQTSB TWQTSE WQTSDT isWQAVG isWQMIN isWQMAX isCOMP 0 53 73 1 0 0 0 0 0 53.00000 73.00000 1.000000 0 0 0 0 * TIME-SERIES OUTPUT FROM 53.0000 DAY TO 73.0000 DAY EVERY 1.0000 HOUR AT 0 LOCATIONS BIN FILE SWITCH ISWQAVG = 0 (0=OFF) BIN FILE SWITCH ISWQMIN = 0 (0=OFF) BIN FILE SWITCH ISWQMAX = 0 (0=OFF) BIN FILE SWITCH ISCOMP = 0 (0=OFF) C----------------------------------------------------------------------------- C07 TIME-SERIES WRITE CONTROLS C ! 1) CHC - Chlorophyll a (cyanobacteria) C ! 2) CHG - Chlorophyll a (diatom algae) C ! 3) CHD - Chlorophyll a (green algae) C ! 4) ROC - refractory particulate organic carbon C ! 5) LOC - labile particulate organic carbon C ! 6) DOC - dissolved organic carbon C ! 7) ROP - refractory particulate organic phosphorus C ! 8) LOP - labile particulate organic phosphorus C ! 9) DOP - dissolved organic phosphorus C ! 10) P4D - total phosphate C ! 11) RON - refractory particulate organic nitrogen C ! 12) LON - labile particulate organic nitrogen C ! 13) DON - dissolved organic nitrogen C ! 14) NHX - ammonia nitrogen C ! 15) NOX - nitrate nitrogen C ! 16) SUU - particulate biogenic silica C ! 17) SAA - dissolved available silica C ! 18) COD - chemical oxygen demand C ! 19) DOX - dissolved oxygen C ! 20) TAM - total active metal C ! 21) FCB - fecal coliform bacteria C ! 22) MAC - macroalgae C C07 Two title cards follow: $ I J CHC CHG CHD ROC LOC DOC ROP LOP DOP P4D RON LON DON : TIME-SERIES STARTING TIME STEP (IN DT UNIT) = 915840 : TIME-SERIES ENDING TIME STEP (IN DT UNIT) = 1261440 : FREQUENCY OF TS OUTPUT (IN DT UNIT) = 720 C----------------------------------------------------------------------------- C08 ONE TITLE CARD FOLLOWS: $$ C08 constant parameters for ALGAE (see Table 3-1) $$ $$ C08 constant parameters for ALGAE (see Table 3-1) $$ C C KHNc = nitrogen half-saturation for cyanobacteria (mg/L) C KHNd = nitrogen half-saturation for algae diatoms (mg/L) C KHNg = nitrogen half-saturation for algae greens algae (mg/L) C KHNm = nitrogen half-saturation for macroalgae (mg/L) C KHPc = phosphorus half-saturation for cyanobacteria (mg/L) C KHPd = phosphorus half-saturation for algae diatoms (mg/L) C KHPg = phosphorus half-saturation for algae greens algae (mg/L) C KHPm = phosphorus half-saturation for macroalgae (mg/L) C KHS = silica half-saturation for algae diatoms (mg/L) C STOX = salinity at which microsystis growth is halved for cyanobacteria C C08 KHNc KHNd KHNg KHNm KHPc KHPd KHPg KHPm KHS STOX .02 .02 .02 .02 .002 .002 .002 .002 0 1 2.0000000E-02 2.0000000E-02 2.0000000E-02 2.0000000E-02 2.0000001E-03 2.0000001E-03 2.0000001E-03 2.0000001E-03 0.0000000E+00 1.000000 * HALF-SAT. COSNTANT (G/M^3) FOR NUTRIENT UPTAKE : (KHNC, KHPC) = 0.0200 0.0020 : (KHND, KHPD, KHS) = 0.0200 0.0020 0.0000 : (KHNG, KHPG) = 0.0200 0.0020 : (KHNM, KHPM) = 0.0200 0.0020 * SAL. WHERE MICROSYSTIS GROWTH IS HALVED = 1.0000 C----------------------------------------------------------------------------- C09 constant parameters for ALGAE (see Table 3-1) C KeTSS = light extinction for total suspended solids (1/m per g/m3) C KeCHL = light extinction for total suspended chlorophyll (1/m per g/m3) C Note: if KeCHL is negative, the Riley (1956) formula is used to C compute the extinction coefficient due to chlorophyll: C KeCHL = 0.054*CHL^0.6667 + 0.0088*CHL C where CHL = total chloryphyll concentration (ug/L) C CChlc = carbon-to-chlorophyll ratio for cyanobacteria (mg C / ug Chl) C CChld = carbon-to-chlorophyll ratio for algae diatoms (mg C / ug Chl) C CChlg = carbon-to-chlorophyll ratio for algae greens (mg C / ug Chl) C CChlm = carbon-to-chlorophyll ratio for macroalgae (mg C / ug Chl) C DOPTc = optimal depth (m) for cyanobacteria growth C DOPTd = optimal depth (m) for algae diatoms growth C DOPTg = optimal depth (m) for algae greens growth C DOPTm = optimal depth (m) for macroalgae growth C KePOC = light extinction due to particular organic matter (using POC) (1/m per g/m3) C C09 KeTSS KeChl CChlc CChld CChlg CChlm DOPTc DOPTd DOPTg DOPTm KePOC 0 .067 .0751 .0751 .0751 .0751 1 1 1 0.1 0 0.0000000E+00 6.7000002E-02 7.5099997E-02 7.5099997E-02 7.5099997E-02 7.5099997E-02 1.000000 1.000000 1.000000 0.1000000 0.0000000E+00 : SINCE TSS IS NOT MODELED, KETSS IS FORCED TO 0 * LIGHT EXTINC. COEFF. DUE TO TSS, CHL & POM : KETSS (/M PER G/M^3) = 0.0000 : KECHL (/M PER MG/M^3) = 0.0670 : KEPOM (/M PER G/M^3) = 0.0000 * CARBON-TO-CHL RATIO (G C PER MG CHL) : (CCHLC, CCHLD, CCHLG) = 0.0751 0.0751 0.0751 * DEPTH (M) OF MAXIMUM ALGAL GROWTH : (DOPTC, DOPTD, DOPTG) = 1.0000 1.0000 1.0000 C----------------------------------------------------------------------------- C10 constant parameters for ALGAE (see Table 3-1) C I0 = initial solar radiation (Langley/day) at water surface C IsMIN = minimum optimum solar radiation (Langley/day) C FD = fraction of day that is daylight C CIa = weighting factor for solar radiation at current day C CIb = weighting factor for solar radiation at (-1) days C CIc = weighting factor for solar radiation at (-2) days C CIm = not used C Rea = global reaeration adjustment factor C PARadj = solar radiation multiplied by this factor to get the C photoactive available radiation (PAR) for algae growth C C10 I0 IsMIN FD CIa CIb CIc CIm Rea PARadj 28 40 .5 .8 .15 .05 0 1 .43 28.00000 40.00000 0.5000000 0.8000000 0.1500000 5.0000001E-02 0.0000000E+00 1.000000 0.4300000 *INITIAL IO (LY/D) AT WATER SURFACE = 28.0000 MINIMUM OPTIMUM SOLAR RADIATION (LY/D) = 40.0000 FRACTIONAL DAYLENGTH = 0.5000 WEIGHTING FACTOR FOR RAD. AT CURRENT DAY = 0.8000 WEIGHTING FACTOR FOR RAD. AT (-1) DAY = 0.1500 WEIGHTING FACTOR FOR RAD. AT (-2) DAYS = 0.0500 FRACTION OF SOLAR RADIATION THAT IS PAR = 0.4300 C----------------------------------------------------------------------------- C11 constant parameters for ALGAE (see Table 3-1) C TMc1 = lower optimal temperature for cyanobacteria growth (degC) C TMc2 = upper optimal temperature for cyanobacteria growth (degC) C TMd1 = lower optimal temperature for algae diatoms growth (degC) C TMd2 = upper optimal temperature for algae diatoms growth (degC) C TMg1 = lower optimal temperature for algae greens growth (degC) C TMg2 = upper optimal temperature for algae greens growth (degC) C TMm1 = lower optimal temperature for macroalgae growth (degC) C TMm2 = upper optimal temperature for macroalgae growth (degC) C TMp1 = lower optimal temperature for diatom predation (degC) C TMp2 = upper optimal temperature for diatom predation (degC) C C11 TMc1 TMc2 TMd1 TMd2 TMg1 TMg2 TMm1 TMm2 TMp1 TMp2 7 13 7 13 19 23 20 25 15 25 7.000000 13.00000 7.000000 13.00000 19.00000 23.00000 20.00000 25.00000 15.00000 25.00000 C----------------------------------------------------------------------------- C12 constant parameters for ALGAE (see Table 3-1) C KTG1c = suboptimal temperature effect coef. for cyanobacteria growth C KTG2c = superoptimal temperature effect coef. for cyanobacteria growth C KTG1d = suboptimal temperature effect coef. for algae diatoms growth C KTG2d = superoptimal temperature effect coef. for algae diatoms growth C KTG1g = suboptimal temperature effect coef. for algae greens growth C KTG2g = superoptimal temperature effect coef. for algae greens growth C KTG1m = suboptimal temperature effect coef. for macroalgae growth C KTG2m = superoptimal temperature effect coef. for macroalgae growth C KTG1p = suboptimal temperature effect coef. for diatom predation growth C KTG2p = superoptimal temperature effect coef. for diatom predation growth C C12 KTG1c KTG2c KTG1d KTG2d KTG1g KTG2g KTG1m KTG2m KTG1p KTG2p .05 .02 .05 .03 .05 .01 .01 .01 .05 .05 5.0000001E-02 2.0000000E-02 5.0000001E-02 2.9999999E-02 5.0000001E-02 9.9999998E-03 9.9999998E-03 9.9999998E-03 5.0000001E-02 5.0000001E-02 * LOWER OPTIMUM TEMP FOR ALGAL GROWTH (DEGC) : (TMC1, TMD1, TMG1 ) = 7.0000 7.0000 19.0000 * UPPER OPTIMUM TEMP FOR ALGAL GROWTH (DEGC) : (TMC2, TMD2, TMG2 ) = 13.0000 13.0000 23.0000 C----------------------------------------------------------------------------- C13 constant parameters for ALGAE (see Table 3-1) C TRc = reference temperature for cyanobacteria metabolism (degC) C TRd = reference temperature for algae diatoms metabolism (degC) C TRg = reference temperature for algae greens metabolism (degC) C TRm = reference temperature for macroalgae metabolism (degC) C KTBc = temperature effect coef. for cyanobacteria metabolism C KTBd = temperature effect coef. for algae diatoms metabolism C KTBg = temperature effect coef. for algae greens metabolism C KTBm = temperature effect coef. for macroalgae metabolism C C13 TRc TRd TRg TRm KTBc KTBd KTBg KTBm 20 20 20 20 .069 .069 .069 .069 20.00000 20.00000 20.00000 20.00000 6.8999998E-02 6.8999998E-02 6.8999998E-02 6.8999998E-02 * REFERENCE TEMPERATURE FOR ALGAL METABOLISM (OC) : (TRC, TRD, TRG) = 20.0000 20.0000 20.0000 * TEMPERATURE EFFECT FOR ALGAL METABOLISM : (KTBC, KTBD, KTBG) = 0.0690 0.0690 0.0690 C----------------------------------------------------------------------------- C14 ONE TITLE CARD FOLLOWS: $$ C14 constant parameters for CARBON (see Table 3-2) $$ $$ C14 constant parameters for CARBON (see Table 3-2) $$ C C FCRP = carbon distribution coef. for algae predation: refractory POC C FCLP = carbon distribution coef. for algae predation: labile POC C FCDP = carbon distribution coef. for algae predation: DOC C FCDc = carbon distribution coef. for cyanobacteria metabolism C FCDd = carbon distribution coef. for algae diatoms metabolism C FCDg = carbon distribution coef. for algae greens metabolism C KHRc = half-sat. constant (gO2/m3) for cyanobacteria DOC excretion C KHRd = half-sat. constant (gO2/m3) for algae diatoms DOC excretion C KHRg = half-sat. constant (gO2/m3) for algae greens DOC excretion C Note: FCRP + FCLP + FCDP = 1.0 C C14 FCRP FCLP FCDP FCDc FCDd FCDg KHRc KHRd KHRg .15 .35 .5 0 .4 .4 .5 .5 .5 0.1500000 0.3500000 0.5000000 0.0000000E+00 0.4000000 0.4000000 0.5000000 0.5000000 0.5000000 * CARBON DISTRIBUTION COEFF FOR ALGAL PREDATION : (FCRP, FCLP, FCDP) = 0.1500 0.3500 0.5000 * CARBON DISTRIBUTION COEFF FOR ALGAL METABOLISM : (FCDC, FCDD, FCDG) = 0.0000 0.4000 0.4000 * HALF-SAT. CONSTANT (GO/M*3) FOR ALGAL DOC EXCRET : (KHRC, KHRD, KHRG) = 0.5000 0.5000 0.5000 C----------------------------------------------------------------------------- C15 ONE TITLE CARD FOLLOWS: $$ C15 constant parameters for CARBON (macroalgae) $$ C15 constant parameters for CARBON (macroalgae) C C FCRPm = carbon distribution coef. for macroalgae predation: refractory POC C FCRPm = carbon distribution coef. for macroalgae predation: labile POC C FCRPm = carbon distribution coef. for macroalgae predation: DOC C FCDm = carbon distribution coef. for macroalgae metabolism C KHRm = half-sat. constant (gO2/m3) for macroalgae DOC excretion C Note: FCRPm + FCLPm + FCDPm = 1.0 C C15 FCRPm FCLPm FCDPm FCDm KHRm 0 0 0 0 .5 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.5000000 C----------------------------------------------------------------------------- C16 constant parameters for CARBON (see Table 3-2) C KRC = minimum dissolution rate (1/day) of refractory POC C KLC = minimum dissolution rate (1/day) of labile POC C KDC = minimum dissolution rate (1/day) of DOC C KRCalg = constant relating refractory POC dissolution rate to total chla C KLCalg = constant relating labile POC dissolution rate to total chla C KDCalg = constant relating DOC dissolution rate to total chla C KDCalgm = constant relating DOC dissolution rate to macroalgae C C16 KRC KLC KDC KRCalg KLCalg KDCalg KDCalgm .002 .02 .15 0 0 .05 0 2.0000001E-03 2.0000000E-02 0.1500000 0.0000000E+00 0.0000000E+00 5.0000001E-02 0.0000000E+00 * MINIMUM DISSOLUTION RATE (/DAY) OF ORGANIC C : (KRC, KLC, KDC) = 0.0020 0.0200 0.1500 * CONSTANT RELATING DISSOLUTION RATE TO ALGAE : (KRCALG,KLCALG,KDCALG)= 0.0000 0.0000 0.0500 C----------------------------------------------------------------------------- C17 constant parameters for CARBON (see Table 3-2) C TRHDR = reference temperature for hydrolysis (degC) C TRMNL = reference temperature for mineralization (degC) C KTHDR = temperature effect constant for hydrolysis C KTMNL = temperature effect constant for mineralization C KHORDO = oxic respiration half-sat. constant for D.O. (gO2/m3) C KHDNN = half-sat. constant for denitrification (gN/m3) C AANOX = ratio of denitrification rate to oxic DOC respiration rate C C17 TRHDR TRMNL KTHDR KTMNL KHORDO KHDNN AANOX 20 20 .069 .069 .5 .1 .5 20.00000 20.00000 6.8999998E-02 6.8999998E-02 0.5000000 0.1000000 0.5000000 * REFERENCE TEMP FOR HYDROLYSIS/MINERALIZATION(OC) : (TRHDR, TRMNL) = 20.0000 20.0000 * TEMPERATURE EFFECT ON HYDROLYSIS/MINERALIZATION : (KTHDR, KTMNL) = 0.0690 0.0690 * HALF-SAT. CONSTANT FOR OXIC RESP/DENITRIFICATION : (KHORDO, KHDNN) = 0.5000 0.1000 * RATION OF DENITRIFICATION TO OXIC DOC RESP : (AANOX) = 0.5000 C----------------------------------------------------------------------------- C18 ONE TITLE CARD FOLLOWS: $$ C18 constant parameters for PHOSPHORUS (see Table 3-3) $$ $$ C18 constant parameters for PHOSPHORUS (see Table 3-3) $$ C C FPRP = phos. distribution coef. for algae predation: refractory POP C FPLP = phos. distribution coef. for algae predation: labile POP C FPDP = phos. distribution coef. for algae predation: DOP C FPIP = phos. distribution coef. for algae predation: Inorganic P C FPRc = phos. distribution coef. of RPOP for cyanobacteria metabolism C FPRd = phos. distribution coef. of RPOP for algae diatoms metabolism C FPRg = phos. distribution coef. of RPOP for algae greens metabolism C FPLc = phos. distribution coef. of LPOP for cyanobacteria metabolism C FPLd = phos. distribution coef. of LPOP for algae diatoms metabolism C FPLg = phos. distribution coef. of LPOP for algae greens metabolism C Note, the following must sum to 1.0: C FPRP + FPLP + FPDP + FPIP = 1.0 C FPRc + FPLc + FPDc + FPIc = 1.0 C FPRd + FPLd + FPDd + FPId = 1.0 C FPRg + FPLg + FPDg + FPIg = 1.0 C C18 FPRP FPLP FPDP FPIP | FPRc FPRd FPRg | FPLc FPLd FPLg .1 .1 .4 .4 0 0 0 0 0 0 0.1000000 0.1000000 0.4000000 0.4000000 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 * PHOSPHORUS DISTRIBUTION COEF FOR ALGAL PREDATION : (FPRP,FPLP,FPDP,FPIP) = 0.1000 0.1000 0.4000 0.4000 * PHOSPHORUS DIST COEF OF RPOP FOR ALGAL METABOLIS : (FPRC, FPRD, FPRG) = 0.0000 0.0000 0.0000 * PHOSPHORUS DIST COEF OF LPOP FOR ALGAL METABOLIS : (FPLC, FPLD, FPLG) = 0.0000 0.0000 0.0000 C----------------------------------------------------------------------------- C19 ONE TITLE CARD FOLLOWS: $$ C19 constant parameters for PHOSPHORUS (macroalgae) $$ C19 constant parameters for PHOSPHORUS (macroalgae) C C FPRPM = phos. distribution coef. for macroalgae predation: RPOP C FPLPM = phos. distribution coef. for macroalgae predation: LPOP C FPDPM = phos. distribution coef. for macroalgae predation: DOP C FPIPM = phos. distribution coef. for macroalgae predation: Inorganic P C FPRm = phos. distribution coef. of RPOP for macroalgae metabolism C FPLm = phos. distribution coef. of LPOP for macroalgae metabolism C APCM = factor to modify APC for macroalgae C Note, the following must sum to 1.0: C FPRPM + FPLPM + FPDPM + FPIPM = 1.0 C FPRm + FPLm + FPDm + FPIm = 1.0 C C19 FPRPM FPLPM FPDPM FPIPM FPRm FPLm APCM 0 0 0 0 0 0 0 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 C----------------------------------------------------------------------------- C20 constant parameters for PHOSPHORUS (see Table 3-3) C FPDc = phosphorus distribution coef. of DOP for cyanobacteria metabolism C FPDd = phosphorus distribution coef. of DOP for algae diatoms metabolism C FPDg = phosphorus distribution coef. of DOP for algae greens metabolism C FPDm = phosphorus distribution coef. of DOP for macroalgae metabolism C FPIc = phosphorus distribution coef. of P4T for cyanobacteria metabolism C FPId = phosphorus distribution coef. of P4T for algae diatoms metabolism C FPIg = phosphorus distribution coef. of P4T for algae greens metabolism C FPIm = phosphorus distribution coef. of P4T for macroalgae metabolism C KPO4p = partition coefficient for sorbed/dissolved PO4 C C Notes, the following must sum to 1.0: C FPRc + FPLc + FPDc + FPIc = 1.0 C FPRd + FPLd + FPDd + FPId = 1.0 C FPRg + FPLg + FPDg + FPIg = 1.0 C C20 FPDc FPDd FPDg FPDm | FPIc FPId FPIg FPIm | KPO4p .5 .5 .5 .5 .5 .5 .5 .5 0 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.0000000E+00 : NO SORPTION OF PO4T/SA, SO KPO4P IS FORCED TO 0 * PHOSPHORUS DIST COEF OF DOP FOR ALGAL METABOLISM : (FPDC, FPDD, FPDG) = 0.5000 0.5000 0.5000 * PHOSPHORUS DIST COEF OF NH4 FOR ALGAL METABOLISM : (FPIC, FPID, FPIG) = 0.5000 0.5000 0.5000 * PARITITION COEFF FOR SORBED/DISSOLVED PO4 = 0.0000 C----------------------------------------------------------------------------- C21 constant parameters for PHOSPHORUS (see Table 3-3) C KRP = minimum hydrolysis rate (1/day) of RPOP C KLP = minimum hydrolysis rate (1/day) of LPOP C KDP = minimum hydrolysis rate (1/day) of DOP C KRPalg = constant relating hydrolysis rate of RPOP to algae C KLPalg = constant relating hydrolysis rate of LPOP to algae C KDPalg = constant relating hydrolysis rate of DOP to algae C CPprm1 = constant used in determining algae Phos-to-Carbon ratio C CPprm2 = constant used in determining algae Phos-to-Carbon ratio C CPprm3 = constant used in determining algae Phos-to-Carbon ratio C C21 KRP KLP KDP KRPalg KLPalg KDPalg CPprm1 CPprm2 CPprm3 .02 .1 .2 0 0 .2 111.1 0 0 2.0000000E-02 0.1000000 0.2000000 0.0000000E+00 0.0000000E+00 0.2000000 111.1000 0.0000000E+00 0.0000000E+00 * MINIMUM HYDROLYSIS RATE (/DAY) OF ORGANIC P : (KRP, KLP, KDP) = 0.0200 0.1000 0.2000 * CONSTANT RELATING HYDROLYSIS RATE TO ALGAE : (KRPALG,KLPALG,KDPALG)= 0.0000 0.0000 0.2000 * CONSTANT USED IN DETERMINING P-TO-C RATIO : (CPPRM1,CPPRM2,CPPRM3)= 111.1000 0.0000 0.0000 C----------------------------------------------------------------------------- C22 ONE TITLE CARD FOLLOWS: $$ C22 constant parameters for NITROGEN (see Table 3-4) $$ $$ C22 constant parameters for NITROGEN (see Table 3-4) $$ C C FNRP = nitrogen distribution coef. for algae predation: RPON C FNLP = nitrogen distribution coef. for algae predation: LPON C FNDP = nitrogen distribution coef. for algae predation: DON C FNIP = nitrogen distribution coef. for algae predation: Inorganic N C FNRc = nitrogen distribution coef. of RPON for cyanobacteria metabolism C FNRd = nitrogen distribution coef. of RPON for algae diatoms metabolism C FNRg = nitrogen distribution coef. of RPON for algae greens metabolism C FNLc = nitrogen distribution coef. of LPON for cyanobacteria metabolism C FNLd = nitrogen distribution coef. of LPON for algae diatoms metabolism C FNLg = nitrogen distribution coef. of LPON for algae greens metabolism C C22 FNRP FNLP FNDP FNIP FNRc FNRd FNRg FNLc FNLd FNLg .15 .15 .35 .35 0 0 0 0 0 0 0.1500000 0.1500000 0.3500000 0.3500000 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 * NITROGEN DISTRIBUTION COEFF FOR ALGAL PREDATION : (FNRP,FNLP,FNDP,FNIP) = 0.1500 0.1500 0.3500 0.3500 * NITROGEN DIST COEF OF RPON FOR ALGAL METABOLISM : (FNRC, FNRD, FNRG) = 0.0000 0.0000 0.0000 * NITROGEN DIST COEF OF LPON FOR ALGAL METABOLISM : (FNLC, FNLD, FNLG) = 0.0000 0.0000 0.0000 C----------------------------------------------------------------------------- C23 ONE TITLE CARD FOLLOWS: $$ C23 constant parameters for NITROGEN (MACROALGAE) $$ C23 constant parameters for NITROGEN (MACROALGAE) C C FNRPM = nitrogen distribution coef. for marcoalgae predation: RPON C FNLPM = nitrogen distribution coef. for marcoalgae predation: LPON C FNDPM = nitrogen distribution coef. for marcoalgae predation: DON C FNIPM = nitrogen distribution coef. for marcoalgae predation: Inorganic N C FNRm = nitrogen distribution coef. of RPON for macroalgae metabolism C FNLm = nitrogen distribution coef. of LPON for macroalgae metabolism C C23 FNRPM FNLPM FNDPM FNIPM FNRm FNLm 0 0 0 0 0 0 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 C----------------------------------------------------------------------------- C24 constant parameters for NITROGEN (see Table 3-4) C FNDc = nitrogen distribution coef. of DON for cyanobacteria metabolism C FNDd = nitrogen distribution coef. of DON for algae diatoms metabolism C FNDg = nitrogen distribution coef. of DON for algae greens metabolism C FNDm = nitrogen distribution coef. of DON for macroalgae metabolism C FNIc = nitrogen distribution coef. of DIN for cyanobacteria metabolism C FNId = nitrogen distribution coef. of DIN for algae diatoms metabolism C FNIg = nitrogen distribution coef. of DIN for algae greens metabolism C FNIm = nitrogen distribution coef. of DIN for macroalgae metabolism C ANCc = nitrogen-to-carbon ratio for cyanobacteria C ANCd = nitrogen-to-carbon ratio for algae diatoms C ANCg = nitrogen-to-carbon ratio for algae greens C ANCm = nitrogen-to-carbon ratio for macroalgae C Note: FNRx + FNLx + FNDx + FNIx = 1.0 C C24 FNDc FNDd FNDg FNDm FNIc FNId FNIg FNIm ANCc ANCd ANCg ANCm .5 .5 .5 .5 .5 .5 .5 .5 .232 .232 .232 .232 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.5000000 0.2320000 0.2320000 0.2320000 0.2320000 * NITROGEN DIST COEF OF DON FOR ALGAL METABOLISM : (FNDC, FNDD, FNDG) = 0.5000 0.5000 0.5000 * NITROGEN DIST COEF OF NH4 FOR ALGAL METABOLISM : (FNIC, FNID, FNIG) = 0.5000 0.5000 0.5000 * NITROGEN-TO-CARBON RATIO IN ALGAE : (ANCC, ANCD, ANCG) = 0.2320 0.2320 0.2320 C----------------------------------------------------------------------------- C25 constant parameters for NITROGEN (see Table 3-4) C ANDC = mass NO3 reduces per DOC oxidized (gN/gC) C rNitM = maximum nitrification rate (gN/m3/day) C KHNitDO = nitrification half-sat. constant for D.O. C KHNitN = nitrification half-sat. constant for NH4 C TNit = reference temperature for nitrification (degC) C KNit1 = suboptimal temperature effect constant for nitrification C Knit2 = superoptimal temperature effect constant for nitrification C C25 ANDC rNitM KHNitDO KHNitN TNit KNit1 KNit2 .933 .1 1 1 25 .0045 .0045 0.9330000 0.1000000 1.000000 1.000000 25.00000 4.4999998E-03 4.4999998E-03 * MASS NO3 REDUCED PER DOC OXIDIZED (GN/GC)= 0.9330 * MAXIMUM NITRIFICATION RATE (G N /M^3/D) = 0.1000 REFERENCE TEMP FOR NITRIFICATION (DEGC) = 25.0000 * NITRIFICATION HALF-SAT CONSTANT FOR DO & NH4 : (KHNITDO, KHNITN) = 1.0000 1.0000 * SUB & SUPER-OPTIMUM TEMP EFFECT ON NITRIFICATION : (KNIT1, KNIT2) = 0.0045 0.0045 C----------------------------------------------------------------------------- C26 constant parameters for NITROGEN (see Table 3-4) C KRN = minimum hydrolysis rate (1/day) of RPON C KLN = minimum hydrolysis rate (1/day) of LPON C KDN = minimum hydrolysis rate (1/day) of DON C KRNalg = constant relating hydrolysis rate of RPON to algae C KLNalg = constant relating hydrolysis rate of LPON to algae C KDNalg = constant relating hydrolysis rate of DON to algae C C26 KRN KLN KDN KRNalg KLNalg KDNalg .002 .1 .2 0 0 .05 2.0000001E-03 0.1000000 0.2000000 0.0000000E+00 0.0000000E+00 5.0000001E-02 * MINIMUM HYDROLYSIS RATE (/DAY) OF ORGANIC N : (KRN, KLN, KDN) = 0.0020 0.1000 0.2000 * CONSTANT RELATING HYDROLYSIS RATE TO ALGAE : (KRNALG,KLNALG,KDNALG)= 0.0000 0.0000 0.0500 C----------------------------------------------------------------------------- C27 ONE TITLE CARD FOLLOWS: $$ C27 constant parameters for SILICA (see Table 3-5) $$ $$ C27 constant parameters for SILICA (see Table 3-5) $$ C C FSPP = silica distribution coef. for diatom predation C FSIP = silica distribution coef. for diatom predation C FSPd = silica distribution coef. for diatom metabolism C FSId = silica distribution coef. for diatom metabolism C ASCd = silica-to-carbon ratio for algae diatoms C KSAp = partition coef. for sorbed/dissolved SA C KSU = dissolution rate (1/day) of particulate silica (PSi) C TRSUA = reference temperature (degC) for PSi dissolution C KTSUA = temperature effect on PSi dissolution C C27 FSPP FSIP FSPd FSId ASCd KSAp KSU TRSUA KTSUA 0 0 0 0 0 0 0 0 0 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 : NO SORPTION OF PO4T/SA, SO KSAP IS FORCED TO 0 * SILICA DISTRIBUTION COEFF FOR DIATOM PREDATION : (FSPP, FSIP) = 0.0000 0.0000 * SILICA DISTRIBUTION COEFF FOR DIATOM METABOLISM : (FSPD, FSID) = 0.0000 0.0000 *SILICA-TO-CARBON RATIO IN DIATOMS = 0.0000 *PARITITION COEFF FOR SORBED/DISSOLVED SA = 0.0000 *DISSOLUTION RATE (/D) OF PSI = 0.0000 REFERENCE TEMP FOR PSI DISSOLUTION (OC) = 0.0000 TEMPERATURE EFFECT ON PSI DISSOLUTION = 0.0000 C----------------------------------------------------------------------------- C28 ONE TITLE CARD FOLLOWS: $$ C28 constant parameters for COD & DO (see Table 3-6) $$ $$ C28 constant parameters for COD & DO (see Table 3-6) $$ C C AOCR = stoichiometric algae oxygen-to-carbon ratio (gO2/gC) C AONT = stoichiometric algae oxygen=to-nitrate ratio (gO2/gN) C KRO = reaeration constant (3.933 for OConnor-Dobbins; 5.32 for Owen-Gibbs) C KTR = temperature rate constant for reaeration C KHCOD = oxygen half-saturation constant for COD decay (mg/L O2) C KCD = COD decay rate (per day) C TRCOD = reference temperature for COD decay (degC) C KTCOD = temperature rate constant for COD decay C AOCRpm = macroalgae photosynthesis oxygen-to-carbon ratio C AOCRrm = macroalgae respiration oxygen-to-carbon ratio C C28 AOCR AONT KRO KTR KHCOD KCD TRCOD KTCOD AOCRpm AOCRrm 2.67 4.33 3.933 1.024 1.5 .1 20 .041 2.67 2.67 2.670000 4.330000 3.933000 1.024000 1.500000 0.1000000 20.00000 4.1000001E-02 2.670000 2.670000 * DO-TO-CARBON RATIO IN RESPIRATION = 2.6700 :MASS DO CONSUMED PER NH4-N NITRIFIED = 4.3300 :PROPORN. CONSTANT FOR DO-REAERATION (MKS)= 3.9330 TEMPERATURE EFFECT ON DO-REAERATION = 1.0240 *HALF-SAT CONSTANT OF DO FOR COD (GO2/M^3)= 1.5000 :OXIDATION RATE OF COD (/DAY) = 0.1000 REFERENCE TEMP FOR COD OXIDATION (OC) = 20.0000 TEMPERATURE EFFECT ON COD OXIDATION = 0.0410 : DO-TO-CARBON RATIO MACROALGAE PHOTOSYNTH = 2.6700 : DO-TO-CARBON RATIO MACROALGAE RESPIRATION= 2.6700 C----------------------------------------------------------------------------- C29 ONE TITLE CARD FOLLOWS: $$ C29 constant parameters for TAM & FCB (see Table 3-7) $$ $$ C29 constant parameters for TAM & FCB (see Table 3-7) $$ C C KHbmf = D.O. concentration where TAM release is half the anoxic rate C BFTAM = anoxic release rate of TAM (mol/m2/day) C Ttam = reference temperature for TAM release (degC) C Ktam = temperature effect constant for TAM release C TAMdmx = TAM solubility at anoxic conditions (mol/m3) C Kdotam = constant relating TAM solubility to D.O. C KFCB = first-order fecal coliform bacteria decay rate (1/day) C TFCB = temperature effect constant for KFCB decay rate C C29 KHbmf BFTAM Ttam Ktam TAMdmx Kdotam KFCB TFCB 0 0 0 0 0 0 .5 1.07 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.5000000 1.070000 * DO WHERE TAM RELEASE IS HALF ANOXIC ONE = 0.0000 ANOXIC RELEASE OF TAM (MOL/M^2/D) = 0.0000 REFERENCE TEMP FOR TAM RELEASE (OC) = 0.0000 TEMPERATURE EFFECT ON TAM RELEASE = 0.0000 : TAM SOLUBILITY AT ANOXIC COND. (MOL/M^3) = 0.0000 CONSTANT RELATING TAM SOLUBILITY TO DO = 0.0000 * FIRST-ORDER DIE-OFF RATE AT 20OC (/D) = 0.5000 TEMPERATURE EFFECT ON BACTERIA DIE-OFF = 1.0700 M,WQKTR(1),WQTDKR(M,1) = 1 1.0240 0.4909 M,WQKTR(1),WQTDKR(M,1) = 2 1.0240 0.4927 M,WQKTR(1),WQTDKR(M,1) = 3 1.0240 0.4944 M,WQKTR(1),WQTDKR(M,1) = 4 1.0240 0.4962 M,WQKTR(1),WQTDKR(M,1) = 5 1.0240 0.4979 M,WQKTR(1),WQTDKR(M,1) = 6 1.0240 0.4997 M,WQKTR(1),WQTDKR(M,1) = 7 1.0240 0.5015 M,WQKTR(1),WQTDKR(M,1) = 8 1.0240 0.5033 M,WQKTR(1),WQTDKR(M,1) = 9 1.0240 0.5051 M,WQKTR(1),WQTDKR(M,1) = 10 1.0240 0.5069 M,WQKTR(1),WQTDKR(M,1) = 11 1.0240 0.5087 M,WQKTR(1),WQTDKR(M,1) = 12 1.0240 0.5105 M,WQKTR(1),WQTDKR(M,1) = 13 1.0240 0.5123 M,WQKTR(1),WQTDKR(M,1) = 14 1.0240 0.5141 M,WQKTR(1),WQTDKR(M,1) = 15 1.0240 0.5160 M,WQKTR(1),WQTDKR(M,1) = 16 1.0240 0.5178 M,WQKTR(1),WQTDKR(M,1) = 17 1.0240 0.5197 M,WQKTR(1),WQTDKR(M,1) = 18 1.0240 0.5215 M,WQKTR(1),WQTDKR(M,1) = 19 1.0240 0.5234 M,WQKTR(1),WQTDKR(M,1) = 20 1.0240 0.5252 M,WQKTR(1),WQTDKR(M,1) = 21 1.0240 0.5271 M,WQKTR(1),WQTDKR(M,1) = 22 1.0240 0.5290 M,WQKTR(1),WQTDKR(M,1) = 23 1.0240 0.5309 M,WQKTR(1),WQTDKR(M,1) = 24 1.0240 0.5328 M,WQKTR(1),WQTDKR(M,1) = 25 1.0240 0.5347 M,WQKTR(1),WQTDKR(M,1) = 26 1.0240 0.5366 M,WQKTR(1),WQTDKR(M,1) = 27 1.0240 0.5385 M,WQKTR(1),WQTDKR(M,1) = 28 1.0240 0.5404 M,WQKTR(1),WQTDKR(M,1) = 29 1.0240 0.5423 M,WQKTR(1),WQTDKR(M,1) = 30 1.0240 0.5443 M,WQKTR(1),WQTDKR(M,1) = 31 1.0240 0.5462 M,WQKTR(1),WQTDKR(M,1) = 32 1.0240 0.5481 M,WQKTR(1),WQTDKR(M,1) = 33 1.0240 0.5501 M,WQKTR(1),WQTDKR(M,1) = 34 1.0240 0.5521 M,WQKTR(1),WQTDKR(M,1) = 35 1.0240 0.5540 M,WQKTR(1),WQTDKR(M,1) = 36 1.0240 0.5560 M,WQKTR(1),WQTDKR(M,1) = 37 1.0240 0.5580 M,WQKTR(1),WQTDKR(M,1) = 38 1.0240 0.5600 M,WQKTR(1),WQTDKR(M,1) = 39 1.0240 0.5620 M,WQKTR(1),WQTDKR(M,1) = 40 1.0240 0.5640 M,WQKTR(1),WQTDKR(M,1) = 41 1.0240 0.5660 M,WQKTR(1),WQTDKR(M,1) = 42 1.0240 0.5680 M,WQKTR(1),WQTDKR(M,1) = 43 1.0240 0.5700 M,WQKTR(1),WQTDKR(M,1) = 44 1.0240 0.5721 M,WQKTR(1),WQTDKR(M,1) = 45 1.0240 0.5741 M,WQKTR(1),WQTDKR(M,1) = 46 1.0240 0.5761 M,WQKTR(1),WQTDKR(M,1) = 47 1.0240 0.5782 M,WQKTR(1),WQTDKR(M,1) = 48 1.0240 0.5803 M,WQKTR(1),WQTDKR(M,1) = 49 1.0240 0.5823 M,WQKTR(1),WQTDKR(M,1) = 50 1.0240 0.5844 M,WQKTR(1),WQTDKR(M,1) = 51 1.0240 0.5865 M,WQKTR(1),WQTDKR(M,1) = 52 1.0240 0.5886 M,WQKTR(1),WQTDKR(M,1) = 53 1.0240 0.5907 M,WQKTR(1),WQTDKR(M,1) = 54 1.0240 0.5928 M,WQKTR(1),WQTDKR(M,1) = 55 1.0240 0.5949 M,WQKTR(1),WQTDKR(M,1) = 56 1.0240 0.5970 M,WQKTR(1),WQTDKR(M,1) = 57 1.0240 0.5991 M,WQKTR(1),WQTDKR(M,1) = 58 1.0240 0.6013 M,WQKTR(1),WQTDKR(M,1) = 59 1.0240 0.6034 M,WQKTR(1),WQTDKR(M,1) = 60 1.0240 0.6056 M,WQKTR(1),WQTDKR(M,1) = 61 1.0240 0.6077 M,WQKTR(1),WQTDKR(M,1) = 62 1.0240 0.6099 M,WQKTR(1),WQTDKR(M,1) = 63 1.0240 0.6121 M,WQKTR(1),WQTDKR(M,1) = 64 1.0240 0.6142 M,WQKTR(1),WQTDKR(M,1) = 65 1.0240 0.6164 M,WQKTR(1),WQTDKR(M,1) = 66 1.0240 0.6186 M,WQKTR(1),WQTDKR(M,1) = 67 1.0240 0.6208 M,WQKTR(1),WQTDKR(M,1) = 68 1.0240 0.6230 M,WQKTR(1),WQTDKR(M,1) = 69 1.0240 0.6253 M,WQKTR(1),WQTDKR(M,1) = 70 1.0240 0.6275 M,WQKTR(1),WQTDKR(M,1) = 71 1.0240 0.6297 M,WQKTR(1),WQTDKR(M,1) = 72 1.0240 0.6320 M,WQKTR(1),WQTDKR(M,1) = 73 1.0240 0.6342 M,WQKTR(1),WQTDKR(M,1) = 74 1.0240 0.6365 M,WQKTR(1),WQTDKR(M,1) = 75 1.0240 0.6387 M,WQKTR(1),WQTDKR(M,1) = 76 1.0240 0.6410 M,WQKTR(1),WQTDKR(M,1) = 77 1.0240 0.6433 M,WQKTR(1),WQTDKR(M,1) = 78 1.0240 0.6456 M,WQKTR(1),WQTDKR(M,1) = 79 1.0240 0.6479 M,WQKTR(1),WQTDKR(M,1) = 80 1.0240 0.6502 M,WQKTR(1),WQTDKR(M,1) = 81 1.0240 0.6525 M,WQKTR(1),WQTDKR(M,1) = 82 1.0240 0.6549 M,WQKTR(1),WQTDKR(M,1) = 83 1.0240 0.6572 M,WQKTR(1),WQTDKR(M,1) = 84 1.0240 0.6595 M,WQKTR(1),WQTDKR(M,1) = 85 1.0240 0.6619 M,WQKTR(1),WQTDKR(M,1) = 86 1.0240 0.6642 M,WQKTR(1),WQTDKR(M,1) = 87 1.0240 0.6666 M,WQKTR(1),WQTDKR(M,1) = 88 1.0240 0.6690 M,WQKTR(1),WQTDKR(M,1) = 89 1.0240 0.6714 M,WQKTR(1),WQTDKR(M,1) = 90 1.0240 0.6738 M,WQKTR(1),WQTDKR(M,1) = 91 1.0240 0.6762 M,WQKTR(1),WQTDKR(M,1) = 92 1.0240 0.6786 M,WQKTR(1),WQTDKR(M,1) = 93 1.0240 0.6810 M,WQKTR(1),WQTDKR(M,1) = 94 1.0240 0.6834 M,WQKTR(1),WQTDKR(M,1) = 95 1.0240 0.6859 M,WQKTR(1),WQTDKR(M,1) = 96 1.0240 0.6883 M,WQKTR(1),WQTDKR(M,1) = 97 1.0240 0.6907 M,WQKTR(1),WQTDKR(M,1) = 98 1.0240 0.6932 M,WQKTR(1),WQTDKR(M,1) = 99 1.0240 0.6957 M,WQKTR(1),WQTDKR(M,1) = 100 1.0240 0.6982 M,WQKTR(1),WQTDKR(M,1) = 101 1.0240 0.7006 M,WQKTR(1),WQTDKR(M,1) = 102 1.0240 0.7031 M,WQKTR(1),WQTDKR(M,1) = 103 1.0240 0.7057 M,WQKTR(1),WQTDKR(M,1) = 104 1.0240 0.7082 M,WQKTR(1),WQTDKR(M,1) = 105 1.0240 0.7107 M,WQKTR(1),WQTDKR(M,1) = 106 1.0240 0.7132 M,WQKTR(1),WQTDKR(M,1) = 107 1.0240 0.7158 M,WQKTR(1),WQTDKR(M,1) = 108 1.0240 0.7183 M,WQKTR(1),WQTDKR(M,1) = 109 1.0240 0.7209 M,WQKTR(1),WQTDKR(M,1) = 110 1.0240 0.7234 M,WQKTR(1),WQTDKR(M,1) = 111 1.0240 0.7260 M,WQKTR(1),WQTDKR(M,1) = 112 1.0240 0.7286 M,WQKTR(1),WQTDKR(M,1) = 113 1.0240 0.7312 M,WQKTR(1),WQTDKR(M,1) = 114 1.0240 0.7338 M,WQKTR(1),WQTDKR(M,1) = 115 1.0240 0.7364 M,WQKTR(1),WQTDKR(M,1) = 116 1.0240 0.7391 M,WQKTR(1),WQTDKR(M,1) = 117 1.0240 0.7417 M,WQKTR(1),WQTDKR(M,1) = 118 1.0240 0.7443 M,WQKTR(1),WQTDKR(M,1) = 119 1.0240 0.7470 M,WQKTR(1),WQTDKR(M,1) = 120 1.0240 0.7496 M,WQKTR(1),WQTDKR(M,1) = 121 1.0240 0.7523 M,WQKTR(1),WQTDKR(M,1) = 122 1.0240 0.7550 M,WQKTR(1),WQTDKR(M,1) = 123 1.0240 0.7577 M,WQKTR(1),WQTDKR(M,1) = 124 1.0240 0.7604 M,WQKTR(1),WQTDKR(M,1) = 125 1.0240 0.7631 M,WQKTR(1),WQTDKR(M,1) = 126 1.0240 0.7658 M,WQKTR(1),WQTDKR(M,1) = 127 1.0240 0.7685 M,WQKTR(1),WQTDKR(M,1) = 128 1.0240 0.7713 M,WQKTR(1),WQTDKR(M,1) = 129 1.0240 0.7740 M,WQKTR(1),WQTDKR(M,1) = 130 1.0240 0.7768 M,WQKTR(1),WQTDKR(M,1) = 131 1.0240 0.7796 M,WQKTR(1),WQTDKR(M,1) = 132 1.0240 0.7823 M,WQKTR(1),WQTDKR(M,1) = 133 1.0240 0.7851 M,WQKTR(1),WQTDKR(M,1) = 134 1.0240 0.7879 M,WQKTR(1),WQTDKR(M,1) = 135 1.0240 0.7907 M,WQKTR(1),WQTDKR(M,1) = 136 1.0240 0.7936 M,WQKTR(1),WQTDKR(M,1) = 137 1.0240 0.7964 M,WQKTR(1),WQTDKR(M,1) = 138 1.0240 0.7992 M,WQKTR(1),WQTDKR(M,1) = 139 1.0240 0.8021 M,WQKTR(1),WQTDKR(M,1) = 140 1.0240 0.8049 M,WQKTR(1),WQTDKR(M,1) = 141 1.0240 0.8078 M,WQKTR(1),WQTDKR(M,1) = 142 1.0240 0.8107 M,WQKTR(1),WQTDKR(M,1) = 143 1.0240 0.8136 M,WQKTR(1),WQTDKR(M,1) = 144 1.0240 0.8165 M,WQKTR(1),WQTDKR(M,1) = 145 1.0240 0.8194 M,WQKTR(1),WQTDKR(M,1) = 146 1.0240 0.8223 M,WQKTR(1),WQTDKR(M,1) = 147 1.0240 0.8252 M,WQKTR(1),WQTDKR(M,1) = 148 1.0240 0.8282 M,WQKTR(1),WQTDKR(M,1) = 149 1.0240 0.8311 M,WQKTR(1),WQTDKR(M,1) = 150 1.0240 0.8341 M,WQKTR(1),WQTDKR(M,1) = 151 1.0240 0.8370 M,WQKTR(1),WQTDKR(M,1) = 152 1.0240 0.8400 M,WQKTR(1),WQTDKR(M,1) = 153 1.0240 0.8430 M,WQKTR(1),WQTDKR(M,1) = 154 1.0240 0.8460 M,WQKTR(1),WQTDKR(M,1) = 155 1.0240 0.8490 M,WQKTR(1),WQTDKR(M,1) = 156 1.0240 0.8521 M,WQKTR(1),WQTDKR(M,1) = 157 1.0240 0.8551 M,WQKTR(1),WQTDKR(M,1) = 158 1.0240 0.8582 M,WQKTR(1),WQTDKR(M,1) = 159 1.0240 0.8612 M,WQKTR(1),WQTDKR(M,1) = 160 1.0240 0.8643 M,WQKTR(1),WQTDKR(M,1) = 161 1.0240 0.8674 M,WQKTR(1),WQTDKR(M,1) = 162 1.0240 0.8705 M,WQKTR(1),WQTDKR(M,1) = 163 1.0240 0.8736 M,WQKTR(1),WQTDKR(M,1) = 164 1.0240 0.8767 M,WQKTR(1),WQTDKR(M,1) = 165 1.0240 0.8798 M,WQKTR(1),WQTDKR(M,1) = 166 1.0240 0.8829 M,WQKTR(1),WQTDKR(M,1) = 167 1.0240 0.8861 M,WQKTR(1),WQTDKR(M,1) = 168 1.0240 0.8892 M,WQKTR(1),WQTDKR(M,1) = 169 1.0240 0.8924 M,WQKTR(1),WQTDKR(M,1) = 170 1.0240 0.8956 M,WQKTR(1),WQTDKR(M,1) = 171 1.0240 0.8988 M,WQKTR(1),WQTDKR(M,1) = 172 1.0240 0.9020 M,WQKTR(1),WQTDKR(M,1) = 173 1.0240 0.9052 M,WQKTR(1),WQTDKR(M,1) = 174 1.0240 0.9084 M,WQKTR(1),WQTDKR(M,1) = 175 1.0240 0.9117 M,WQKTR(1),WQTDKR(M,1) = 176 1.0240 0.9149 M,WQKTR(1),WQTDKR(M,1) = 177 1.0240 0.9182 M,WQKTR(1),WQTDKR(M,1) = 178 1.0240 0.9214 M,WQKTR(1),WQTDKR(M,1) = 179 1.0240 0.9247 M,WQKTR(1),WQTDKR(M,1) = 180 1.0240 0.9280 M,WQKTR(1),WQTDKR(M,1) = 181 1.0240 0.9313 M,WQKTR(1),WQTDKR(M,1) = 182 1.0240 0.9346 M,WQKTR(1),WQTDKR(M,1) = 183 1.0240 0.9380 M,WQKTR(1),WQTDKR(M,1) = 184 1.0240 0.9413 M,WQKTR(1),WQTDKR(M,1) = 185 1.0240 0.9447 M,WQKTR(1),WQTDKR(M,1) = 186 1.0240 0.9480 M,WQKTR(1),WQTDKR(M,1) = 187 1.0240 0.9514 M,WQKTR(1),WQTDKR(M,1) = 188 1.0240 0.9548 M,WQKTR(1),WQTDKR(M,1) = 189 1.0240 0.9582 M,WQKTR(1),WQTDKR(M,1) = 190 1.0240 0.9616 M,WQKTR(1),WQTDKR(M,1) = 191 1.0240 0.9650 M,WQKTR(1),WQTDKR(M,1) = 192 1.0240 0.9685 M,WQKTR(1),WQTDKR(M,1) = 193 1.0240 0.9719 M,WQKTR(1),WQTDKR(M,1) = 194 1.0240 0.9754 M,WQKTR(1),WQTDKR(M,1) = 195 1.0240 0.9789 M,WQKTR(1),WQTDKR(M,1) = 196 1.0240 0.9824 M,WQKTR(1),WQTDKR(M,1) = 197 1.0240 0.9859 M,WQKTR(1),WQTDKR(M,1) = 198 1.0240 0.9894 M,WQKTR(1),WQTDKR(M,1) = 199 1.0240 0.9929 M,WQKTR(1),WQTDKR(M,1) = 200 1.0240 0.9964 M,WQKTR(1),WQTDKR(M,1) = 201 1.0240 1.0000 M,WQKTR(1),WQTDKR(M,1) = 202 1.0240 1.0036 M,WQKTR(1),WQTDKR(M,1) = 203 1.0240 1.0071 M,WQKTR(1),WQTDKR(M,1) = 204 1.0240 1.0107 M,WQKTR(1),WQTDKR(M,1) = 205 1.0240 1.0143 M,WQKTR(1),WQTDKR(M,1) = 206 1.0240 1.0179 M,WQKTR(1),WQTDKR(M,1) = 207 1.0240 1.0216 M,WQKTR(1),WQTDKR(M,1) = 208 1.0240 1.0252 M,WQKTR(1),WQTDKR(M,1) = 209 1.0240 1.0289 M,WQKTR(1),WQTDKR(M,1) = 210 1.0240 1.0325 M,WQKTR(1),WQTDKR(M,1) = 211 1.0240 1.0362 M,WQKTR(1),WQTDKR(M,1) = 212 1.0240 1.0399 M,WQKTR(1),WQTDKR(M,1) = 213 1.0240 1.0436 M,WQKTR(1),WQTDKR(M,1) = 214 1.0240 1.0473 M,WQKTR(1),WQTDKR(M,1) = 215 1.0240 1.0511 M,WQKTR(1),WQTDKR(M,1) = 216 1.0240 1.0548 M,WQKTR(1),WQTDKR(M,1) = 217 1.0240 1.0586 M,WQKTR(1),WQTDKR(M,1) = 218 1.0240 1.0623 M,WQKTR(1),WQTDKR(M,1) = 219 1.0240 1.0661 M,WQKTR(1),WQTDKR(M,1) = 220 1.0240 1.0699 M,WQKTR(1),WQTDKR(M,1) = 221 1.0240 1.0737 M,WQKTR(1),WQTDKR(M,1) = 222 1.0240 1.0776 M,WQKTR(1),WQTDKR(M,1) = 223 1.0240 1.0814 M,WQKTR(1),WQTDKR(M,1) = 224 1.0240 1.0853 M,WQKTR(1),WQTDKR(M,1) = 225 1.0240 1.0891 M,WQKTR(1),WQTDKR(M,1) = 226 1.0240 1.0930 M,WQKTR(1),WQTDKR(M,1) = 227 1.0240 1.0969 M,WQKTR(1),WQTDKR(M,1) = 228 1.0240 1.1008 M,WQKTR(1),WQTDKR(M,1) = 229 1.0240 1.1047 M,WQKTR(1),WQTDKR(M,1) = 230 1.0240 1.1087 M,WQKTR(1),WQTDKR(M,1) = 231 1.0240 1.1126 M,WQKTR(1),WQTDKR(M,1) = 232 1.0240 1.1166 M,WQKTR(1),WQTDKR(M,1) = 233 1.0240 1.1206 M,WQKTR(1),WQTDKR(M,1) = 234 1.0240 1.1246 M,WQKTR(1),WQTDKR(M,1) = 235 1.0240 1.1286 M,WQKTR(1),WQTDKR(M,1) = 236 1.0240 1.1326 M,WQKTR(1),WQTDKR(M,1) = 237 1.0240 1.1366 M,WQKTR(1),WQTDKR(M,1) = 238 1.0240 1.1407 M,WQKTR(1),WQTDKR(M,1) = 239 1.0240 1.1447 M,WQKTR(1),WQTDKR(M,1) = 240 1.0240 1.1488 M,WQKTR(1),WQTDKR(M,1) = 241 1.0240 1.1529 M,WQKTR(1),WQTDKR(M,1) = 242 1.0240 1.1570 M,WQKTR(1),WQTDKR(M,1) = 243 1.0240 1.1612 M,WQKTR(1),WQTDKR(M,1) = 244 1.0240 1.1653 M,WQKTR(1),WQTDKR(M,1) = 245 1.0240 1.1694 M,WQKTR(1),WQTDKR(M,1) = 246 1.0240 1.1736 M,WQKTR(1),WQTDKR(M,1) = 247 1.0240 1.1778 M,WQKTR(1),WQTDKR(M,1) = 248 1.0240 1.1820 M,WQKTR(1),WQTDKR(M,1) = 249 1.0240 1.1862 M,WQKTR(1),WQTDKR(M,1) = 250 1.0240 1.1904 M,WQKTR(1),WQTDKR(M,1) = 251 1.0240 1.1947 M,WQKTR(1),WQTDKR(M,1) = 252 1.0240 1.1989 M,WQKTR(1),WQTDKR(M,1) = 253 1.0240 1.2032 M,WQKTR(1),WQTDKR(M,1) = 254 1.0240 1.2075 M,WQKTR(1),WQTDKR(M,1) = 255 1.0240 1.2118 M,WQKTR(1),WQTDKR(M,1) = 256 1.0240 1.2161 M,WQKTR(1),WQTDKR(M,1) = 257 1.0240 1.2204 M,WQKTR(1),WQTDKR(M,1) = 258 1.0240 1.2248 M,WQKTR(1),WQTDKR(M,1) = 259 1.0240 1.2292 M,WQKTR(1),WQTDKR(M,1) = 260 1.0240 1.2335 M,WQKTR(1),WQTDKR(M,1) = 261 1.0240 1.2379 M,WQKTR(1),WQTDKR(M,1) = 262 1.0240 1.2424 M,WQKTR(1),WQTDKR(M,1) = 263 1.0240 1.2468 M,WQKTR(1),WQTDKR(M,1) = 264 1.0240 1.2512 M,WQKTR(1),WQTDKR(M,1) = 265 1.0240 1.2557 M,WQKTR(1),WQTDKR(M,1) = 266 1.0240 1.2602 M,WQKTR(1),WQTDKR(M,1) = 267 1.0240 1.2646 M,WQKTR(1),WQTDKR(M,1) = 268 1.0240 1.2692 M,WQKTR(1),WQTDKR(M,1) = 269 1.0240 1.2737 M,WQKTR(1),WQTDKR(M,1) = 270 1.0240 1.2782 M,WQKTR(1),WQTDKR(M,1) = 271 1.0240 1.2828 M,WQKTR(1),WQTDKR(M,1) = 272 1.0240 1.2873 M,WQKTR(1),WQTDKR(M,1) = 273 1.0240 1.2919 M,WQKTR(1),WQTDKR(M,1) = 274 1.0240 1.2965 M,WQKTR(1),WQTDKR(M,1) = 275 1.0240 1.3012 M,WQKTR(1),WQTDKR(M,1) = 276 1.0240 1.3058 M,WQKTR(1),WQTDKR(M,1) = 277 1.0240 1.3104 M,WQKTR(1),WQTDKR(M,1) = 278 1.0240 1.3151 M,WQKTR(1),WQTDKR(M,1) = 279 1.0240 1.3198 M,WQKTR(1),WQTDKR(M,1) = 280 1.0240 1.3245 M,WQKTR(1),WQTDKR(M,1) = 281 1.0240 1.3292 M,WQKTR(1),WQTDKR(M,1) = 282 1.0240 1.3340 M,WQKTR(1),WQTDKR(M,1) = 283 1.0240 1.3387 M,WQKTR(1),WQTDKR(M,1) = 284 1.0240 1.3435 M,WQKTR(1),WQTDKR(M,1) = 285 1.0240 1.3483 M,WQKTR(1),WQTDKR(M,1) = 286 1.0240 1.3531 M,WQKTR(1),WQTDKR(M,1) = 287 1.0240 1.3579 M,WQKTR(1),WQTDKR(M,1) = 288 1.0240 1.3627 M,WQKTR(1),WQTDKR(M,1) = 289 1.0240 1.3676 M,WQKTR(1),WQTDKR(M,1) = 290 1.0240 1.3725 M,WQKTR(1),WQTDKR(M,1) = 291 1.0240 1.3774 M,WQKTR(1),WQTDKR(M,1) = 292 1.0240 1.3823 M,WQKTR(1),WQTDKR(M,1) = 293 1.0240 1.3872 M,WQKTR(1),WQTDKR(M,1) = 294 1.0240 1.3921 M,WQKTR(1),WQTDKR(M,1) = 295 1.0240 1.3971 M,WQKTR(1),WQTDKR(M,1) = 296 1.0240 1.4021 M,WQKTR(1),WQTDKR(M,1) = 297 1.0240 1.4071 M,WQKTR(1),WQTDKR(M,1) = 298 1.0240 1.4121 M,WQKTR(1),WQTDKR(M,1) = 299 1.0240 1.4171 M,WQKTR(1),WQTDKR(M,1) = 300 1.0240 1.4222 M,WQKTR(1),WQTDKR(M,1) = 301 1.0240 1.4272 M,WQKTR(1),WQTDKR(M,1) = 302 1.0240 1.4323 M,WQKTR(1),WQTDKR(M,1) = 303 1.0240 1.4374 M,WQKTR(1),WQTDKR(M,1) = 304 1.0240 1.4426 M,WQKTR(1),WQTDKR(M,1) = 305 1.0240 1.4477 M,WQKTR(1),WQTDKR(M,1) = 306 1.0240 1.4529 M,WQKTR(1),WQTDKR(M,1) = 307 1.0240 1.4580 M,WQKTR(1),WQTDKR(M,1) = 308 1.0240 1.4632 M,WQKTR(1),WQTDKR(M,1) = 309 1.0240 1.4685 M,WQKTR(1),WQTDKR(M,1) = 310 1.0240 1.4737 M,WQKTR(1),WQTDKR(M,1) = 311 1.0240 1.4789 M,WQKTR(1),WQTDKR(M,1) = 312 1.0240 1.4842 M,WQKTR(1),WQTDKR(M,1) = 313 1.0240 1.4895 M,WQKTR(1),WQTDKR(M,1) = 314 1.0240 1.4948 M,WQKTR(1),WQTDKR(M,1) = 315 1.0240 1.5001 M,WQKTR(1),WQTDKR(M,1) = 316 1.0240 1.5055 M,WQKTR(1),WQTDKR(M,1) = 317 1.0240 1.5108 M,WQKTR(1),WQTDKR(M,1) = 318 1.0240 1.5162 M,WQKTR(1),WQTDKR(M,1) = 319 1.0240 1.5216 M,WQKTR(1),WQTDKR(M,1) = 320 1.0240 1.5271 M,WQKTR(1),WQTDKR(M,1) = 321 1.0240 1.5325 M,WQKTR(1),WQTDKR(M,1) = 322 1.0240 1.5380 M,WQKTR(1),WQTDKR(M,1) = 323 1.0240 1.5434 M,WQKTR(1),WQTDKR(M,1) = 324 1.0240 1.5489 M,WQKTR(1),WQTDKR(M,1) = 325 1.0240 1.5545 M,WQKTR(1),WQTDKR(M,1) = 326 1.0240 1.5600 M,WQKTR(1),WQTDKR(M,1) = 327 1.0240 1.5656 M,WQKTR(1),WQTDKR(M,1) = 328 1.0240 1.5711 M,WQKTR(1),WQTDKR(M,1) = 329 1.0240 1.5767 M,WQKTR(1),WQTDKR(M,1) = 330 1.0240 1.5824 M,WQKTR(1),WQTDKR(M,1) = 331 1.0240 1.5880 M,WQKTR(1),WQTDKR(M,1) = 332 1.0240 1.5937 M,WQKTR(1),WQTDKR(M,1) = 333 1.0240 1.5993 M,WQKTR(1),WQTDKR(M,1) = 334 1.0240 1.6050 M,WQKTR(1),WQTDKR(M,1) = 335 1.0240 1.6108 M,WQKTR(1),WQTDKR(M,1) = 336 1.0240 1.6165 M,WQKTR(1),WQTDKR(M,1) = 337 1.0240 1.6223 M,WQKTR(1),WQTDKR(M,1) = 338 1.0240 1.6280 M,WQKTR(1),WQTDKR(M,1) = 339 1.0240 1.6338 M,WQKTR(1),WQTDKR(M,1) = 340 1.0240 1.6397 M,WQKTR(1),WQTDKR(M,1) = 341 1.0240 1.6455 M,WQKTR(1),WQTDKR(M,1) = 342 1.0240 1.6514 M,WQKTR(1),WQTDKR(M,1) = 343 1.0240 1.6573 M,WQKTR(1),WQTDKR(M,1) = 344 1.0240 1.6632 M,WQKTR(1),WQTDKR(M,1) = 345 1.0240 1.6691 M,WQKTR(1),WQTDKR(M,1) = 346 1.0240 1.6750 M,WQKTR(1),WQTDKR(M,1) = 347 1.0240 1.6810 M,WQKTR(1),WQTDKR(M,1) = 348 1.0240 1.6870 M,WQKTR(1),WQTDKR(M,1) = 349 1.0240 1.6930 M,WQKTR(1),WQTDKR(M,1) = 350 1.0240 1.6990 M,WQKTR(1),WQTDKR(M,1) = 351 1.0240 1.7051 M,WQKTR(1),WQTDKR(M,1) = 352 1.0240 1.7112 M,WQKTR(1),WQTDKR(M,1) = 353 1.0240 1.7173 M,WQKTR(1),WQTDKR(M,1) = 354 1.0240 1.7234 M,WQKTR(1),WQTDKR(M,1) = 355 1.0240 1.7295 M,WQKTR(1),WQTDKR(M,1) = 356 1.0240 1.7357 M,WQKTR(1),WQTDKR(M,1) = 357 1.0240 1.7419 M,WQKTR(1),WQTDKR(M,1) = 358 1.0240 1.7481 M,WQKTR(1),WQTDKR(M,1) = 359 1.0240 1.7543 M,WQKTR(1),WQTDKR(M,1) = 360 1.0240 1.7606 M,WQKTR(1),WQTDKR(M,1) = 361 1.0240 1.7669 M,WQKTR(1),WQTDKR(M,1) = 362 1.0240 1.7731 M,WQKTR(1),WQTDKR(M,1) = 363 1.0240 1.7795 M,WQKTR(1),WQTDKR(M,1) = 364 1.0240 1.7858 M,WQKTR(1),WQTDKR(M,1) = 365 1.0240 1.7922 M,WQKTR(1),WQTDKR(M,1) = 366 1.0240 1.7986 M,WQKTR(1),WQTDKR(M,1) = 367 1.0240 1.8050 M,WQKTR(1),WQTDKR(M,1) = 368 1.0240 1.8114 M,WQKTR(1),WQTDKR(M,1) = 369 1.0240 1.8179 M,WQKTR(1),WQTDKR(M,1) = 370 1.0240 1.8243 M,WQKTR(1),WQTDKR(M,1) = 371 1.0240 1.8308 M,WQKTR(1),WQTDKR(M,1) = 372 1.0240 1.8374 M,WQKTR(1),WQTDKR(M,1) = 373 1.0240 1.8439 M,WQKTR(1),WQTDKR(M,1) = 374 1.0240 1.8505 M,WQKTR(1),WQTDKR(M,1) = 375 1.0240 1.8571 M,WQKTR(1),WQTDKR(M,1) = 376 1.0240 1.8637 M,WQKTR(1),WQTDKR(M,1) = 377 1.0240 1.8703 M,WQKTR(1),WQTDKR(M,1) = 378 1.0240 1.8770 M,WQKTR(1),WQTDKR(M,1) = 379 1.0240 1.8837 M,WQKTR(1),WQTDKR(M,1) = 380 1.0240 1.8904 M,WQKTR(1),WQTDKR(M,1) = 381 1.0240 1.8971 M,WQKTR(1),WQTDKR(M,1) = 382 1.0240 1.9039 M,WQKTR(1),WQTDKR(M,1) = 383 1.0240 1.9107 M,WQKTR(1),WQTDKR(M,1) = 384 1.0240 1.9175 M,WQKTR(1),WQTDKR(M,1) = 385 1.0240 1.9243 M,WQKTR(1),WQTDKR(M,1) = 386 1.0240 1.9312 M,WQKTR(1),WQTDKR(M,1) = 387 1.0240 1.9381 M,WQKTR(1),WQTDKR(M,1) = 388 1.0240 1.9450 M,WQKTR(1),WQTDKR(M,1) = 389 1.0240 1.9519 M,WQKTR(1),WQTDKR(M,1) = 390 1.0240 1.9589 M,WQKTR(1),WQTDKR(M,1) = 391 1.0240 1.9659 M,WQKTR(1),WQTDKR(M,1) = 392 1.0240 1.9729 M,WQKTR(1),WQTDKR(M,1) = 393 1.0240 1.9799 M,WQKTR(1),WQTDKR(M,1) = 394 1.0240 1.9869 M,WQKTR(1),WQTDKR(M,1) = 395 1.0240 1.9940 M,WQKTR(1),WQTDKR(M,1) = 396 1.0240 2.0011 M,WQKTR(1),WQTDKR(M,1) = 397 1.0240 2.0083 M,WQKTR(1),WQTDKR(M,1) = 398 1.0240 2.0154 M,WQKTR(1),WQTDKR(M,1) = 399 1.0240 2.0226 M,WQKTR(1),WQTDKR(M,1) = 400 1.0240 2.0298 C----------------------------------------------------------------------------- C30 SIX TITLE CARDS FOLLOW: $$ C30 CONCENTRATION TIME SERIES DATA FOR OPEN BOUNDARIES $$ $$ C30 CONCENTRATION TIME SERIES DATA FOR OPEN BOUNDARIES $$ $$ NUMBER OF TIME SERIES FOR EACH STATE VARIABLE $ C C C R L D R L D P R L D N N S S C D T F $ H H H O O O O O O 4 O O O H O U A O O A C $ C G D C C C P P P D N N N X X U A D X M B $ 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 C----------------------------------------------------------------------------- C31 ONE TITLE CARD FOLLOWS: $$ C31 parameters for OPEN BDRY CONDITIONS $$ $$ C31 parameters for OPEN BDRY CONDITIONS $$ C C NWQOBS = number of WQ open boundary cells on SOUTH boundary C NWQOBW = number of WQ open boundary cells on WEST boundary C NWQOBE = number of WQ open boundary cells on EAST boundary C NWQOBN = number of WQ open boundary cells on NORTH boundary C C31 NWQOBS NWQOBW NWQOBE NWQOBN 0 0 0 4 0 0 0 4 * # OF OPEN BDRY CELLS ON SOUTH BDRY = 0 * # OF OPEN BDRY CELLS ON WEST BDRY = 0 * # OF OPEN BDRY CELLS ON EAST BDRY = 0 * # OF OPEN BDRY CELLS ON NORTH BDRY = 4 * CONSTANT OBC AT (ICBX(M),JCBX(M)) IF IWQOBX(M)=0 : READ TIME-SERIES OBCS IWQOBX TIMES IF IWQOBX > 0 C----------------------------------------------------------------------------- C32 SIX TITLE CARDS FOLLOW: $$ C32 SOUTH OPEN BOUNDARY $$ $$ C32 SOUTH OPEN BOUNDARY $$ $$ TIME SERIES ID'S FOR EACH STATE VARIABLE $ I J C C C R L D R L D P R L D N N S S C D T F $ H H H O O O O O O 4 O O O H O U A O O A C $ C G D C C C P P P D N N N X X U A D X M B $ C----------------------------------------------------------------------------- C33 FIVE TITLE CARDS FOLLOW: $$ C33 SOUTH SOUTH OPEN BOUNDARY $$ $$ C33 SOUTH SOUTH OPEN BOUNDARY $$ $$ CONSTANT BOTTOM CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB C----------------------------------------------------------------------------- C34 FIVE TITLE CARDS FOLLOW: $$ C34 SOUTH SOUTH OPEN BOUNDARY $$ $$ C34 SOUTH SOUTH OPEN BOUNDARY $$ $$ CONSTANT SURFACE CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB C----------------------------------------------------------------------------- C35 SIX TITLE CARDS FOLLOW: $$ C35 WEST OPEN BOUNDARY $$ $$ C35 WEST OPEN BOUNDARY $$ $$ TIME SERIES ID'S FOR EACH STATE VARIABLE $ I J C C C R L D R L D P R L D N N S S C D T F $ H H H O O O O O O 4 O O O H O U A O O A C $ C G D C C C P P P D N N N X X U A D X M B $ C----------------------------------------------------------------------------- C36 FIVE TITLE CARDS FOLLOW: $$ C36 WEST SOUTH OPEN BOUNDARY $$ $$ C36 WEST SOUTH OPEN BOUNDARY $$ $$ CONSTANT BOTTOM CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB C----------------------------------------------------------------------------- C37 FIVE TITLE CARDS FOLLOW: $$ C37 WEST SOUTH OPEN BOUNDARY $$ $$ C37 WEST SOUTH OPEN BOUNDARY $$ $$ CONSTANT SURFACE CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB C----------------------------------------------------------------------------- C38 SIX TITLE CARDS FOLLOW: $$ C38 EAST OPEN BOUNDARY $$ $$ C38 EAST OPEN BOUNDARY $$ $$ TIME SERIES ID'S FOR EACH STATE VARIABLE $ I J C C C R L D R L D P R L D N N S S C D T F $ H H H O O O O O O 4 O O O H O U A O O A C $ C G D C C C P P P D N N N X X U A D X M B $ C----------------------------------------------------------------------------- C39 FIVE TITLE CARDS FOLLOW: $$ C39 EAST SOUTH OPEN BOUNDARY $$ $$ C39 EAST SOUTH OPEN BOUNDARY $$ $$ CONSTANT BOTTOM CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB C----------------------------------------------------------------------------- C40 FIVE TITLE CARDS FOLLOW: $$ C40 EAST SOUTH OPEN BOUNDARY $$ $$ C40 EAST SOUTH OPEN BOUNDARY $$ $$ CONSTANT SURFACE CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB C----------------------------------------------------------------------------- C41 SIX TITLE CARDS FOLLOW: $$ C41 NORTH OPEN BOUNDARY $$ $$ C41 NORTH OPEN BOUNDARY $$ $$ TIME SERIES ID'S FOR EACH STATE VARIABLE $ I J C C C R L D R L D P R L D N N S S C D T F $ H H H O O O O O O 4 O O O H O U A O O A C $ C G D C C C P P P D N N N X X U A D X M B $ 7 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 7 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 8 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 8 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 9 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 9 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 10 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 10 341 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 19 C----------------------------------------------------------------------------- C42 FIVE TITLE CARDS FOLLOW: $$ C42 NORTH SOUTH OPEN BOUNDARY $$ $$ C42 NORTH SOUTH OPEN BOUNDARY $$ $$ CONSTANT BOTTOM CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB 7 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 7 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 8 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 8 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 9 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 9 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 10 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 10 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 C----------------------------------------------------------------------------- C43 FIVE TITLE CARDS FOLLOW: $$ C43 NORTH SOUTH OPEN BOUNDARY $$ $$ C43 NORTH SOUTH OPEN BOUNDARY $$ $$ CONSTANT SURFACE CONCENTRATION BC'S $ I J CHC CHD CHG ROC LOC DOC $ ROP LOP DOP P4D RON LON DON $ NHX NOX SUU SAA COD DOX TAM FCB 7 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 7 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 8 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 8 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 9 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 9 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 10 341 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 10 341 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 C----------------------------------------------------------------------------- C44 ONE TITLE CARD FOLLOWS: $$ C44 constant ICs (g/m^3): TAM(mol/m^3), FCB(MPN/100mL) $$ C C Definitions: C ! 1) CHC - cyanobacteria C ! 2) CHD - diatom algae C ! 3) CHG - green algae C ! 4) ROC - refractory particulate organic carbon C ! 5) LOC - labile particulate organic carbon C ! 6) DOC - dissolved organic carbon C ! 7) ROP - refractory particulate organic phosphorus C ! 8) LOP - labile particulate organic phosphorus C ! 9) DOP - dissolved organic phosphorus C ! 10) P4D - total phosphate C ! 11) RON - refractory particulate organic nitrogen 22) macroalgae C ! 12) LON - labile particulate organic nitrogen C ! 13) DON - dissolved organic nitrogen C ! 14) NHX - ammonia nitrogen C ! 15) NOX - nitrate nitrogen C ! 16) SUU - particulate biogenic silica C ! 17) SAA - dissolved available silica C ! 18) COD - chemical oxygen demand C ! 19) DOX - dissolved oxygen C ! 20) TAM - total active metal C ! 21) FCB - fecal coliform bacteria C ! 22) MAC - macroalgae C Bmin - minimum macroalgae biomass C C CHC CHD CHG ROC LOC DOC C ROP LOP DOP P4D RON LON DON C NHX NOX SUU SAA COD DOX TAM FCB MAC BMin 0 0.4 0 0 0 1 0.0000000E+00 0.4000000 0.0000000E+00 0.0000000E+00 0.0000000E+00 1.000000 1.0000000E-03 2.0000001E-03 7.0000002E-03 8.0000004E-03 7.9999998E-02 3.9999999E-02 7.0000000E-02 2.9999999E-02 1.800000 0.0000000E+00 0.0000000E+00 3.000000 12.00000 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 $$ C44 constant ICs (g/m^3): TAM(mol/m^3), FCB(MPN/100mL) $$ : (BC, BD, BG) = 0.000E+00 4.000E-01 0.000E+00 : (RPOC, LPOC, DOC) = 0.000E+00 0.000E+00 1.000E+00 : (RPOP,LPOP,DOP,PO4T) = 1.000E-03 2.000E-03 7.000E-03 8.000E-03 : (RPON, LPON, DON) = 8.000E-02 4.000E-02 7.000E-02 : (NH4, NO3) = 3.000E-02 1.800E+00 : (SU, SA, COD, DO) = 0.000E+00 0.000E+00 3.000E+00 1.200E+01 : (TAM, FCB,MALG) = 0.000E+00 0.000E+00 C----------------------------------------------------------------------------- C45 ONE TITLE CARD FOLLOWS: $$ C45 spatially/temporally constant ALGAL PARAMETERS (/d except Keb in /m) $$ C C PMc = max. growth rate for cyanobacteria (1/day) C PMd = max. growth rate for algae diatoms (1/day) C PMg = max. growth rate for algae greens (1/day) C PMm = max. growth rate for macroalgae (1/day) C BMRc = basal metabolism rate for cyanobacteria (1/day) C BMRd = basal metabolism rate for algae diatoms (1/day) C BMRg = basal metabolism rate for algae greens (1/day) C BMRm = basal metabolism rate for macroalgae (1/day) C PRRc = predation rate on cyanobacteria (1/day) C PRRd = predation rate on algae diatoms (1/day) C PRRg = predation rate on algae greens (1/day) C PRRm = predation rate on macroalgae (1/day) C Keb = background light extinction coefficient (1/m) C C45 PMc PMd PMg PMm BMRc BMRd BMRg BMRm PRRc PRRd PRRg PRRm Keb 0.75 3.5 2 0 .02 .02 .04 0 .01 .01 .02 0 .1 0.7500000 3.500000 2.000000 0.0000000E+00 2.0000000E-02 2.0000000E-02 3.9999999E-02 0.0000000E+00 9.9999998E-03 9.9999998E-03 2.0000000E-02 0.0000000E+00 0.1000000 C----------------------------------------------------------------------------- C46 ONE TITLE CARD FOLLOWS: $$ C46 spatially/temporally constant SETTLING VELOCITIES (m/d) $$ C46 C WSc = settling velocity for cyanobacteria (m/day) C WSd = settling velocity for algae diatoms (m/day) C WSg = settling velocity for algae greens (m/day) C WSrp = settling velocity for refractory POM (m/day) C WSlp = settling velocity for labile POM (m/day) C WSs = settling velocity for particles sorbed to TAM (m/day) C WSM = settling velocity for macroalgae (m/day = 0.0) C REAC = reaeration adjustment factor C C46 WSc WSd WSg WSrp WSlp WSs WSM REAC .05 .05 .05 .05 .05 .1 0 1 5.0000001E-02 5.0000001E-02 5.0000001E-02 5.0000001E-02 5.0000001E-02 0.1000000 0.0000000E+00 1.000000 $$ C46 spatially/temporally constant SETTLING VELOCITIES (m/d) $$ * ALGAL SETTLING RATE (M/DAY) : (WSC, WSD, WSG) = 5.000E-02 5.000E-02 5.000E-02 * POM SETTLING RATE (M/DAY) : (WSRP, WSLP) = 5.000E-02 5.000E-02 * SETTLING RATE OF PARTICULATE METAL (M/DAY) : (WSS) = 1.000E-01 C----------------------------------------------------------------------------- C47 ONE TITLE CARD FOLLOWS: $$ C47 constant benthic flux rates (g/m^2/d) $$ C C FPO4 = benthic flux rate of phosphate C FNH4 = benthic flux rate of ammonia nitrogen C FNO3 = benthic flux rate of nitrite+nitrite nitrogen C FSAD = benthic flux rate of silica C FCOD = benthic flux rate of chemical oxygen demand C SOD = sediment oxygen demand rate C C47 FPO4 FNH4 FNO3 FSAD FCOD SOD 0 0 0 0 0 0 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 $$ C47 constant benthic flux rates (g/m^2/d) $$ : (PO4D, NH4, NO3) = 0.000E+00 0.000E+00 0.000E+00 : (SAD, COD, DO) = 0.000E+00 0.000E+00 0.000E+00 C----------------------------------------------------------------------------- C48 ONE TITLE CARD FOLLOWS: $$ C48 Constant WQ LoadingsC $$ C48 Constant WQ LoadingsC C IWQPS = number of point sources C NPSTMSR = number of point source time series C C Following the this line and the header enter the I J and NSR (series ID). C You must also enter then enter a mass flow rate (PSQ, m^3/s) followed by. C Constant loadings (Conc, mg/l) for each consituents 1-19. TAM (kmol/d), FCB(MPN/L) C Enter a 0.0 to skip constant loadings. C C48 IWQPS NPSTMSR 20 18 20 18 * NUMBER OF CELLS FOR POINT SOURCE INPUT = 20 * NUMBER WITH VARIABLE POINT SOURCE INPUT = 18 C I J K N PSQ CHC CHD CHG ROC LOC DOC C S ROP LOP DOP P4D RON LON DON C R NHX NOX SUU SAA COD DOX TAM FC 432 3 1 1 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 432 3 1 1 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 433 3 1 1 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 433 3 1 1 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 434 99 1 2 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 434 99 1 2 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 433 157 1 3 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 433 157 1 3 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 433 187 1 4 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 433 187 1 4 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 431 320 1 5 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 431 320 1 5 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 414 320 1 6 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 414 320 1 6 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 219 321 1 7 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 219 321 1 7 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 205 320 1 8 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 205 320 1 8 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 116 325 1 9 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 116 325 1 9 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 146 328 1 10 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 146 328 1 10 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 146 329 1 10 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 146 329 1 10 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 141 329 1 11 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 141 329 1 11 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 70 329 1 12 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 70 329 1 12 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 5 316 1 13 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 5 316 1 13 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 296 320 1 14 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 296 320 1 14 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 82 325 1 15 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 82 325 1 15 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 64 324 1 16 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 64 324 1 16 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 5 317 1 17 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 5 317 1 17 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 43 329 1 18 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 43 329 1 18 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 C----------------------------------------------------------------------------- C49 FOUR TITLE CARDS FOLLOW: $$ C49 Constant Dry Atmospheric Deposition (g/m2/day; MPN/m2/day) 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 $$ C49 Constant Dry Atmospheric Deposition (g/m2/day; MPN/m2/day) : (DSQ, CHC, CHD, CHG) = 0.000E+00 0.000E+00 0.000E+00 0.000E+00 : (ROC, LOC, DOC) = 0.000E+00 0.000E+00 0.000E+00 : (ROP, LOP, DOP, P4D) = 0.000E+00 0.000E+00 0.000E+00 0.000E+00 : (RON, LON, DON) = 0.000E+00 0.000E+00 0.000E+00 : (NHX, NOX) = 0.000E+00 0.000E+00 : (SUU, SAA, COD, DOX) = 0.000E+00 0.000E+00 0.000E+00 0.000E+00 : (TAM, FCB) = 0.000E+00 0.000E+00 C----------------------------------------------------------------------------- C50 FOUR TITLE CARDS FOLLOW: $$ C50 Wet Atmospheric Deposition concentrations (mg/L, TAM-MOLES/L, FCB-MPN/L) 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 $$ C50 Wet Atmospheric Deposition concentrations (mg/L, TAM-MOLES/L, FCB-MPN/L) : (CHC, CHD, CHG) = 0.000E+00 0.000E+00 0.000E+00 : (ROC, LOC, DOC) = 0.000E+00 0.000E+00 0.000E+00 : (ROP, LOP, DOP, P4D) = 0.000E+00 0.000E+00 0.000E+00 0.000E+00 : (RON, LON, DON) = 0.000E+00 0.000E+00 0.000E+00 : (NHX, NOX) = 0.000E+00 0.000E+00 : (SUU, SAA, COD, DOX) = 0.000E+00 0.000E+00 0.000E+00 0.000E+00 : (TAM, FCB) = 0.000E+00 0.000E+00 C----------------------------------------------------------------------------- C51 ONE TITLE CARD FOLLOWS: $$ C51 File names for spatially/temporally varying parameters:$$ $$ C51 File names for spatially/temporally varying parameters:$$ * OUTPUT FILE FOR RESTART (**NOT USED**) = WQWCRST.OUT * FILE FOR INITIAL CONDITIONS = WQWCRST.INP * FILE FOR ALGAL GROWTH, RESP., PREDATAT. = WQALGG.INP * FILE FOR SETTLING RATES OF ALGAE, PART. = none * FILE FOR IO, FD, TE, KT = none * FILE FOR BENTHIC FLUX = none * FILE FOR POINT SOURCE INPUT = CWQSRXX.INP * FILE FOR NPS INPUT INCLUDING ATM. INPUT = none * DIAGNOSTIC FILE FOR NEGATIVE CONCENTRAT = none M,I,WQKTR(1),WQTDKR(M,I) = 1 1 1.0240 0.4909 M,I,WQKTR(1),WQTDKR(M,I) = 1 2 1.0240 0.4909 M,I,WQKTR(1),WQTDKR(M,I) = 1 3 1.0240 0.4909 M,I,WQKTR(1),WQTDKR(M,I) = 1 4 1.0240 0.4909 M,I,WQKTR(1),WQTDKR(M,I) = 2 1 1.0240 0.4927 M,I,WQKTR(1),WQTDKR(M,I) = 2 2 1.0240 0.4927 M,I,WQKTR(1),WQTDKR(M,I) = 2 3 1.0240 0.4927 M,I,WQKTR(1),WQTDKR(M,I) = 2 4 1.0240 0.4927 M,I,WQKTR(1),WQTDKR(M,I) = 3 1 1.0240 0.4944 M,I,WQKTR(1),WQTDKR(M,I) = 3 2 1.0240 0.4944 M,I,WQKTR(1),WQTDKR(M,I) = 3 3 1.0240 0.4944 M,I,WQKTR(1),WQTDKR(M,I) = 3 4 1.0240 0.4944 M,I,WQKTR(1),WQTDKR(M,I) = 4 1 1.0240 0.4962 M,I,WQKTR(1),WQTDKR(M,I) = 4 2 1.0240 0.4962 M,I,WQKTR(1),WQTDKR(M,I) = 4 3 1.0240 0.4962 M,I,WQKTR(1),WQTDKR(M,I) = 4 4 1.0240 0.4962 M,I,WQKTR(1),WQTDKR(M,I) = 5 1 1.0240 0.4979 M,I,WQKTR(1),WQTDKR(M,I) = 5 2 1.0240 0.4979 M,I,WQKTR(1),WQTDKR(M,I) = 5 3 1.0240 0.4979 M,I,WQKTR(1),WQTDKR(M,I) = 5 4 1.0240 0.4979 M,I,WQKTR(1),WQTDKR(M,I) = 6 1 1.0240 0.4997 M,I,WQKTR(1),WQTDKR(M,I) = 6 2 1.0240 0.4997 M,I,WQKTR(1),WQTDKR(M,I) = 6 3 1.0240 0.4997 M,I,WQKTR(1),WQTDKR(M,I) = 6 4 1.0240 0.4997 M,I,WQKTR(1),WQTDKR(M,I) = 7 1 1.0240 0.5015 M,I,WQKTR(1),WQTDKR(M,I) = 7 2 1.0240 0.5015 M,I,WQKTR(1),WQTDKR(M,I) = 7 3 1.0240 0.5015 M,I,WQKTR(1),WQTDKR(M,I) = 7 4 1.0240 0.5015 M,I,WQKTR(1),WQTDKR(M,I) = 8 1 1.0240 0.5033 M,I,WQKTR(1),WQTDKR(M,I) = 8 2 1.0240 0.5033 M,I,WQKTR(1),WQTDKR(M,I) = 8 3 1.0240 0.5033 M,I,WQKTR(1),WQTDKR(M,I) = 8 4 1.0240 0.5033 M,I,WQKTR(1),WQTDKR(M,I) = 9 1 1.0240 0.5051 M,I,WQKTR(1),WQTDKR(M,I) = 9 2 1.0240 0.5051 M,I,WQKTR(1),WQTDKR(M,I) = 9 3 1.0240 0.5051 M,I,WQKTR(1),WQTDKR(M,I) = 9 4 1.0240 0.5051 M,I,WQKTR(1),WQTDKR(M,I) = 10 1 1.0240 0.5069 M,I,WQKTR(1),WQTDKR(M,I) = 10 2 1.0240 0.5069 M,I,WQKTR(1),WQTDKR(M,I) = 10 3 1.0240 0.5069 M,I,WQKTR(1),WQTDKR(M,I) = 10 4 1.0240 0.5069 M,I,WQKTR(1),WQTDKR(M,I) = 11 1 1.0240 0.5087 M,I,WQKTR(1),WQTDKR(M,I) = 11 2 1.0240 0.5087 M,I,WQKTR(1),WQTDKR(M,I) = 11 3 1.0240 0.5087 M,I,WQKTR(1),WQTDKR(M,I) = 11 4 1.0240 0.5087 M,I,WQKTR(1),WQTDKR(M,I) = 12 1 1.0240 0.5105 M,I,WQKTR(1),WQTDKR(M,I) = 12 2 1.0240 0.5105 M,I,WQKTR(1),WQTDKR(M,I) = 12 3 1.0240 0.5105 M,I,WQKTR(1),WQTDKR(M,I) = 12 4 1.0240 0.5105 M,I,WQKTR(1),WQTDKR(M,I) = 13 1 1.0240 0.5123 M,I,WQKTR(1),WQTDKR(M,I) = 13 2 1.0240 0.5123 M,I,WQKTR(1),WQTDKR(M,I) = 13 3 1.0240 0.5123 M,I,WQKTR(1),WQTDKR(M,I) = 13 4 1.0240 0.5123 M,I,WQKTR(1),WQTDKR(M,I) = 14 1 1.0240 0.5141 M,I,WQKTR(1),WQTDKR(M,I) = 14 2 1.0240 0.5141 M,I,WQKTR(1),WQTDKR(M,I) = 14 3 1.0240 0.5141 M,I,WQKTR(1),WQTDKR(M,I) = 14 4 1.0240 0.5141 M,I,WQKTR(1),WQTDKR(M,I) = 15 1 1.0240 0.5160 M,I,WQKTR(1),WQTDKR(M,I) = 15 2 1.0240 0.5160 M,I,WQKTR(1),WQTDKR(M,I) = 15 3 1.0240 0.5160 M,I,WQKTR(1),WQTDKR(M,I) = 15 4 1.0240 0.5160 M,I,WQKTR(1),WQTDKR(M,I) = 16 1 1.0240 0.5178 M,I,WQKTR(1),WQTDKR(M,I) = 16 2 1.0240 0.5178 M,I,WQKTR(1),WQTDKR(M,I) = 16 3 1.0240 0.5178 M,I,WQKTR(1),WQTDKR(M,I) = 16 4 1.0240 0.5178 M,I,WQKTR(1),WQTDKR(M,I) = 17 1 1.0240 0.5197 M,I,WQKTR(1),WQTDKR(M,I) = 17 2 1.0240 0.5197 M,I,WQKTR(1),WQTDKR(M,I) = 17 3 1.0240 0.5197 M,I,WQKTR(1),WQTDKR(M,I) = 17 4 1.0240 0.5197 M,I,WQKTR(1),WQTDKR(M,I) = 18 1 1.0240 0.5215 M,I,WQKTR(1),WQTDKR(M,I) = 18 2 1.0240 0.5215 M,I,WQKTR(1),WQTDKR(M,I) = 18 3 1.0240 0.5215 M,I,WQKTR(1),WQTDKR(M,I) = 18 4 1.0240 0.5215 M,I,WQKTR(1),WQTDKR(M,I) = 19 1 1.0240 0.5234 M,I,WQKTR(1),WQTDKR(M,I) = 19 2 1.0240 0.5234 M,I,WQKTR(1),WQTDKR(M,I) = 19 3 1.0240 0.5234 M,I,WQKTR(1),WQTDKR(M,I) = 19 4 1.0240 0.5234 M,I,WQKTR(1),WQTDKR(M,I) = 20 1 1.0240 0.5252 M,I,WQKTR(1),WQTDKR(M,I) = 20 2 1.0240 0.5252 M,I,WQKTR(1),WQTDKR(M,I) = 20 3 1.0240 0.5252 M,I,WQKTR(1),WQTDKR(M,I) = 20 4 1.0240 0.5252 M,I,WQKTR(1),WQTDKR(M,I) = 21 1 1.0240 0.5271 M,I,WQKTR(1),WQTDKR(M,I) = 21 2 1.0240 0.5271 M,I,WQKTR(1),WQTDKR(M,I) = 21 3 1.0240 0.5271 M,I,WQKTR(1),WQTDKR(M,I) = 21 4 1.0240 0.5271 M,I,WQKTR(1),WQTDKR(M,I) = 22 1 1.0240 0.5290 M,I,WQKTR(1),WQTDKR(M,I) = 22 2 1.0240 0.5290 M,I,WQKTR(1),WQTDKR(M,I) = 22 3 1.0240 0.5290 M,I,WQKTR(1),WQTDKR(M,I) = 22 4 1.0240 0.5290 M,I,WQKTR(1),WQTDKR(M,I) = 23 1 1.0240 0.5309 M,I,WQKTR(1),WQTDKR(M,I) = 23 2 1.0240 0.5309 M,I,WQKTR(1),WQTDKR(M,I) = 23 3 1.0240 0.5309 M,I,WQKTR(1),WQTDKR(M,I) = 23 4 1.0240 0.5309 M,I,WQKTR(1),WQTDKR(M,I) = 24 1 1.0240 0.5328 M,I,WQKTR(1),WQTDKR(M,I) = 24 2 1.0240 0.5328 M,I,WQKTR(1),WQTDKR(M,I) = 24 3 1.0240 0.5328 M,I,WQKTR(1),WQTDKR(M,I) = 24 4 1.0240 0.5328 M,I,WQKTR(1),WQTDKR(M,I) = 25 1 1.0240 0.5347 M,I,WQKTR(1),WQTDKR(M,I) = 25 2 1.0240 0.5347 M,I,WQKTR(1),WQTDKR(M,I) = 25 3 1.0240 0.5347 M,I,WQKTR(1),WQTDKR(M,I) = 25 4 1.0240 0.5347 M,I,WQKTR(1),WQTDKR(M,I) = 26 1 1.0240 0.5366 M,I,WQKTR(1),WQTDKR(M,I) = 26 2 1.0240 0.5366 M,I,WQKTR(1),WQTDKR(M,I) = 26 3 1.0240 0.5366 M,I,WQKTR(1),WQTDKR(M,I) = 26 4 1.0240 0.5366 M,I,WQKTR(1),WQTDKR(M,I) = 27 1 1.0240 0.5385 M,I,WQKTR(1),WQTDKR(M,I) = 27 2 1.0240 0.5385 M,I,WQKTR(1),WQTDKR(M,I) = 27 3 1.0240 0.5385 M,I,WQKTR(1),WQTDKR(M,I) = 27 4 1.0240 0.5385 M,I,WQKTR(1),WQTDKR(M,I) = 28 1 1.0240 0.5404 M,I,WQKTR(1),WQTDKR(M,I) = 28 2 1.0240 0.5404 M,I,WQKTR(1),WQTDKR(M,I) = 28 3 1.0240 0.5404 M,I,WQKTR(1),WQTDKR(M,I) = 28 4 1.0240 0.5404 M,I,WQKTR(1),WQTDKR(M,I) = 29 1 1.0240 0.5423 M,I,WQKTR(1),WQTDKR(M,I) = 29 2 1.0240 0.5423 M,I,WQKTR(1),WQTDKR(M,I) = 29 3 1.0240 0.5423 M,I,WQKTR(1),WQTDKR(M,I) = 29 4 1.0240 0.5423 M,I,WQKTR(1),WQTDKR(M,I) = 30 1 1.0240 0.5443 M,I,WQKTR(1),WQTDKR(M,I) = 30 2 1.0240 0.5443 M,I,WQKTR(1),WQTDKR(M,I) = 30 3 1.0240 0.5443 M,I,WQKTR(1),WQTDKR(M,I) = 30 4 1.0240 0.5443 M,I,WQKTR(1),WQTDKR(M,I) = 31 1 1.0240 0.5462 M,I,WQKTR(1),WQTDKR(M,I) = 31 2 1.0240 0.5462 M,I,WQKTR(1),WQTDKR(M,I) = 31 3 1.0240 0.5462 M,I,WQKTR(1),WQTDKR(M,I) = 31 4 1.0240 0.5462 M,I,WQKTR(1),WQTDKR(M,I) = 32 1 1.0240 0.5481 M,I,WQKTR(1),WQTDKR(M,I) = 32 2 1.0240 0.5481 M,I,WQKTR(1),WQTDKR(M,I) = 32 3 1.0240 0.5481 M,I,WQKTR(1),WQTDKR(M,I) = 32 4 1.0240 0.5481 M,I,WQKTR(1),WQTDKR(M,I) = 33 1 1.0240 0.5501 M,I,WQKTR(1),WQTDKR(M,I) = 33 2 1.0240 0.5501 M,I,WQKTR(1),WQTDKR(M,I) = 33 3 1.0240 0.5501 M,I,WQKTR(1),WQTDKR(M,I) = 33 4 1.0240 0.5501 M,I,WQKTR(1),WQTDKR(M,I) = 34 1 1.0240 0.5521 M,I,WQKTR(1),WQTDKR(M,I) = 34 2 1.0240 0.5521 M,I,WQKTR(1),WQTDKR(M,I) = 34 3 1.0240 0.5521 M,I,WQKTR(1),WQTDKR(M,I) = 34 4 1.0240 0.5521 M,I,WQKTR(1),WQTDKR(M,I) = 35 1 1.0240 0.5540 M,I,WQKTR(1),WQTDKR(M,I) = 35 2 1.0240 0.5540 M,I,WQKTR(1),WQTDKR(M,I) = 35 3 1.0240 0.5540 M,I,WQKTR(1),WQTDKR(M,I) = 35 4 1.0240 0.5540 M,I,WQKTR(1),WQTDKR(M,I) = 36 1 1.0240 0.5560 M,I,WQKTR(1),WQTDKR(M,I) = 36 2 1.0240 0.5560 M,I,WQKTR(1),WQTDKR(M,I) = 36 3 1.0240 0.5560 M,I,WQKTR(1),WQTDKR(M,I) = 36 4 1.0240 0.5560 M,I,WQKTR(1),WQTDKR(M,I) = 37 1 1.0240 0.5580 M,I,WQKTR(1),WQTDKR(M,I) = 37 2 1.0240 0.5580 M,I,WQKTR(1),WQTDKR(M,I) = 37 3 1.0240 0.5580 M,I,WQKTR(1),WQTDKR(M,I) = 37 4 1.0240 0.5580 M,I,WQKTR(1),WQTDKR(M,I) = 38 1 1.0240 0.5600 M,I,WQKTR(1),WQTDKR(M,I) = 38 2 1.0240 0.5600 M,I,WQKTR(1),WQTDKR(M,I) = 38 3 1.0240 0.5600 M,I,WQKTR(1),WQTDKR(M,I) = 38 4 1.0240 0.5600 M,I,WQKTR(1),WQTDKR(M,I) = 39 1 1.0240 0.5620 M,I,WQKTR(1),WQTDKR(M,I) = 39 2 1.0240 0.5620 M,I,WQKTR(1),WQTDKR(M,I) = 39 3 1.0240 0.5620 M,I,WQKTR(1),WQTDKR(M,I) = 39 4 1.0240 0.5620 M,I,WQKTR(1),WQTDKR(M,I) = 40 1 1.0240 0.5640 M,I,WQKTR(1),WQTDKR(M,I) = 40 2 1.0240 0.5640 M,I,WQKTR(1),WQTDKR(M,I) = 40 3 1.0240 0.5640 M,I,WQKTR(1),WQTDKR(M,I) = 40 4 1.0240 0.5640 M,I,WQKTR(1),WQTDKR(M,I) = 41 1 1.0240 0.5660 M,I,WQKTR(1),WQTDKR(M,I) = 41 2 1.0240 0.5660 M,I,WQKTR(1),WQTDKR(M,I) = 41 3 1.0240 0.5660 M,I,WQKTR(1),WQTDKR(M,I) = 41 4 1.0240 0.5660 M,I,WQKTR(1),WQTDKR(M,I) = 42 1 1.0240 0.5680 M,I,WQKTR(1),WQTDKR(M,I) = 42 2 1.0240 0.5680 M,I,WQKTR(1),WQTDKR(M,I) = 42 3 1.0240 0.5680 M,I,WQKTR(1),WQTDKR(M,I) = 42 4 1.0240 0.5680 M,I,WQKTR(1),WQTDKR(M,I) = 43 1 1.0240 0.5700 M,I,WQKTR(1),WQTDKR(M,I) = 43 2 1.0240 0.5700 M,I,WQKTR(1),WQTDKR(M,I) = 43 3 1.0240 0.5700 M,I,WQKTR(1),WQTDKR(M,I) = 43 4 1.0240 0.5700 M,I,WQKTR(1),WQTDKR(M,I) = 44 1 1.0240 0.5721 M,I,WQKTR(1),WQTDKR(M,I) = 44 2 1.0240 0.5721 M,I,WQKTR(1),WQTDKR(M,I) = 44 3 1.0240 0.5721 M,I,WQKTR(1),WQTDKR(M,I) = 44 4 1.0240 0.5721 M,I,WQKTR(1),WQTDKR(M,I) = 45 1 1.0240 0.5741 M,I,WQKTR(1),WQTDKR(M,I) = 45 2 1.0240 0.5741 M,I,WQKTR(1),WQTDKR(M,I) = 45 3 1.0240 0.5741 M,I,WQKTR(1),WQTDKR(M,I) = 45 4 1.0240 0.5741 M,I,WQKTR(1),WQTDKR(M,I) = 46 1 1.0240 0.5761 M,I,WQKTR(1),WQTDKR(M,I) = 46 2 1.0240 0.5761 M,I,WQKTR(1),WQTDKR(M,I) = 46 3 1.0240 0.5761 M,I,WQKTR(1),WQTDKR(M,I) = 46 4 1.0240 0.5761 M,I,WQKTR(1),WQTDKR(M,I) = 47 1 1.0240 0.5782 M,I,WQKTR(1),WQTDKR(M,I) = 47 2 1.0240 0.5782 M,I,WQKTR(1),WQTDKR(M,I) = 47 3 1.0240 0.5782 M,I,WQKTR(1),WQTDKR(M,I) = 47 4 1.0240 0.5782 M,I,WQKTR(1),WQTDKR(M,I) = 48 1 1.0240 0.5803 M,I,WQKTR(1),WQTDKR(M,I) = 48 2 1.0240 0.5803 M,I,WQKTR(1),WQTDKR(M,I) = 48 3 1.0240 0.5803 M,I,WQKTR(1),WQTDKR(M,I) = 48 4 1.0240 0.5803 M,I,WQKTR(1),WQTDKR(M,I) = 49 1 1.0240 0.5823 M,I,WQKTR(1),WQTDKR(M,I) = 49 2 1.0240 0.5823 M,I,WQKTR(1),WQTDKR(M,I) = 49 3 1.0240 0.5823 M,I,WQKTR(1),WQTDKR(M,I) = 49 4 1.0240 0.5823 M,I,WQKTR(1),WQTDKR(M,I) = 50 1 1.0240 0.5844 M,I,WQKTR(1),WQTDKR(M,I) = 50 2 1.0240 0.5844 M,I,WQKTR(1),WQTDKR(M,I) = 50 3 1.0240 0.5844 M,I,WQKTR(1),WQTDKR(M,I) = 50 4 1.0240 0.5844 M,I,WQKTR(1),WQTDKR(M,I) = 51 1 1.0240 0.5865 M,I,WQKTR(1),WQTDKR(M,I) = 51 2 1.0240 0.5865 M,I,WQKTR(1),WQTDKR(M,I) = 51 3 1.0240 0.5865 M,I,WQKTR(1),WQTDKR(M,I) = 51 4 1.0240 0.5865 M,I,WQKTR(1),WQTDKR(M,I) = 52 1 1.0240 0.5886 M,I,WQKTR(1),WQTDKR(M,I) = 52 2 1.0240 0.5886 M,I,WQKTR(1),WQTDKR(M,I) = 52 3 1.0240 0.5886 M,I,WQKTR(1),WQTDKR(M,I) = 52 4 1.0240 0.5886 M,I,WQKTR(1),WQTDKR(M,I) = 53 1 1.0240 0.5907 M,I,WQKTR(1),WQTDKR(M,I) = 53 2 1.0240 0.5907 M,I,WQKTR(1),WQTDKR(M,I) = 53 3 1.0240 0.5907 M,I,WQKTR(1),WQTDKR(M,I) = 53 4 1.0240 0.5907 M,I,WQKTR(1),WQTDKR(M,I) = 54 1 1.0240 0.5928 M,I,WQKTR(1),WQTDKR(M,I) = 54 2 1.0240 0.5928 M,I,WQKTR(1),WQTDKR(M,I) = 54 3 1.0240 0.5928 M,I,WQKTR(1),WQTDKR(M,I) = 54 4 1.0240 0.5928 M,I,WQKTR(1),WQTDKR(M,I) = 55 1 1.0240 0.5949 M,I,WQKTR(1),WQTDKR(M,I) = 55 2 1.0240 0.5949 M,I,WQKTR(1),WQTDKR(M,I) = 55 3 1.0240 0.5949 M,I,WQKTR(1),WQTDKR(M,I) = 55 4 1.0240 0.5949 M,I,WQKTR(1),WQTDKR(M,I) = 56 1 1.0240 0.5970 M,I,WQKTR(1),WQTDKR(M,I) = 56 2 1.0240 0.5970 M,I,WQKTR(1),WQTDKR(M,I) = 56 3 1.0240 0.5970 M,I,WQKTR(1),WQTDKR(M,I) = 56 4 1.0240 0.5970 M,I,WQKTR(1),WQTDKR(M,I) = 57 1 1.0240 0.5991 M,I,WQKTR(1),WQTDKR(M,I) = 57 2 1.0240 0.5991 M,I,WQKTR(1),WQTDKR(M,I) = 57 3 1.0240 0.5991 M,I,WQKTR(1),WQTDKR(M,I) = 57 4 1.0240 0.5991 M,I,WQKTR(1),WQTDKR(M,I) = 58 1 1.0240 0.6013 M,I,WQKTR(1),WQTDKR(M,I) = 58 2 1.0240 0.6013 M,I,WQKTR(1),WQTDKR(M,I) = 58 3 1.0240 0.6013 M,I,WQKTR(1),WQTDKR(M,I) = 58 4 1.0240 0.6013 M,I,WQKTR(1),WQTDKR(M,I) = 59 1 1.0240 0.6034 M,I,WQKTR(1),WQTDKR(M,I) = 59 2 1.0240 0.6034 M,I,WQKTR(1),WQTDKR(M,I) = 59 3 1.0240 0.6034 M,I,WQKTR(1),WQTDKR(M,I) = 59 4 1.0240 0.6034 M,I,WQKTR(1),WQTDKR(M,I) = 60 1 1.0240 0.6056 M,I,WQKTR(1),WQTDKR(M,I) = 60 2 1.0240 0.6056 M,I,WQKTR(1),WQTDKR(M,I) = 60 3 1.0240 0.6056 M,I,WQKTR(1),WQTDKR(M,I) = 60 4 1.0240 0.6056 M,I,WQKTR(1),WQTDKR(M,I) = 61 1 1.0240 0.6077 M,I,WQKTR(1),WQTDKR(M,I) = 61 2 1.0240 0.6077 M,I,WQKTR(1),WQTDKR(M,I) = 61 3 1.0240 0.6077 M,I,WQKTR(1),WQTDKR(M,I) = 61 4 1.0240 0.6077 M,I,WQKTR(1),WQTDKR(M,I) = 62 1 1.0240 0.6099 M,I,WQKTR(1),WQTDKR(M,I) = 62 2 1.0240 0.6099 M,I,WQKTR(1),WQTDKR(M,I) = 62 3 1.0240 0.6099 M,I,WQKTR(1),WQTDKR(M,I) = 62 4 1.0240 0.6099 M,I,WQKTR(1),WQTDKR(M,I) = 63 1 1.0240 0.6121 M,I,WQKTR(1),WQTDKR(M,I) = 63 2 1.0240 0.6121 M,I,WQKTR(1),WQTDKR(M,I) = 63 3 1.0240 0.6121 M,I,WQKTR(1),WQTDKR(M,I) = 63 4 1.0240 0.6121 M,I,WQKTR(1),WQTDKR(M,I) = 64 1 1.0240 0.6142 M,I,WQKTR(1),WQTDKR(M,I) = 64 2 1.0240 0.6142 M,I,WQKTR(1),WQTDKR(M,I) = 64 3 1.0240 0.6142 M,I,WQKTR(1),WQTDKR(M,I) = 64 4 1.0240 0.6142 M,I,WQKTR(1),WQTDKR(M,I) = 65 1 1.0240 0.6164 M,I,WQKTR(1),WQTDKR(M,I) = 65 2 1.0240 0.6164 M,I,WQKTR(1),WQTDKR(M,I) = 65 3 1.0240 0.6164 M,I,WQKTR(1),WQTDKR(M,I) = 65 4 1.0240 0.6164 M,I,WQKTR(1),WQTDKR(M,I) = 66 1 1.0240 0.6186 M,I,WQKTR(1),WQTDKR(M,I) = 66 2 1.0240 0.6186 M,I,WQKTR(1),WQTDKR(M,I) = 66 3 1.0240 0.6186 M,I,WQKTR(1),WQTDKR(M,I) = 66 4 1.0240 0.6186 M,I,WQKTR(1),WQTDKR(M,I) = 67 1 1.0240 0.6208 M,I,WQKTR(1),WQTDKR(M,I) = 67 2 1.0240 0.6208 M,I,WQKTR(1),WQTDKR(M,I) = 67 3 1.0240 0.6208 M,I,WQKTR(1),WQTDKR(M,I) = 67 4 1.0240 0.6208 M,I,WQKTR(1),WQTDKR(M,I) = 68 1 1.0240 0.6230 M,I,WQKTR(1),WQTDKR(M,I) = 68 2 1.0240 0.6230 M,I,WQKTR(1),WQTDKR(M,I) = 68 3 1.0240 0.6230 M,I,WQKTR(1),WQTDKR(M,I) = 68 4 1.0240 0.6230 M,I,WQKTR(1),WQTDKR(M,I) = 69 1 1.0240 0.6253 M,I,WQKTR(1),WQTDKR(M,I) = 69 2 1.0240 0.6253 M,I,WQKTR(1),WQTDKR(M,I) = 69 3 1.0240 0.6253 M,I,WQKTR(1),WQTDKR(M,I) = 69 4 1.0240 0.6253 M,I,WQKTR(1),WQTDKR(M,I) = 70 1 1.0240 0.6275 M,I,WQKTR(1),WQTDKR(M,I) = 70 2 1.0240 0.6275 M,I,WQKTR(1),WQTDKR(M,I) = 70 3 1.0240 0.6275 M,I,WQKTR(1),WQTDKR(M,I) = 70 4 1.0240 0.6275 M,I,WQKTR(1),WQTDKR(M,I) = 71 1 1.0240 0.6297 M,I,WQKTR(1),WQTDKR(M,I) = 71 2 1.0240 0.6297 M,I,WQKTR(1),WQTDKR(M,I) = 71 3 1.0240 0.6297 M,I,WQKTR(1),WQTDKR(M,I) = 71 4 1.0240 0.6297 M,I,WQKTR(1),WQTDKR(M,I) = 72 1 1.0240 0.6320 M,I,WQKTR(1),WQTDKR(M,I) = 72 2 1.0240 0.6320 M,I,WQKTR(1),WQTDKR(M,I) = 72 3 1.0240 0.6320 M,I,WQKTR(1),WQTDKR(M,I) = 72 4 1.0240 0.6320 M,I,WQKTR(1),WQTDKR(M,I) = 73 1 1.0240 0.6342 M,I,WQKTR(1),WQTDKR(M,I) = 73 2 1.0240 0.6342 M,I,WQKTR(1),WQTDKR(M,I) = 73 3 1.0240 0.6342 M,I,WQKTR(1),WQTDKR(M,I) = 73 4 1.0240 0.6342 M,I,WQKTR(1),WQTDKR(M,I) = 74 1 1.0240 0.6365 M,I,WQKTR(1),WQTDKR(M,I) = 74 2 1.0240 0.6365 M,I,WQKTR(1),WQTDKR(M,I) = 74 3 1.0240 0.6365 M,I,WQKTR(1),WQTDKR(M,I) = 74 4 1.0240 0.6365 M,I,WQKTR(1),WQTDKR(M,I) = 75 1 1.0240 0.6387 M,I,WQKTR(1),WQTDKR(M,I) = 75 2 1.0240 0.6387 M,I,WQKTR(1),WQTDKR(M,I) = 75 3 1.0240 0.6387 M,I,WQKTR(1),WQTDKR(M,I) = 75 4 1.0240 0.6387 M,I,WQKTR(1),WQTDKR(M,I) = 76 1 1.0240 0.6410 M,I,WQKTR(1),WQTDKR(M,I) = 76 2 1.0240 0.6410 M,I,WQKTR(1),WQTDKR(M,I) = 76 3 1.0240 0.6410 M,I,WQKTR(1),WQTDKR(M,I) = 76 4 1.0240 0.6410 M,I,WQKTR(1),WQTDKR(M,I) = 77 1 1.0240 0.6433 M,I,WQKTR(1),WQTDKR(M,I) = 77 2 1.0240 0.6433 M,I,WQKTR(1),WQTDKR(M,I) = 77 3 1.0240 0.6433 M,I,WQKTR(1),WQTDKR(M,I) = 77 4 1.0240 0.6433 M,I,WQKTR(1),WQTDKR(M,I) = 78 1 1.0240 0.6456 M,I,WQKTR(1),WQTDKR(M,I) = 78 2 1.0240 0.6456 M,I,WQKTR(1),WQTDKR(M,I) = 78 3 1.0240 0.6456 M,I,WQKTR(1),WQTDKR(M,I) = 78 4 1.0240 0.6456 M,I,WQKTR(1),WQTDKR(M,I) = 79 1 1.0240 0.6479 M,I,WQKTR(1),WQTDKR(M,I) = 79 2 1.0240 0.6479 M,I,WQKTR(1),WQTDKR(M,I) = 79 3 1.0240 0.6479 M,I,WQKTR(1),WQTDKR(M,I) = 79 4 1.0240 0.6479 M,I,WQKTR(1),WQTDKR(M,I) = 80 1 1.0240 0.6502 M,I,WQKTR(1),WQTDKR(M,I) = 80 2 1.0240 0.6502 M,I,WQKTR(1),WQTDKR(M,I) = 80 3 1.0240 0.6502 M,I,WQKTR(1),WQTDKR(M,I) = 80 4 1.0240 0.6502 M,I,WQKTR(1),WQTDKR(M,I) = 81 1 1.0240 0.6525 M,I,WQKTR(1),WQTDKR(M,I) = 81 2 1.0240 0.6525 M,I,WQKTR(1),WQTDKR(M,I) = 81 3 1.0240 0.6525 M,I,WQKTR(1),WQTDKR(M,I) = 81 4 1.0240 0.6525 M,I,WQKTR(1),WQTDKR(M,I) = 82 1 1.0240 0.6549 M,I,WQKTR(1),WQTDKR(M,I) = 82 2 1.0240 0.6549 M,I,WQKTR(1),WQTDKR(M,I) = 82 3 1.0240 0.6549 M,I,WQKTR(1),WQTDKR(M,I) = 82 4 1.0240 0.6549 M,I,WQKTR(1),WQTDKR(M,I) = 83 1 1.0240 0.6572 M,I,WQKTR(1),WQTDKR(M,I) = 83 2 1.0240 0.6572 M,I,WQKTR(1),WQTDKR(M,I) = 83 3 1.0240 0.6572 M,I,WQKTR(1),WQTDKR(M,I) = 83 4 1.0240 0.6572 M,I,WQKTR(1),WQTDKR(M,I) = 84 1 1.0240 0.6595 M,I,WQKTR(1),WQTDKR(M,I) = 84 2 1.0240 0.6595 M,I,WQKTR(1),WQTDKR(M,I) = 84 3 1.0240 0.6595 M,I,WQKTR(1),WQTDKR(M,I) = 84 4 1.0240 0.6595 M,I,WQKTR(1),WQTDKR(M,I) = 85 1 1.0240 0.6619 M,I,WQKTR(1),WQTDKR(M,I) = 85 2 1.0240 0.6619 M,I,WQKTR(1),WQTDKR(M,I) = 85 3 1.0240 0.6619 M,I,WQKTR(1),WQTDKR(M,I) = 85 4 1.0240 0.6619 M,I,WQKTR(1),WQTDKR(M,I) = 86 1 1.0240 0.6642 M,I,WQKTR(1),WQTDKR(M,I) = 86 2 1.0240 0.6642 M,I,WQKTR(1),WQTDKR(M,I) = 86 3 1.0240 0.6642 M,I,WQKTR(1),WQTDKR(M,I) = 86 4 1.0240 0.6642 M,I,WQKTR(1),WQTDKR(M,I) = 87 1 1.0240 0.6666 M,I,WQKTR(1),WQTDKR(M,I) = 87 2 1.0240 0.6666 M,I,WQKTR(1),WQTDKR(M,I) = 87 3 1.0240 0.6666 M,I,WQKTR(1),WQTDKR(M,I) = 87 4 1.0240 0.6666 M,I,WQKTR(1),WQTDKR(M,I) = 88 1 1.0240 0.6690 M,I,WQKTR(1),WQTDKR(M,I) = 88 2 1.0240 0.6690 M,I,WQKTR(1),WQTDKR(M,I) = 88 3 1.0240 0.6690 M,I,WQKTR(1),WQTDKR(M,I) = 88 4 1.0240 0.6690 M,I,WQKTR(1),WQTDKR(M,I) = 89 1 1.0240 0.6714 M,I,WQKTR(1),WQTDKR(M,I) = 89 2 1.0240 0.6714 M,I,WQKTR(1),WQTDKR(M,I) = 89 3 1.0240 0.6714 M,I,WQKTR(1),WQTDKR(M,I) = 89 4 1.0240 0.6714 M,I,WQKTR(1),WQTDKR(M,I) = 90 1 1.0240 0.6738 M,I,WQKTR(1),WQTDKR(M,I) = 90 2 1.0240 0.6738 M,I,WQKTR(1),WQTDKR(M,I) = 90 3 1.0240 0.6738 M,I,WQKTR(1),WQTDKR(M,I) = 90 4 1.0240 0.6738 M,I,WQKTR(1),WQTDKR(M,I) = 91 1 1.0240 0.6762 M,I,WQKTR(1),WQTDKR(M,I) = 91 2 1.0240 0.6762 M,I,WQKTR(1),WQTDKR(M,I) = 91 3 1.0240 0.6762 M,I,WQKTR(1),WQTDKR(M,I) = 91 4 1.0240 0.6762 M,I,WQKTR(1),WQTDKR(M,I) = 92 1 1.0240 0.6786 M,I,WQKTR(1),WQTDKR(M,I) = 92 2 1.0240 0.6786 M,I,WQKTR(1),WQTDKR(M,I) = 92 3 1.0240 0.6786 M,I,WQKTR(1),WQTDKR(M,I) = 92 4 1.0240 0.6786 M,I,WQKTR(1),WQTDKR(M,I) = 93 1 1.0240 0.6810 M,I,WQKTR(1),WQTDKR(M,I) = 93 2 1.0240 0.6810 M,I,WQKTR(1),WQTDKR(M,I) = 93 3 1.0240 0.6810 M,I,WQKTR(1),WQTDKR(M,I) = 93 4 1.0240 0.6810 M,I,WQKTR(1),WQTDKR(M,I) = 94 1 1.0240 0.6834 M,I,WQKTR(1),WQTDKR(M,I) = 94 2 1.0240 0.6834 M,I,WQKTR(1),WQTDKR(M,I) = 94 3 1.0240 0.6834 M,I,WQKTR(1),WQTDKR(M,I) = 94 4 1.0240 0.6834 M,I,WQKTR(1),WQTDKR(M,I) = 95 1 1.0240 0.6859 M,I,WQKTR(1),WQTDKR(M,I) = 95 2 1.0240 0.6859 M,I,WQKTR(1),WQTDKR(M,I) = 95 3 1.0240 0.6859 M,I,WQKTR(1),WQTDKR(M,I) = 95 4 1.0240 0.6859 M,I,WQKTR(1),WQTDKR(M,I) = 96 1 1.0240 0.6883 M,I,WQKTR(1),WQTDKR(M,I) = 96 2 1.0240 0.6883 M,I,WQKTR(1),WQTDKR(M,I) = 96 3 1.0240 0.6883 M,I,WQKTR(1),WQTDKR(M,I) = 96 4 1.0240 0.6883 M,I,WQKTR(1),WQTDKR(M,I) = 97 1 1.0240 0.6907 M,I,WQKTR(1),WQTDKR(M,I) = 97 2 1.0240 0.6907 M,I,WQKTR(1),WQTDKR(M,I) = 97 3 1.0240 0.6907 M,I,WQKTR(1),WQTDKR(M,I) = 97 4 1.0240 0.6907 M,I,WQKTR(1),WQTDKR(M,I) = 98 1 1.0240 0.6932 M,I,WQKTR(1),WQTDKR(M,I) = 98 2 1.0240 0.6932 M,I,WQKTR(1),WQTDKR(M,I) = 98 3 1.0240 0.6932 M,I,WQKTR(1),WQTDKR(M,I) = 98 4 1.0240 0.6932 M,I,WQKTR(1),WQTDKR(M,I) = 99 1 1.0240 0.6957 M,I,WQKTR(1),WQTDKR(M,I) = 99 2 1.0240 0.6957 M,I,WQKTR(1),WQTDKR(M,I) = 99 3 1.0240 0.6957 M,I,WQKTR(1),WQTDKR(M,I) = 99 4 1.0240 0.6957 M,I,WQKTR(1),WQTDKR(M,I) = 100 1 1.0240 0.6982 M,I,WQKTR(1),WQTDKR(M,I) = 100 2 1.0240 0.6982 M,I,WQKTR(1),WQTDKR(M,I) = 100 3 1.0240 0.6982 M,I,WQKTR(1),WQTDKR(M,I) = 100 4 1.0240 0.6982 M,I,WQKTR(1),WQTDKR(M,I) = 101 1 1.0240 0.7006 M,I,WQKTR(1),WQTDKR(M,I) = 101 2 1.0240 0.7006 M,I,WQKTR(1),WQTDKR(M,I) = 101 3 1.0240 0.7006 M,I,WQKTR(1),WQTDKR(M,I) = 101 4 1.0240 0.7006 M,I,WQKTR(1),WQTDKR(M,I) = 102 1 1.0240 0.7031 M,I,WQKTR(1),WQTDKR(M,I) = 102 2 1.0240 0.7031 M,I,WQKTR(1),WQTDKR(M,I) = 102 3 1.0240 0.7031 M,I,WQKTR(1),WQTDKR(M,I) = 102 4 1.0240 0.7031 M,I,WQKTR(1),WQTDKR(M,I) = 103 1 1.0240 0.7057 M,I,WQKTR(1),WQTDKR(M,I) = 103 2 1.0240 0.7057 M,I,WQKTR(1),WQTDKR(M,I) = 103 3 1.0240 0.7057 M,I,WQKTR(1),WQTDKR(M,I) = 103 4 1.0240 0.7057 M,I,WQKTR(1),WQTDKR(M,I) = 104 1 1.0240 0.7082 M,I,WQKTR(1),WQTDKR(M,I) = 104 2 1.0240 0.7082 M,I,WQKTR(1),WQTDKR(M,I) = 104 3 1.0240 0.7082 M,I,WQKTR(1),WQTDKR(M,I) = 104 4 1.0240 0.7082 M,I,WQKTR(1),WQTDKR(M,I) = 105 1 1.0240 0.7107 M,I,WQKTR(1),WQTDKR(M,I) = 105 2 1.0240 0.7107 M,I,WQKTR(1),WQTDKR(M,I) = 105 3 1.0240 0.7107 M,I,WQKTR(1),WQTDKR(M,I) = 105 4 1.0240 0.7107 M,I,WQKTR(1),WQTDKR(M,I) = 106 1 1.0240 0.7132 M,I,WQKTR(1),WQTDKR(M,I) = 106 2 1.0240 0.7132 M,I,WQKTR(1),WQTDKR(M,I) = 106 3 1.0240 0.7132 M,I,WQKTR(1),WQTDKR(M,I) = 106 4 1.0240 0.7132 M,I,WQKTR(1),WQTDKR(M,I) = 107 1 1.0240 0.7158 M,I,WQKTR(1),WQTDKR(M,I) = 107 2 1.0240 0.7158 M,I,WQKTR(1),WQTDKR(M,I) = 107 3 1.0240 0.7158 M,I,WQKTR(1),WQTDKR(M,I) = 107 4 1.0240 0.7158 M,I,WQKTR(1),WQTDKR(M,I) = 108 1 1.0240 0.7183 M,I,WQKTR(1),WQTDKR(M,I) = 108 2 1.0240 0.7183 M,I,WQKTR(1),WQTDKR(M,I) = 108 3 1.0240 0.7183 M,I,WQKTR(1),WQTDKR(M,I) = 108 4 1.0240 0.7183 M,I,WQKTR(1),WQTDKR(M,I) = 109 1 1.0240 0.7209 M,I,WQKTR(1),WQTDKR(M,I) = 109 2 1.0240 0.7209 M,I,WQKTR(1),WQTDKR(M,I) = 109 3 1.0240 0.7209 M,I,WQKTR(1),WQTDKR(M,I) = 109 4 1.0240 0.7209 M,I,WQKTR(1),WQTDKR(M,I) = 110 1 1.0240 0.7234 M,I,WQKTR(1),WQTDKR(M,I) = 110 2 1.0240 0.7234 M,I,WQKTR(1),WQTDKR(M,I) = 110 3 1.0240 0.7234 M,I,WQKTR(1),WQTDKR(M,I) = 110 4 1.0240 0.7234 M,I,WQKTR(1),WQTDKR(M,I) = 111 1 1.0240 0.7260 M,I,WQKTR(1),WQTDKR(M,I) = 111 2 1.0240 0.7260 M,I,WQKTR(1),WQTDKR(M,I) = 111 3 1.0240 0.7260 M,I,WQKTR(1),WQTDKR(M,I) = 111 4 1.0240 0.7260 M,I,WQKTR(1),WQTDKR(M,I) = 112 1 1.0240 0.7286 M,I,WQKTR(1),WQTDKR(M,I) = 112 2 1.0240 0.7286 M,I,WQKTR(1),WQTDKR(M,I) = 112 3 1.0240 0.7286 M,I,WQKTR(1),WQTDKR(M,I) = 112 4 1.0240 0.7286 M,I,WQKTR(1),WQTDKR(M,I) = 113 1 1.0240 0.7312 M,I,WQKTR(1),WQTDKR(M,I) = 113 2 1.0240 0.7312 M,I,WQKTR(1),WQTDKR(M,I) = 113 3 1.0240 0.7312 M,I,WQKTR(1),WQTDKR(M,I) = 113 4 1.0240 0.7312 M,I,WQKTR(1),WQTDKR(M,I) = 114 1 1.0240 0.7338 M,I,WQKTR(1),WQTDKR(M,I) = 114 2 1.0240 0.7338 M,I,WQKTR(1),WQTDKR(M,I) = 114 3 1.0240 0.7338 M,I,WQKTR(1),WQTDKR(M,I) = 114 4 1.0240 0.7338 M,I,WQKTR(1),WQTDKR(M,I) = 115 1 1.0240 0.7364 M,I,WQKTR(1),WQTDKR(M,I) = 115 2 1.0240 0.7364 M,I,WQKTR(1),WQTDKR(M,I) = 115 3 1.0240 0.7364 M,I,WQKTR(1),WQTDKR(M,I) = 115 4 1.0240 0.7364 M,I,WQKTR(1),WQTDKR(M,I) = 116 1 1.0240 0.7391 M,I,WQKTR(1),WQTDKR(M,I) = 116 2 1.0240 0.7391 M,I,WQKTR(1),WQTDKR(M,I) = 116 3 1.0240 0.7391 M,I,WQKTR(1),WQTDKR(M,I) = 116 4 1.0240 0.7391 M,I,WQKTR(1),WQTDKR(M,I) = 117 1 1.0240 0.7417 M,I,WQKTR(1),WQTDKR(M,I) = 117 2 1.0240 0.7417 M,I,WQKTR(1),WQTDKR(M,I) = 117 3 1.0240 0.7417 M,I,WQKTR(1),WQTDKR(M,I) = 117 4 1.0240 0.7417 M,I,WQKTR(1),WQTDKR(M,I) = 118 1 1.0240 0.7443 M,I,WQKTR(1),WQTDKR(M,I) = 118 2 1.0240 0.7443 M,I,WQKTR(1),WQTDKR(M,I) = 118 3 1.0240 0.7443 M,I,WQKTR(1),WQTDKR(M,I) = 118 4 1.0240 0.7443 M,I,WQKTR(1),WQTDKR(M,I) = 119 1 1.0240 0.7470 M,I,WQKTR(1),WQTDKR(M,I) = 119 2 1.0240 0.7470 M,I,WQKTR(1),WQTDKR(M,I) = 119 3 1.0240 0.7470 M,I,WQKTR(1),WQTDKR(M,I) = 119 4 1.0240 0.7470 M,I,WQKTR(1),WQTDKR(M,I) = 120 1 1.0240 0.7496 M,I,WQKTR(1),WQTDKR(M,I) = 120 2 1.0240 0.7496 M,I,WQKTR(1),WQTDKR(M,I) = 120 3 1.0240 0.7496 M,I,WQKTR(1),WQTDKR(M,I) = 120 4 1.0240 0.7496 M,I,WQKTR(1),WQTDKR(M,I) = 121 1 1.0240 0.7523 M,I,WQKTR(1),WQTDKR(M,I) = 121 2 1.0240 0.7523 M,I,WQKTR(1),WQTDKR(M,I) = 121 3 1.0240 0.7523 M,I,WQKTR(1),WQTDKR(M,I) = 121 4 1.0240 0.7523 M,I,WQKTR(1),WQTDKR(M,I) = 122 1 1.0240 0.7550 M,I,WQKTR(1),WQTDKR(M,I) = 122 2 1.0240 0.7550 M,I,WQKTR(1),WQTDKR(M,I) = 122 3 1.0240 0.7550 M,I,WQKTR(1),WQTDKR(M,I) = 122 4 1.0240 0.7550 M,I,WQKTR(1),WQTDKR(M,I) = 123 1 1.0240 0.7577 M,I,WQKTR(1),WQTDKR(M,I) = 123 2 1.0240 0.7577 M,I,WQKTR(1),WQTDKR(M,I) = 123 3 1.0240 0.7577 M,I,WQKTR(1),WQTDKR(M,I) = 123 4 1.0240 0.7577 M,I,WQKTR(1),WQTDKR(M,I) = 124 1 1.0240 0.7604 M,I,WQKTR(1),WQTDKR(M,I) = 124 2 1.0240 0.7604 M,I,WQKTR(1),WQTDKR(M,I) = 124 3 1.0240 0.7604 M,I,WQKTR(1),WQTDKR(M,I) = 124 4 1.0240 0.7604 M,I,WQKTR(1),WQTDKR(M,I) = 125 1 1.0240 0.7631 M,I,WQKTR(1),WQTDKR(M,I) = 125 2 1.0240 0.7631 M,I,WQKTR(1),WQTDKR(M,I) = 125 3 1.0240 0.7631 M,I,WQKTR(1),WQTDKR(M,I) = 125 4 1.0240 0.7631 M,I,WQKTR(1),WQTDKR(M,I) = 126 1 1.0240 0.7658 M,I,WQKTR(1),WQTDKR(M,I) = 126 2 1.0240 0.7658 M,I,WQKTR(1),WQTDKR(M,I) = 126 3 1.0240 0.7658 M,I,WQKTR(1),WQTDKR(M,I) = 126 4 1.0240 0.7658 M,I,WQKTR(1),WQTDKR(M,I) = 127 1 1.0240 0.7685 M,I,WQKTR(1),WQTDKR(M,I) = 127 2 1.0240 0.7685 M,I,WQKTR(1),WQTDKR(M,I) = 127 3 1.0240 0.7685 M,I,WQKTR(1),WQTDKR(M,I) = 127 4 1.0240 0.7685 M,I,WQKTR(1),WQTDKR(M,I) = 128 1 1.0240 0.7713 M,I,WQKTR(1),WQTDKR(M,I) = 128 2 1.0240 0.7713 M,I,WQKTR(1),WQTDKR(M,I) = 128 3 1.0240 0.7713 M,I,WQKTR(1),WQTDKR(M,I) = 128 4 1.0240 0.7713 M,I,WQKTR(1),WQTDKR(M,I) = 129 1 1.0240 0.7740 M,I,WQKTR(1),WQTDKR(M,I) = 129 2 1.0240 0.7740 M,I,WQKTR(1),WQTDKR(M,I) = 129 3 1.0240 0.7740 M,I,WQKTR(1),WQTDKR(M,I) = 129 4 1.0240 0.7740 M,I,WQKTR(1),WQTDKR(M,I) = 130 1 1.0240 0.7768 M,I,WQKTR(1),WQTDKR(M,I) = 130 2 1.0240 0.7768 M,I,WQKTR(1),WQTDKR(M,I) = 130 3 1.0240 0.7768 M,I,WQKTR(1),WQTDKR(M,I) = 130 4 1.0240 0.7768 M,I,WQKTR(1),WQTDKR(M,I) = 131 1 1.0240 0.7796 M,I,WQKTR(1),WQTDKR(M,I) = 131 2 1.0240 0.7796 M,I,WQKTR(1),WQTDKR(M,I) = 131 3 1.0240 0.7796 M,I,WQKTR(1),WQTDKR(M,I) = 131 4 1.0240 0.7796 M,I,WQKTR(1),WQTDKR(M,I) = 132 1 1.0240 0.7823 M,I,WQKTR(1),WQTDKR(M,I) = 132 2 1.0240 0.7823 M,I,WQKTR(1),WQTDKR(M,I) = 132 3 1.0240 0.7823 M,I,WQKTR(1),WQTDKR(M,I) = 132 4 1.0240 0.7823 M,I,WQKTR(1),WQTDKR(M,I) = 133 1 1.0240 0.7851 M,I,WQKTR(1),WQTDKR(M,I) = 133 2 1.0240 0.7851 M,I,WQKTR(1),WQTDKR(M,I) = 133 3 1.0240 0.7851 M,I,WQKTR(1),WQTDKR(M,I) = 133 4 1.0240 0.7851 M,I,WQKTR(1),WQTDKR(M,I) = 134 1 1.0240 0.7879 M,I,WQKTR(1),WQTDKR(M,I) = 134 2 1.0240 0.7879 M,I,WQKTR(1),WQTDKR(M,I) = 134 3 1.0240 0.7879 M,I,WQKTR(1),WQTDKR(M,I) = 134 4 1.0240 0.7879 M,I,WQKTR(1),WQTDKR(M,I) = 135 1 1.0240 0.7907 M,I,WQKTR(1),WQTDKR(M,I) = 135 2 1.0240 0.7907 M,I,WQKTR(1),WQTDKR(M,I) = 135 3 1.0240 0.7907 M,I,WQKTR(1),WQTDKR(M,I) = 135 4 1.0240 0.7907 M,I,WQKTR(1),WQTDKR(M,I) = 136 1 1.0240 0.7936 M,I,WQKTR(1),WQTDKR(M,I) = 136 2 1.0240 0.7936 M,I,WQKTR(1),WQTDKR(M,I) = 136 3 1.0240 0.7936 M,I,WQKTR(1),WQTDKR(M,I) = 136 4 1.0240 0.7936 M,I,WQKTR(1),WQTDKR(M,I) = 137 1 1.0240 0.7964 M,I,WQKTR(1),WQTDKR(M,I) = 137 2 1.0240 0.7964 M,I,WQKTR(1),WQTDKR(M,I) = 137 3 1.0240 0.7964 M,I,WQKTR(1),WQTDKR(M,I) = 137 4 1.0240 0.7964 M,I,WQKTR(1),WQTDKR(M,I) = 138 1 1.0240 0.7992 M,I,WQKTR(1),WQTDKR(M,I) = 138 2 1.0240 0.7992 M,I,WQKTR(1),WQTDKR(M,I) = 138 3 1.0240 0.7992 M,I,WQKTR(1),WQTDKR(M,I) = 138 4 1.0240 0.7992 M,I,WQKTR(1),WQTDKR(M,I) = 139 1 1.0240 0.8021 M,I,WQKTR(1),WQTDKR(M,I) = 139 2 1.0240 0.8021 M,I,WQKTR(1),WQTDKR(M,I) = 139 3 1.0240 0.8021 M,I,WQKTR(1),WQTDKR(M,I) = 139 4 1.0240 0.8021 M,I,WQKTR(1),WQTDKR(M,I) = 140 1 1.0240 0.8049 M,I,WQKTR(1),WQTDKR(M,I) = 140 2 1.0240 0.8049 M,I,WQKTR(1),WQTDKR(M,I) = 140 3 1.0240 0.8049 M,I,WQKTR(1),WQTDKR(M,I) = 140 4 1.0240 0.8049 M,I,WQKTR(1),WQTDKR(M,I) = 141 1 1.0240 0.8078 M,I,WQKTR(1),WQTDKR(M,I) = 141 2 1.0240 0.8078 M,I,WQKTR(1),WQTDKR(M,I) = 141 3 1.0240 0.8078 M,I,WQKTR(1),WQTDKR(M,I) = 141 4 1.0240 0.8078 M,I,WQKTR(1),WQTDKR(M,I) = 142 1 1.0240 0.8107 M,I,WQKTR(1),WQTDKR(M,I) = 142 2 1.0240 0.8107 M,I,WQKTR(1),WQTDKR(M,I) = 142 3 1.0240 0.8107 M,I,WQKTR(1),WQTDKR(M,I) = 142 4 1.0240 0.8107 M,I,WQKTR(1),WQTDKR(M,I) = 143 1 1.0240 0.8136 M,I,WQKTR(1),WQTDKR(M,I) = 143 2 1.0240 0.8136 M,I,WQKTR(1),WQTDKR(M,I) = 143 3 1.0240 0.8136 M,I,WQKTR(1),WQTDKR(M,I) = 143 4 1.0240 0.8136 M,I,WQKTR(1),WQTDKR(M,I) = 144 1 1.0240 0.8165 M,I,WQKTR(1),WQTDKR(M,I) = 144 2 1.0240 0.8165 M,I,WQKTR(1),WQTDKR(M,I) = 144 3 1.0240 0.8165 M,I,WQKTR(1),WQTDKR(M,I) = 144 4 1.0240 0.8165 M,I,WQKTR(1),WQTDKR(M,I) = 145 1 1.0240 0.8194 M,I,WQKTR(1),WQTDKR(M,I) = 145 2 1.0240 0.8194 M,I,WQKTR(1),WQTDKR(M,I) = 145 3 1.0240 0.8194 M,I,WQKTR(1),WQTDKR(M,I) = 145 4 1.0240 0.8194 M,I,WQKTR(1),WQTDKR(M,I) = 146 1 1.0240 0.8223 M,I,WQKTR(1),WQTDKR(M,I) = 146 2 1.0240 0.8223 M,I,WQKTR(1),WQTDKR(M,I) = 146 3 1.0240 0.8223 M,I,WQKTR(1),WQTDKR(M,I) = 146 4 1.0240 0.8223 M,I,WQKTR(1),WQTDKR(M,I) = 147 1 1.0240 0.8252 M,I,WQKTR(1),WQTDKR(M,I) = 147 2 1.0240 0.8252 M,I,WQKTR(1),WQTDKR(M,I) = 147 3 1.0240 0.8252 M,I,WQKTR(1),WQTDKR(M,I) = 147 4 1.0240 0.8252 M,I,WQKTR(1),WQTDKR(M,I) = 148 1 1.0240 0.8282 M,I,WQKTR(1),WQTDKR(M,I) = 148 2 1.0240 0.8282 M,I,WQKTR(1),WQTDKR(M,I) = 148 3 1.0240 0.8282 M,I,WQKTR(1),WQTDKR(M,I) = 148 4 1.0240 0.8282 M,I,WQKTR(1),WQTDKR(M,I) = 149 1 1.0240 0.8311 M,I,WQKTR(1),WQTDKR(M,I) = 149 2 1.0240 0.8311 M,I,WQKTR(1),WQTDKR(M,I) = 149 3 1.0240 0.8311 M,I,WQKTR(1),WQTDKR(M,I) = 149 4 1.0240 0.8311 M,I,WQKTR(1),WQTDKR(M,I) = 150 1 1.0240 0.8341 M,I,WQKTR(1),WQTDKR(M,I) = 150 2 1.0240 0.8341 M,I,WQKTR(1),WQTDKR(M,I) = 150 3 1.0240 0.8341 M,I,WQKTR(1),WQTDKR(M,I) = 150 4 1.0240 0.8341 M,I,WQKTR(1),WQTDKR(M,I) = 151 1 1.0240 0.8370 M,I,WQKTR(1),WQTDKR(M,I) = 151 2 1.0240 0.8370 M,I,WQKTR(1),WQTDKR(M,I) = 151 3 1.0240 0.8370 M,I,WQKTR(1),WQTDKR(M,I) = 151 4 1.0240 0.8370 M,I,WQKTR(1),WQTDKR(M,I) = 152 1 1.0240 0.8400 M,I,WQKTR(1),WQTDKR(M,I) = 152 2 1.0240 0.8400 M,I,WQKTR(1),WQTDKR(M,I) = 152 3 1.0240 0.8400 M,I,WQKTR(1),WQTDKR(M,I) = 152 4 1.0240 0.8400 M,I,WQKTR(1),WQTDKR(M,I) = 153 1 1.0240 0.8430 M,I,WQKTR(1),WQTDKR(M,I) = 153 2 1.0240 0.8430 M,I,WQKTR(1),WQTDKR(M,I) = 153 3 1.0240 0.8430 M,I,WQKTR(1),WQTDKR(M,I) = 153 4 1.0240 0.8430 M,I,WQKTR(1),WQTDKR(M,I) = 154 1 1.0240 0.8460 M,I,WQKTR(1),WQTDKR(M,I) = 154 2 1.0240 0.8460 M,I,WQKTR(1),WQTDKR(M,I) = 154 3 1.0240 0.8460 M,I,WQKTR(1),WQTDKR(M,I) = 154 4 1.0240 0.8460 M,I,WQKTR(1),WQTDKR(M,I) = 155 1 1.0240 0.8490 M,I,WQKTR(1),WQTDKR(M,I) = 155 2 1.0240 0.8490 M,I,WQKTR(1),WQTDKR(M,I) = 155 3 1.0240 0.8490 M,I,WQKTR(1),WQTDKR(M,I) = 155 4 1.0240 0.8490 M,I,WQKTR(1),WQTDKR(M,I) = 156 1 1.0240 0.8521 M,I,WQKTR(1),WQTDKR(M,I) = 156 2 1.0240 0.8521 M,I,WQKTR(1),WQTDKR(M,I) = 156 3 1.0240 0.8521 M,I,WQKTR(1),WQTDKR(M,I) = 156 4 1.0240 0.8521 M,I,WQKTR(1),WQTDKR(M,I) = 157 1 1.0240 0.8551 M,I,WQKTR(1),WQTDKR(M,I) = 157 2 1.0240 0.8551 M,I,WQKTR(1),WQTDKR(M,I) = 157 3 1.0240 0.8551 M,I,WQKTR(1),WQTDKR(M,I) = 157 4 1.0240 0.8551 M,I,WQKTR(1),WQTDKR(M,I) = 158 1 1.0240 0.8582 M,I,WQKTR(1),WQTDKR(M,I) = 158 2 1.0240 0.8582 M,I,WQKTR(1),WQTDKR(M,I) = 158 3 1.0240 0.8582 M,I,WQKTR(1),WQTDKR(M,I) = 158 4 1.0240 0.8582 M,I,WQKTR(1),WQTDKR(M,I) = 159 1 1.0240 0.8612 M,I,WQKTR(1),WQTDKR(M,I) = 159 2 1.0240 0.8612 M,I,WQKTR(1),WQTDKR(M,I) = 159 3 1.0240 0.8612 M,I,WQKTR(1),WQTDKR(M,I) = 159 4 1.0240 0.8612 M,I,WQKTR(1),WQTDKR(M,I) = 160 1 1.0240 0.8643 M,I,WQKTR(1),WQTDKR(M,I) = 160 2 1.0240 0.8643 M,I,WQKTR(1),WQTDKR(M,I) = 160 3 1.0240 0.8643 M,I,WQKTR(1),WQTDKR(M,I) = 160 4 1.0240 0.8643 M,I,WQKTR(1),WQTDKR(M,I) = 161 1 1.0240 0.8674 M,I,WQKTR(1),WQTDKR(M,I) = 161 2 1.0240 0.8674 M,I,WQKTR(1),WQTDKR(M,I) = 161 3 1.0240 0.8674 M,I,WQKTR(1),WQTDKR(M,I) = 161 4 1.0240 0.8674 M,I,WQKTR(1),WQTDKR(M,I) = 162 1 1.0240 0.8705 M,I,WQKTR(1),WQTDKR(M,I) = 162 2 1.0240 0.8705 M,I,WQKTR(1),WQTDKR(M,I) = 162 3 1.0240 0.8705 M,I,WQKTR(1),WQTDKR(M,I) = 162 4 1.0240 0.8705 M,I,WQKTR(1),WQTDKR(M,I) = 163 1 1.0240 0.8736 M,I,WQKTR(1),WQTDKR(M,I) = 163 2 1.0240 0.8736 M,I,WQKTR(1),WQTDKR(M,I) = 163 3 1.0240 0.8736 M,I,WQKTR(1),WQTDKR(M,I) = 163 4 1.0240 0.8736 M,I,WQKTR(1),WQTDKR(M,I) = 164 1 1.0240 0.8767 M,I,WQKTR(1),WQTDKR(M,I) = 164 2 1.0240 0.8767 M,I,WQKTR(1),WQTDKR(M,I) = 164 3 1.0240 0.8767 M,I,WQKTR(1),WQTDKR(M,I) = 164 4 1.0240 0.8767 M,I,WQKTR(1),WQTDKR(M,I) = 165 1 1.0240 0.8798 M,I,WQKTR(1),WQTDKR(M,I) = 165 2 1.0240 0.8798 M,I,WQKTR(1),WQTDKR(M,I) = 165 3 1.0240 0.8798 M,I,WQKTR(1),WQTDKR(M,I) = 165 4 1.0240 0.8798 M,I,WQKTR(1),WQTDKR(M,I) = 166 1 1.0240 0.8829 M,I,WQKTR(1),WQTDKR(M,I) = 166 2 1.0240 0.8829 M,I,WQKTR(1),WQTDKR(M,I) = 166 3 1.0240 0.8829 M,I,WQKTR(1),WQTDKR(M,I) = 166 4 1.0240 0.8829 M,I,WQKTR(1),WQTDKR(M,I) = 167 1 1.0240 0.8861 M,I,WQKTR(1),WQTDKR(M,I) = 167 2 1.0240 0.8861 M,I,WQKTR(1),WQTDKR(M,I) = 167 3 1.0240 0.8861 M,I,WQKTR(1),WQTDKR(M,I) = 167 4 1.0240 0.8861 M,I,WQKTR(1),WQTDKR(M,I) = 168 1 1.0240 0.8892 M,I,WQKTR(1),WQTDKR(M,I) = 168 2 1.0240 0.8892 M,I,WQKTR(1),WQTDKR(M,I) = 168 3 1.0240 0.8892 M,I,WQKTR(1),WQTDKR(M,I) = 168 4 1.0240 0.8892 M,I,WQKTR(1),WQTDKR(M,I) = 169 1 1.0240 0.8924 M,I,WQKTR(1),WQTDKR(M,I) = 169 2 1.0240 0.8924 M,I,WQKTR(1),WQTDKR(M,I) = 169 3 1.0240 0.8924 M,I,WQKTR(1),WQTDKR(M,I) = 169 4 1.0240 0.8924 M,I,WQKTR(1),WQTDKR(M,I) = 170 1 1.0240 0.8956 M,I,WQKTR(1),WQTDKR(M,I) = 170 2 1.0240 0.8956 M,I,WQKTR(1),WQTDKR(M,I) = 170 3 1.0240 0.8956 M,I,WQKTR(1),WQTDKR(M,I) = 170 4 1.0240 0.8956 M,I,WQKTR(1),WQTDKR(M,I) = 171 1 1.0240 0.8988 M,I,WQKTR(1),WQTDKR(M,I) = 171 2 1.0240 0.8988 M,I,WQKTR(1),WQTDKR(M,I) = 171 3 1.0240 0.8988 M,I,WQKTR(1),WQTDKR(M,I) = 171 4 1.0240 0.8988 M,I,WQKTR(1),WQTDKR(M,I) = 172 1 1.0240 0.9020 M,I,WQKTR(1),WQTDKR(M,I) = 172 2 1.0240 0.9020 M,I,WQKTR(1),WQTDKR(M,I) = 172 3 1.0240 0.9020 M,I,WQKTR(1),WQTDKR(M,I) = 172 4 1.0240 0.9020 M,I,WQKTR(1),WQTDKR(M,I) = 173 1 1.0240 0.9052 M,I,WQKTR(1),WQTDKR(M,I) = 173 2 1.0240 0.9052 M,I,WQKTR(1),WQTDKR(M,I) = 173 3 1.0240 0.9052 M,I,WQKTR(1),WQTDKR(M,I) = 173 4 1.0240 0.9052 M,I,WQKTR(1),WQTDKR(M,I) = 174 1 1.0240 0.9084 M,I,WQKTR(1),WQTDKR(M,I) = 174 2 1.0240 0.9084 M,I,WQKTR(1),WQTDKR(M,I) = 174 3 1.0240 0.9084 M,I,WQKTR(1),WQTDKR(M,I) = 174 4 1.0240 0.9084 M,I,WQKTR(1),WQTDKR(M,I) = 175 1 1.0240 0.9117 M,I,WQKTR(1),WQTDKR(M,I) = 175 2 1.0240 0.9117 M,I,WQKTR(1),WQTDKR(M,I) = 175 3 1.0240 0.9117 M,I,WQKTR(1),WQTDKR(M,I) = 175 4 1.0240 0.9117 M,I,WQKTR(1),WQTDKR(M,I) = 176 1 1.0240 0.9149 M,I,WQKTR(1),WQTDKR(M,I) = 176 2 1.0240 0.9149 M,I,WQKTR(1),WQTDKR(M,I) = 176 3 1.0240 0.9149 M,I,WQKTR(1),WQTDKR(M,I) = 176 4 1.0240 0.9149 M,I,WQKTR(1),WQTDKR(M,I) = 177 1 1.0240 0.9182 M,I,WQKTR(1),WQTDKR(M,I) = 177 2 1.0240 0.9182 M,I,WQKTR(1),WQTDKR(M,I) = 177 3 1.0240 0.9182 M,I,WQKTR(1),WQTDKR(M,I) = 177 4 1.0240 0.9182 M,I,WQKTR(1),WQTDKR(M,I) = 178 1 1.0240 0.9214 M,I,WQKTR(1),WQTDKR(M,I) = 178 2 1.0240 0.9214 M,I,WQKTR(1),WQTDKR(M,I) = 178 3 1.0240 0.9214 M,I,WQKTR(1),WQTDKR(M,I) = 178 4 1.0240 0.9214 M,I,WQKTR(1),WQTDKR(M,I) = 179 1 1.0240 0.9247 M,I,WQKTR(1),WQTDKR(M,I) = 179 2 1.0240 0.9247 M,I,WQKTR(1),WQTDKR(M,I) = 179 3 1.0240 0.9247 M,I,WQKTR(1),WQTDKR(M,I) = 179 4 1.0240 0.9247 M,I,WQKTR(1),WQTDKR(M,I) = 180 1 1.0240 0.9280 M,I,WQKTR(1),WQTDKR(M,I) = 180 2 1.0240 0.9280 M,I,WQKTR(1),WQTDKR(M,I) = 180 3 1.0240 0.9280 M,I,WQKTR(1),WQTDKR(M,I) = 180 4 1.0240 0.9280 M,I,WQKTR(1),WQTDKR(M,I) = 181 1 1.0240 0.9313 M,I,WQKTR(1),WQTDKR(M,I) = 181 2 1.0240 0.9313 M,I,WQKTR(1),WQTDKR(M,I) = 181 3 1.0240 0.9313 M,I,WQKTR(1),WQTDKR(M,I) = 181 4 1.0240 0.9313 M,I,WQKTR(1),WQTDKR(M,I) = 182 1 1.0240 0.9346 M,I,WQKTR(1),WQTDKR(M,I) = 182 2 1.0240 0.9346 M,I,WQKTR(1),WQTDKR(M,I) = 182 3 1.0240 0.9346 M,I,WQKTR(1),WQTDKR(M,I) = 182 4 1.0240 0.9346 M,I,WQKTR(1),WQTDKR(M,I) = 183 1 1.0240 0.9380 M,I,WQKTR(1),WQTDKR(M,I) = 183 2 1.0240 0.9380 M,I,WQKTR(1),WQTDKR(M,I) = 183 3 1.0240 0.9380 M,I,WQKTR(1),WQTDKR(M,I) = 183 4 1.0240 0.9380 M,I,WQKTR(1),WQTDKR(M,I) = 184 1 1.0240 0.9413 M,I,WQKTR(1),WQTDKR(M,I) = 184 2 1.0240 0.9413 M,I,WQKTR(1),WQTDKR(M,I) = 184 3 1.0240 0.9413 M,I,WQKTR(1),WQTDKR(M,I) = 184 4 1.0240 0.9413 M,I,WQKTR(1),WQTDKR(M,I) = 185 1 1.0240 0.9447 M,I,WQKTR(1),WQTDKR(M,I) = 185 2 1.0240 0.9447 M,I,WQKTR(1),WQTDKR(M,I) = 185 3 1.0240 0.9447 M,I,WQKTR(1),WQTDKR(M,I) = 185 4 1.0240 0.9447 M,I,WQKTR(1),WQTDKR(M,I) = 186 1 1.0240 0.9480 M,I,WQKTR(1),WQTDKR(M,I) = 186 2 1.0240 0.9480 M,I,WQKTR(1),WQTDKR(M,I) = 186 3 1.0240 0.9480 M,I,WQKTR(1),WQTDKR(M,I) = 186 4 1.0240 0.9480 M,I,WQKTR(1),WQTDKR(M,I) = 187 1 1.0240 0.9514 M,I,WQKTR(1),WQTDKR(M,I) = 187 2 1.0240 0.9514 M,I,WQKTR(1),WQTDKR(M,I) = 187 3 1.0240 0.9514 M,I,WQKTR(1),WQTDKR(M,I) = 187 4 1.0240 0.9514 M,I,WQKTR(1),WQTDKR(M,I) = 188 1 1.0240 0.9548 M,I,WQKTR(1),WQTDKR(M,I) = 188 2 1.0240 0.9548 M,I,WQKTR(1),WQTDKR(M,I) = 188 3 1.0240 0.9548 M,I,WQKTR(1),WQTDKR(M,I) = 188 4 1.0240 0.9548 M,I,WQKTR(1),WQTDKR(M,I) = 189 1 1.0240 0.9582 M,I,WQKTR(1),WQTDKR(M,I) = 189 2 1.0240 0.9582 M,I,WQKTR(1),WQTDKR(M,I) = 189 3 1.0240 0.9582 M,I,WQKTR(1),WQTDKR(M,I) = 189 4 1.0240 0.9582 M,I,WQKTR(1),WQTDKR(M,I) = 190 1 1.0240 0.9616 M,I,WQKTR(1),WQTDKR(M,I) = 190 2 1.0240 0.9616 M,I,WQKTR(1),WQTDKR(M,I) = 190 3 1.0240 0.9616 M,I,WQKTR(1),WQTDKR(M,I) = 190 4 1.0240 0.9616 M,I,WQKTR(1),WQTDKR(M,I) = 191 1 1.0240 0.9650 M,I,WQKTR(1),WQTDKR(M,I) = 191 2 1.0240 0.9650 M,I,WQKTR(1),WQTDKR(M,I) = 191 3 1.0240 0.9650 M,I,WQKTR(1),WQTDKR(M,I) = 191 4 1.0240 0.9650 M,I,WQKTR(1),WQTDKR(M,I) = 192 1 1.0240 0.9685 M,I,WQKTR(1),WQTDKR(M,I) = 192 2 1.0240 0.9685 M,I,WQKTR(1),WQTDKR(M,I) = 192 3 1.0240 0.9685 M,I,WQKTR(1),WQTDKR(M,I) = 192 4 1.0240 0.9685 M,I,WQKTR(1),WQTDKR(M,I) = 193 1 1.0240 0.9719 M,I,WQKTR(1),WQTDKR(M,I) = 193 2 1.0240 0.9719 M,I,WQKTR(1),WQTDKR(M,I) = 193 3 1.0240 0.9719 M,I,WQKTR(1),WQTDKR(M,I) = 193 4 1.0240 0.9719 M,I,WQKTR(1),WQTDKR(M,I) = 194 1 1.0240 0.9754 M,I,WQKTR(1),WQTDKR(M,I) = 194 2 1.0240 0.9754 M,I,WQKTR(1),WQTDKR(M,I) = 194 3 1.0240 0.9754 M,I,WQKTR(1),WQTDKR(M,I) = 194 4 1.0240 0.9754 M,I,WQKTR(1),WQTDKR(M,I) = 195 1 1.0240 0.9789 M,I,WQKTR(1),WQTDKR(M,I) = 195 2 1.0240 0.9789 M,I,WQKTR(1),WQTDKR(M,I) = 195 3 1.0240 0.9789 M,I,WQKTR(1),WQTDKR(M,I) = 195 4 1.0240 0.9789 M,I,WQKTR(1),WQTDKR(M,I) = 196 1 1.0240 0.9824 M,I,WQKTR(1),WQTDKR(M,I) = 196 2 1.0240 0.9824 M,I,WQKTR(1),WQTDKR(M,I) = 196 3 1.0240 0.9824 M,I,WQKTR(1),WQTDKR(M,I) = 196 4 1.0240 0.9824 M,I,WQKTR(1),WQTDKR(M,I) = 197 1 1.0240 0.9859 M,I,WQKTR(1),WQTDKR(M,I) = 197 2 1.0240 0.9859 M,I,WQKTR(1),WQTDKR(M,I) = 197 3 1.0240 0.9859 M,I,WQKTR(1),WQTDKR(M,I) = 197 4 1.0240 0.9859 M,I,WQKTR(1),WQTDKR(M,I) = 198 1 1.0240 0.9894 M,I,WQKTR(1),WQTDKR(M,I) = 198 2 1.0240 0.9894 M,I,WQKTR(1),WQTDKR(M,I) = 198 3 1.0240 0.9894 M,I,WQKTR(1),WQTDKR(M,I) = 198 4 1.0240 0.9894 M,I,WQKTR(1),WQTDKR(M,I) = 199 1 1.0240 0.9929 M,I,WQKTR(1),WQTDKR(M,I) = 199 2 1.0240 0.9929 M,I,WQKTR(1),WQTDKR(M,I) = 199 3 1.0240 0.9929 M,I,WQKTR(1),WQTDKR(M,I) = 199 4 1.0240 0.9929 M,I,WQKTR(1),WQTDKR(M,I) = 200 1 1.0240 0.9964 M,I,WQKTR(1),WQTDKR(M,I) = 200 2 1.0240 0.9964 M,I,WQKTR(1),WQTDKR(M,I) = 200 3 1.0240 0.9964 M,I,WQKTR(1),WQTDKR(M,I) = 200 4 1.0240 0.9964 M,I,WQKTR(1),WQTDKR(M,I) = 201 1 1.0240 1.0000 M,I,WQKTR(1),WQTDKR(M,I) = 201 2 1.0240 1.0000 M,I,WQKTR(1),WQTDKR(M,I) = 201 3 1.0240 1.0000 M,I,WQKTR(1),WQTDKR(M,I) = 201 4 1.0240 1.0000 M,I,WQKTR(1),WQTDKR(M,I) = 202 1 1.0240 1.0036 M,I,WQKTR(1),WQTDKR(M,I) = 202 2 1.0240 1.0036 M,I,WQKTR(1),WQTDKR(M,I) = 202 3 1.0240 1.0036 M,I,WQKTR(1),WQTDKR(M,I) = 202 4 1.0240 1.0036 M,I,WQKTR(1),WQTDKR(M,I) = 203 1 1.0240 1.0071 M,I,WQKTR(1),WQTDKR(M,I) = 203 2 1.0240 1.0071 M,I,WQKTR(1),WQTDKR(M,I) = 203 3 1.0240 1.0071 M,I,WQKTR(1),WQTDKR(M,I) = 203 4 1.0240 1.0071 M,I,WQKTR(1),WQTDKR(M,I) = 204 1 1.0240 1.0107 M,I,WQKTR(1),WQTDKR(M,I) = 204 2 1.0240 1.0107 M,I,WQKTR(1),WQTDKR(M,I) = 204 3 1.0240 1.0107 M,I,WQKTR(1),WQTDKR(M,I) = 204 4 1.0240 1.0107 M,I,WQKTR(1),WQTDKR(M,I) = 205 1 1.0240 1.0143 M,I,WQKTR(1),WQTDKR(M,I) = 205 2 1.0240 1.0143 M,I,WQKTR(1),WQTDKR(M,I) = 205 3 1.0240 1.0143 M,I,WQKTR(1),WQTDKR(M,I) = 205 4 1.0240 1.0143 M,I,WQKTR(1),WQTDKR(M,I) = 206 1 1.0240 1.0179 M,I,WQKTR(1),WQTDKR(M,I) = 206 2 1.0240 1.0179 M,I,WQKTR(1),WQTDKR(M,I) = 206 3 1.0240 1.0179 M,I,WQKTR(1),WQTDKR(M,I) = 206 4 1.0240 1.0179 M,I,WQKTR(1),WQTDKR(M,I) = 207 1 1.0240 1.0216 M,I,WQKTR(1),WQTDKR(M,I) = 207 2 1.0240 1.0216 M,I,WQKTR(1),WQTDKR(M,I) = 207 3 1.0240 1.0216 M,I,WQKTR(1),WQTDKR(M,I) = 207 4 1.0240 1.0216 M,I,WQKTR(1),WQTDKR(M,I) = 208 1 1.0240 1.0252 M,I,WQKTR(1),WQTDKR(M,I) = 208 2 1.0240 1.0252 M,I,WQKTR(1),WQTDKR(M,I) = 208 3 1.0240 1.0252 M,I,WQKTR(1),WQTDKR(M,I) = 208 4 1.0240 1.0252 M,I,WQKTR(1),WQTDKR(M,I) = 209 1 1.0240 1.0289 M,I,WQKTR(1),WQTDKR(M,I) = 209 2 1.0240 1.0289 M,I,WQKTR(1),WQTDKR(M,I) = 209 3 1.0240 1.0289 M,I,WQKTR(1),WQTDKR(M,I) = 209 4 1.0240 1.0289 M,I,WQKTR(1),WQTDKR(M,I) = 210 1 1.0240 1.0325 M,I,WQKTR(1),WQTDKR(M,I) = 210 2 1.0240 1.0325 M,I,WQKTR(1),WQTDKR(M,I) = 210 3 1.0240 1.0325 M,I,WQKTR(1),WQTDKR(M,I) = 210 4 1.0240 1.0325 M,I,WQKTR(1),WQTDKR(M,I) = 211 1 1.0240 1.0362 M,I,WQKTR(1),WQTDKR(M,I) = 211 2 1.0240 1.0362 M,I,WQKTR(1),WQTDKR(M,I) = 211 3 1.0240 1.0362 M,I,WQKTR(1),WQTDKR(M,I) = 211 4 1.0240 1.0362 M,I,WQKTR(1),WQTDKR(M,I) = 212 1 1.0240 1.0399 M,I,WQKTR(1),WQTDKR(M,I) = 212 2 1.0240 1.0399 M,I,WQKTR(1),WQTDKR(M,I) = 212 3 1.0240 1.0399 M,I,WQKTR(1),WQTDKR(M,I) = 212 4 1.0240 1.0399 M,I,WQKTR(1),WQTDKR(M,I) = 213 1 1.0240 1.0436 M,I,WQKTR(1),WQTDKR(M,I) = 213 2 1.0240 1.0436 M,I,WQKTR(1),WQTDKR(M,I) = 213 3 1.0240 1.0436 M,I,WQKTR(1),WQTDKR(M,I) = 213 4 1.0240 1.0436 M,I,WQKTR(1),WQTDKR(M,I) = 214 1 1.0240 1.0473 M,I,WQKTR(1),WQTDKR(M,I) = 214 2 1.0240 1.0473 M,I,WQKTR(1),WQTDKR(M,I) = 214 3 1.0240 1.0473 M,I,WQKTR(1),WQTDKR(M,I) = 214 4 1.0240 1.0473 M,I,WQKTR(1),WQTDKR(M,I) = 215 1 1.0240 1.0511 M,I,WQKTR(1),WQTDKR(M,I) = 215 2 1.0240 1.0511 M,I,WQKTR(1),WQTDKR(M,I) = 215 3 1.0240 1.0511 M,I,WQKTR(1),WQTDKR(M,I) = 215 4 1.0240 1.0511 M,I,WQKTR(1),WQTDKR(M,I) = 216 1 1.0240 1.0548 M,I,WQKTR(1),WQTDKR(M,I) = 216 2 1.0240 1.0548 M,I,WQKTR(1),WQTDKR(M,I) = 216 3 1.0240 1.0548 M,I,WQKTR(1),WQTDKR(M,I) = 216 4 1.0240 1.0548 M,I,WQKTR(1),WQTDKR(M,I) = 217 1 1.0240 1.0586 M,I,WQKTR(1),WQTDKR(M,I) = 217 2 1.0240 1.0586 M,I,WQKTR(1),WQTDKR(M,I) = 217 3 1.0240 1.0586 M,I,WQKTR(1),WQTDKR(M,I) = 217 4 1.0240 1.0586 M,I,WQKTR(1),WQTDKR(M,I) = 218 1 1.0240 1.0623 M,I,WQKTR(1),WQTDKR(M,I) = 218 2 1.0240 1.0623 M,I,WQKTR(1),WQTDKR(M,I) = 218 3 1.0240 1.0623 M,I,WQKTR(1),WQTDKR(M,I) = 218 4 1.0240 1.0623 M,I,WQKTR(1),WQTDKR(M,I) = 219 1 1.0240 1.0661 M,I,WQKTR(1),WQTDKR(M,I) = 219 2 1.0240 1.0661 M,I,WQKTR(1),WQTDKR(M,I) = 219 3 1.0240 1.0661 M,I,WQKTR(1),WQTDKR(M,I) = 219 4 1.0240 1.0661 M,I,WQKTR(1),WQTDKR(M,I) = 220 1 1.0240 1.0699 M,I,WQKTR(1),WQTDKR(M,I) = 220 2 1.0240 1.0699 M,I,WQKTR(1),WQTDKR(M,I) = 220 3 1.0240 1.0699 M,I,WQKTR(1),WQTDKR(M,I) = 220 4 1.0240 1.0699 M,I,WQKTR(1),WQTDKR(M,I) = 221 1 1.0240 1.0737 M,I,WQKTR(1),WQTDKR(M,I) = 221 2 1.0240 1.0737 M,I,WQKTR(1),WQTDKR(M,I) = 221 3 1.0240 1.0737 M,I,WQKTR(1),WQTDKR(M,I) = 221 4 1.0240 1.0737 M,I,WQKTR(1),WQTDKR(M,I) = 222 1 1.0240 1.0776 M,I,WQKTR(1),WQTDKR(M,I) = 222 2 1.0240 1.0776 M,I,WQKTR(1),WQTDKR(M,I) = 222 3 1.0240 1.0776 M,I,WQKTR(1),WQTDKR(M,I) = 222 4 1.0240 1.0776 M,I,WQKTR(1),WQTDKR(M,I) = 223 1 1.0240 1.0814 M,I,WQKTR(1),WQTDKR(M,I) = 223 2 1.0240 1.0814 M,I,WQKTR(1),WQTDKR(M,I) = 223 3 1.0240 1.0814 M,I,WQKTR(1),WQTDKR(M,I) = 223 4 1.0240 1.0814 M,I,WQKTR(1),WQTDKR(M,I) = 224 1 1.0240 1.0853 M,I,WQKTR(1),WQTDKR(M,I) = 224 2 1.0240 1.0853 M,I,WQKTR(1),WQTDKR(M,I) = 224 3 1.0240 1.0853 M,I,WQKTR(1),WQTDKR(M,I) = 224 4 1.0240 1.0853 M,I,WQKTR(1),WQTDKR(M,I) = 225 1 1.0240 1.0891 M,I,WQKTR(1),WQTDKR(M,I) = 225 2 1.0240 1.0891 M,I,WQKTR(1),WQTDKR(M,I) = 225 3 1.0240 1.0891 M,I,WQKTR(1),WQTDKR(M,I) = 225 4 1.0240 1.0891 M,I,WQKTR(1),WQTDKR(M,I) = 226 1 1.0240 1.0930 M,I,WQKTR(1),WQTDKR(M,I) = 226 2 1.0240 1.0930 M,I,WQKTR(1),WQTDKR(M,I) = 226 3 1.0240 1.0930 M,I,WQKTR(1),WQTDKR(M,I) = 226 4 1.0240 1.0930 M,I,WQKTR(1),WQTDKR(M,I) = 227 1 1.0240 1.0969 M,I,WQKTR(1),WQTDKR(M,I) = 227 2 1.0240 1.0969 M,I,WQKTR(1),WQTDKR(M,I) = 227 3 1.0240 1.0969 M,I,WQKTR(1),WQTDKR(M,I) = 227 4 1.0240 1.0969 M,I,WQKTR(1),WQTDKR(M,I) = 228 1 1.0240 1.1008 M,I,WQKTR(1),WQTDKR(M,I) = 228 2 1.0240 1.1008 M,I,WQKTR(1),WQTDKR(M,I) = 228 3 1.0240 1.1008 M,I,WQKTR(1),WQTDKR(M,I) = 228 4 1.0240 1.1008 M,I,WQKTR(1),WQTDKR(M,I) = 229 1 1.0240 1.1047 M,I,WQKTR(1),WQTDKR(M,I) = 229 2 1.0240 1.1047 M,I,WQKTR(1),WQTDKR(M,I) = 229 3 1.0240 1.1047 M,I,WQKTR(1),WQTDKR(M,I) = 229 4 1.0240 1.1047 M,I,WQKTR(1),WQTDKR(M,I) = 230 1 1.0240 1.1087 M,I,WQKTR(1),WQTDKR(M,I) = 230 2 1.0240 1.1087 M,I,WQKTR(1),WQTDKR(M,I) = 230 3 1.0240 1.1087 M,I,WQKTR(1),WQTDKR(M,I) = 230 4 1.0240 1.1087 M,I,WQKTR(1),WQTDKR(M,I) = 231 1 1.0240 1.1126 M,I,WQKTR(1),WQTDKR(M,I) = 231 2 1.0240 1.1126 M,I,WQKTR(1),WQTDKR(M,I) = 231 3 1.0240 1.1126 M,I,WQKTR(1),WQTDKR(M,I) = 231 4 1.0240 1.1126 M,I,WQKTR(1),WQTDKR(M,I) = 232 1 1.0240 1.1166 M,I,WQKTR(1),WQTDKR(M,I) = 232 2 1.0240 1.1166 M,I,WQKTR(1),WQTDKR(M,I) = 232 3 1.0240 1.1166 M,I,WQKTR(1),WQTDKR(M,I) = 232 4 1.0240 1.1166 M,I,WQKTR(1),WQTDKR(M,I) = 233 1 1.0240 1.1206 M,I,WQKTR(1),WQTDKR(M,I) = 233 2 1.0240 1.1206 M,I,WQKTR(1),WQTDKR(M,I) = 233 3 1.0240 1.1206 M,I,WQKTR(1),WQTDKR(M,I) = 233 4 1.0240 1.1206 M,I,WQKTR(1),WQTDKR(M,I) = 234 1 1.0240 1.1246 M,I,WQKTR(1),WQTDKR(M,I) = 234 2 1.0240 1.1246 M,I,WQKTR(1),WQTDKR(M,I) = 234 3 1.0240 1.1246 M,I,WQKTR(1),WQTDKR(M,I) = 234 4 1.0240 1.1246 M,I,WQKTR(1),WQTDKR(M,I) = 235 1 1.0240 1.1286 M,I,WQKTR(1),WQTDKR(M,I) = 235 2 1.0240 1.1286 M,I,WQKTR(1),WQTDKR(M,I) = 235 3 1.0240 1.1286 M,I,WQKTR(1),WQTDKR(M,I) = 235 4 1.0240 1.1286 M,I,WQKTR(1),WQTDKR(M,I) = 236 1 1.0240 1.1326 M,I,WQKTR(1),WQTDKR(M,I) = 236 2 1.0240 1.1326 M,I,WQKTR(1),WQTDKR(M,I) = 236 3 1.0240 1.1326 M,I,WQKTR(1),WQTDKR(M,I) = 236 4 1.0240 1.1326 M,I,WQKTR(1),WQTDKR(M,I) = 237 1 1.0240 1.1366 M,I,WQKTR(1),WQTDKR(M,I) = 237 2 1.0240 1.1366 M,I,WQKTR(1),WQTDKR(M,I) = 237 3 1.0240 1.1366 M,I,WQKTR(1),WQTDKR(M,I) = 237 4 1.0240 1.1366 M,I,WQKTR(1),WQTDKR(M,I) = 238 1 1.0240 1.1407 M,I,WQKTR(1),WQTDKR(M,I) = 238 2 1.0240 1.1407 M,I,WQKTR(1),WQTDKR(M,I) = 238 3 1.0240 1.1407 M,I,WQKTR(1),WQTDKR(M,I) = 238 4 1.0240 1.1407 M,I,WQKTR(1),WQTDKR(M,I) = 239 1 1.0240 1.1447 M,I,WQKTR(1),WQTDKR(M,I) = 239 2 1.0240 1.1447 M,I,WQKTR(1),WQTDKR(M,I) = 239 3 1.0240 1.1447 M,I,WQKTR(1),WQTDKR(M,I) = 239 4 1.0240 1.1447 M,I,WQKTR(1),WQTDKR(M,I) = 240 1 1.0240 1.1488 M,I,WQKTR(1),WQTDKR(M,I) = 240 2 1.0240 1.1488 M,I,WQKTR(1),WQTDKR(M,I) = 240 3 1.0240 1.1488 M,I,WQKTR(1),WQTDKR(M,I) = 240 4 1.0240 1.1488 M,I,WQKTR(1),WQTDKR(M,I) = 241 1 1.0240 1.1529 M,I,WQKTR(1),WQTDKR(M,I) = 241 2 1.0240 1.1529 M,I,WQKTR(1),WQTDKR(M,I) = 241 3 1.0240 1.1529 M,I,WQKTR(1),WQTDKR(M,I) = 241 4 1.0240 1.1529 M,I,WQKTR(1),WQTDKR(M,I) = 242 1 1.0240 1.1570 M,I,WQKTR(1),WQTDKR(M,I) = 242 2 1.0240 1.1570 M,I,WQKTR(1),WQTDKR(M,I) = 242 3 1.0240 1.1570 M,I,WQKTR(1),WQTDKR(M,I) = 242 4 1.0240 1.1570 M,I,WQKTR(1),WQTDKR(M,I) = 243 1 1.0240 1.1612 M,I,WQKTR(1),WQTDKR(M,I) = 243 2 1.0240 1.1612 M,I,WQKTR(1),WQTDKR(M,I) = 243 3 1.0240 1.1612 M,I,WQKTR(1),WQTDKR(M,I) = 243 4 1.0240 1.1612 M,I,WQKTR(1),WQTDKR(M,I) = 244 1 1.0240 1.1653 M,I,WQKTR(1),WQTDKR(M,I) = 244 2 1.0240 1.1653 M,I,WQKTR(1),WQTDKR(M,I) = 244 3 1.0240 1.1653 M,I,WQKTR(1),WQTDKR(M,I) = 244 4 1.0240 1.1653 M,I,WQKTR(1),WQTDKR(M,I) = 245 1 1.0240 1.1694 M,I,WQKTR(1),WQTDKR(M,I) = 245 2 1.0240 1.1694 M,I,WQKTR(1),WQTDKR(M,I) = 245 3 1.0240 1.1694 M,I,WQKTR(1),WQTDKR(M,I) = 245 4 1.0240 1.1694 M,I,WQKTR(1),WQTDKR(M,I) = 246 1 1.0240 1.1736 M,I,WQKTR(1),WQTDKR(M,I) = 246 2 1.0240 1.1736 M,I,WQKTR(1),WQTDKR(M,I) = 246 3 1.0240 1.1736 M,I,WQKTR(1),WQTDKR(M,I) = 246 4 1.0240 1.1736 M,I,WQKTR(1),WQTDKR(M,I) = 247 1 1.0240 1.1778 M,I,WQKTR(1),WQTDKR(M,I) = 247 2 1.0240 1.1778 M,I,WQKTR(1),WQTDKR(M,I) = 247 3 1.0240 1.1778 M,I,WQKTR(1),WQTDKR(M,I) = 247 4 1.0240 1.1778 M,I,WQKTR(1),WQTDKR(M,I) = 248 1 1.0240 1.1820 M,I,WQKTR(1),WQTDKR(M,I) = 248 2 1.0240 1.1820 M,I,WQKTR(1),WQTDKR(M,I) = 248 3 1.0240 1.1820 M,I,WQKTR(1),WQTDKR(M,I) = 248 4 1.0240 1.1820 M,I,WQKTR(1),WQTDKR(M,I) = 249 1 1.0240 1.1862 M,I,WQKTR(1),WQTDKR(M,I) = 249 2 1.0240 1.1862 M,I,WQKTR(1),WQTDKR(M,I) = 249 3 1.0240 1.1862 M,I,WQKTR(1),WQTDKR(M,I) = 249 4 1.0240 1.1862 M,I,WQKTR(1),WQTDKR(M,I) = 250 1 1.0240 1.1904 M,I,WQKTR(1),WQTDKR(M,I) = 250 2 1.0240 1.1904 M,I,WQKTR(1),WQTDKR(M,I) = 250 3 1.0240 1.1904 M,I,WQKTR(1),WQTDKR(M,I) = 250 4 1.0240 1.1904 M,I,WQKTR(1),WQTDKR(M,I) = 251 1 1.0240 1.1947 M,I,WQKTR(1),WQTDKR(M,I) = 251 2 1.0240 1.1947 M,I,WQKTR(1),WQTDKR(M,I) = 251 3 1.0240 1.1947 M,I,WQKTR(1),WQTDKR(M,I) = 251 4 1.0240 1.1947 M,I,WQKTR(1),WQTDKR(M,I) = 252 1 1.0240 1.1989 M,I,WQKTR(1),WQTDKR(M,I) = 252 2 1.0240 1.1989 M,I,WQKTR(1),WQTDKR(M,I) = 252 3 1.0240 1.1989 M,I,WQKTR(1),WQTDKR(M,I) = 252 4 1.0240 1.1989 M,I,WQKTR(1),WQTDKR(M,I) = 253 1 1.0240 1.2032 M,I,WQKTR(1),WQTDKR(M,I) = 253 2 1.0240 1.2032 M,I,WQKTR(1),WQTDKR(M,I) = 253 3 1.0240 1.2032 M,I,WQKTR(1),WQTDKR(M,I) = 253 4 1.0240 1.2032 M,I,WQKTR(1),WQTDKR(M,I) = 254 1 1.0240 1.2075 M,I,WQKTR(1),WQTDKR(M,I) = 254 2 1.0240 1.2075 M,I,WQKTR(1),WQTDKR(M,I) = 254 3 1.0240 1.2075 M,I,WQKTR(1),WQTDKR(M,I) = 254 4 1.0240 1.2075 M,I,WQKTR(1),WQTDKR(M,I) = 255 1 1.0240 1.2118 M,I,WQKTR(1),WQTDKR(M,I) = 255 2 1.0240 1.2118 M,I,WQKTR(1),WQTDKR(M,I) = 255 3 1.0240 1.2118 M,I,WQKTR(1),WQTDKR(M,I) = 255 4 1.0240 1.2118 M,I,WQKTR(1),WQTDKR(M,I) = 256 1 1.0240 1.2161 M,I,WQKTR(1),WQTDKR(M,I) = 256 2 1.0240 1.2161 M,I,WQKTR(1),WQTDKR(M,I) = 256 3 1.0240 1.2161 M,I,WQKTR(1),WQTDKR(M,I) = 256 4 1.0240 1.2161 M,I,WQKTR(1),WQTDKR(M,I) = 257 1 1.0240 1.2204 M,I,WQKTR(1),WQTDKR(M,I) = 257 2 1.0240 1.2204 M,I,WQKTR(1),WQTDKR(M,I) = 257 3 1.0240 1.2204 M,I,WQKTR(1),WQTDKR(M,I) = 257 4 1.0240 1.2204 M,I,WQKTR(1),WQTDKR(M,I) = 258 1 1.0240 1.2248 M,I,WQKTR(1),WQTDKR(M,I) = 258 2 1.0240 1.2248 M,I,WQKTR(1),WQTDKR(M,I) = 258 3 1.0240 1.2248 M,I,WQKTR(1),WQTDKR(M,I) = 258 4 1.0240 1.2248 M,I,WQKTR(1),WQTDKR(M,I) = 259 1 1.0240 1.2292 M,I,WQKTR(1),WQTDKR(M,I) = 259 2 1.0240 1.2292 M,I,WQKTR(1),WQTDKR(M,I) = 259 3 1.0240 1.2292 M,I,WQKTR(1),WQTDKR(M,I) = 259 4 1.0240 1.2292 M,I,WQKTR(1),WQTDKR(M,I) = 260 1 1.0240 1.2335 M,I,WQKTR(1),WQTDKR(M,I) = 260 2 1.0240 1.2335 M,I,WQKTR(1),WQTDKR(M,I) = 260 3 1.0240 1.2335 M,I,WQKTR(1),WQTDKR(M,I) = 260 4 1.0240 1.2335 M,I,WQKTR(1),WQTDKR(M,I) = 261 1 1.0240 1.2379 M,I,WQKTR(1),WQTDKR(M,I) = 261 2 1.0240 1.2379 M,I,WQKTR(1),WQTDKR(M,I) = 261 3 1.0240 1.2379 M,I,WQKTR(1),WQTDKR(M,I) = 261 4 1.0240 1.2379 M,I,WQKTR(1),WQTDKR(M,I) = 262 1 1.0240 1.2424 M,I,WQKTR(1),WQTDKR(M,I) = 262 2 1.0240 1.2424 M,I,WQKTR(1),WQTDKR(M,I) = 262 3 1.0240 1.2424 M,I,WQKTR(1),WQTDKR(M,I) = 262 4 1.0240 1.2424 M,I,WQKTR(1),WQTDKR(M,I) = 263 1 1.0240 1.2468 M,I,WQKTR(1),WQTDKR(M,I) = 263 2 1.0240 1.2468 M,I,WQKTR(1),WQTDKR(M,I) = 263 3 1.0240 1.2468 M,I,WQKTR(1),WQTDKR(M,I) = 263 4 1.0240 1.2468 M,I,WQKTR(1),WQTDKR(M,I) = 264 1 1.0240 1.2512 M,I,WQKTR(1),WQTDKR(M,I) = 264 2 1.0240 1.2512 M,I,WQKTR(1),WQTDKR(M,I) = 264 3 1.0240 1.2512 M,I,WQKTR(1),WQTDKR(M,I) = 264 4 1.0240 1.2512 M,I,WQKTR(1),WQTDKR(M,I) = 265 1 1.0240 1.2557 M,I,WQKTR(1),WQTDKR(M,I) = 265 2 1.0240 1.2557 M,I,WQKTR(1),WQTDKR(M,I) = 265 3 1.0240 1.2557 M,I,WQKTR(1),WQTDKR(M,I) = 265 4 1.0240 1.2557 M,I,WQKTR(1),WQTDKR(M,I) = 266 1 1.0240 1.2602 M,I,WQKTR(1),WQTDKR(M,I) = 266 2 1.0240 1.2602 M,I,WQKTR(1),WQTDKR(M,I) = 266 3 1.0240 1.2602 M,I,WQKTR(1),WQTDKR(M,I) = 266 4 1.0240 1.2602 M,I,WQKTR(1),WQTDKR(M,I) = 267 1 1.0240 1.2646 M,I,WQKTR(1),WQTDKR(M,I) = 267 2 1.0240 1.2646 M,I,WQKTR(1),WQTDKR(M,I) = 267 3 1.0240 1.2646 M,I,WQKTR(1),WQTDKR(M,I) = 267 4 1.0240 1.2646 M,I,WQKTR(1),WQTDKR(M,I) = 268 1 1.0240 1.2692 M,I,WQKTR(1),WQTDKR(M,I) = 268 2 1.0240 1.2692 M,I,WQKTR(1),WQTDKR(M,I) = 268 3 1.0240 1.2692 M,I,WQKTR(1),WQTDKR(M,I) = 268 4 1.0240 1.2692 M,I,WQKTR(1),WQTDKR(M,I) = 269 1 1.0240 1.2737 M,I,WQKTR(1),WQTDKR(M,I) = 269 2 1.0240 1.2737 M,I,WQKTR(1),WQTDKR(M,I) = 269 3 1.0240 1.2737 M,I,WQKTR(1),WQTDKR(M,I) = 269 4 1.0240 1.2737 M,I,WQKTR(1),WQTDKR(M,I) = 270 1 1.0240 1.2782 M,I,WQKTR(1),WQTDKR(M,I) = 270 2 1.0240 1.2782 M,I,WQKTR(1),WQTDKR(M,I) = 270 3 1.0240 1.2782 M,I,WQKTR(1),WQTDKR(M,I) = 270 4 1.0240 1.2782 M,I,WQKTR(1),WQTDKR(M,I) = 271 1 1.0240 1.2828 M,I,WQKTR(1),WQTDKR(M,I) = 271 2 1.0240 1.2828 M,I,WQKTR(1),WQTDKR(M,I) = 271 3 1.0240 1.2828 M,I,WQKTR(1),WQTDKR(M,I) = 271 4 1.0240 1.2828 M,I,WQKTR(1),WQTDKR(M,I) = 272 1 1.0240 1.2873 M,I,WQKTR(1),WQTDKR(M,I) = 272 2 1.0240 1.2873 M,I,WQKTR(1),WQTDKR(M,I) = 272 3 1.0240 1.2873 M,I,WQKTR(1),WQTDKR(M,I) = 272 4 1.0240 1.2873 M,I,WQKTR(1),WQTDKR(M,I) = 273 1 1.0240 1.2919 M,I,WQKTR(1),WQTDKR(M,I) = 273 2 1.0240 1.2919 M,I,WQKTR(1),WQTDKR(M,I) = 273 3 1.0240 1.2919 M,I,WQKTR(1),WQTDKR(M,I) = 273 4 1.0240 1.2919 M,I,WQKTR(1),WQTDKR(M,I) = 274 1 1.0240 1.2965 M,I,WQKTR(1),WQTDKR(M,I) = 274 2 1.0240 1.2965 M,I,WQKTR(1),WQTDKR(M,I) = 274 3 1.0240 1.2965 M,I,WQKTR(1),WQTDKR(M,I) = 274 4 1.0240 1.2965 M,I,WQKTR(1),WQTDKR(M,I) = 275 1 1.0240 1.3012 M,I,WQKTR(1),WQTDKR(M,I) = 275 2 1.0240 1.3012 M,I,WQKTR(1),WQTDKR(M,I) = 275 3 1.0240 1.3012 M,I,WQKTR(1),WQTDKR(M,I) = 275 4 1.0240 1.3012 M,I,WQKTR(1),WQTDKR(M,I) = 276 1 1.0240 1.3058 M,I,WQKTR(1),WQTDKR(M,I) = 276 2 1.0240 1.3058 M,I,WQKTR(1),WQTDKR(M,I) = 276 3 1.0240 1.3058 M,I,WQKTR(1),WQTDKR(M,I) = 276 4 1.0240 1.3058 M,I,WQKTR(1),WQTDKR(M,I) = 277 1 1.0240 1.3104 M,I,WQKTR(1),WQTDKR(M,I) = 277 2 1.0240 1.3104 M,I,WQKTR(1),WQTDKR(M,I) = 277 3 1.0240 1.3104 M,I,WQKTR(1),WQTDKR(M,I) = 277 4 1.0240 1.3104 M,I,WQKTR(1),WQTDKR(M,I) = 278 1 1.0240 1.3151 M,I,WQKTR(1),WQTDKR(M,I) = 278 2 1.0240 1.3151 M,I,WQKTR(1),WQTDKR(M,I) = 278 3 1.0240 1.3151 M,I,WQKTR(1),WQTDKR(M,I) = 278 4 1.0240 1.3151 M,I,WQKTR(1),WQTDKR(M,I) = 279 1 1.0240 1.3198 M,I,WQKTR(1),WQTDKR(M,I) = 279 2 1.0240 1.3198 M,I,WQKTR(1),WQTDKR(M,I) = 279 3 1.0240 1.3198 M,I,WQKTR(1),WQTDKR(M,I) = 279 4 1.0240 1.3198 M,I,WQKTR(1),WQTDKR(M,I) = 280 1 1.0240 1.3245 M,I,WQKTR(1),WQTDKR(M,I) = 280 2 1.0240 1.3245 M,I,WQKTR(1),WQTDKR(M,I) = 280 3 1.0240 1.3245 M,I,WQKTR(1),WQTDKR(M,I) = 280 4 1.0240 1.3245 M,I,WQKTR(1),WQTDKR(M,I) = 281 1 1.0240 1.3292 M,I,WQKTR(1),WQTDKR(M,I) = 281 2 1.0240 1.3292 M,I,WQKTR(1),WQTDKR(M,I) = 281 3 1.0240 1.3292 M,I,WQKTR(1),WQTDKR(M,I) = 281 4 1.0240 1.3292 M,I,WQKTR(1),WQTDKR(M,I) = 282 1 1.0240 1.3340 M,I,WQKTR(1),WQTDKR(M,I) = 282 2 1.0240 1.3340 M,I,WQKTR(1),WQTDKR(M,I) = 282 3 1.0240 1.3340 M,I,WQKTR(1),WQTDKR(M,I) = 282 4 1.0240 1.3340 M,I,WQKTR(1),WQTDKR(M,I) = 283 1 1.0240 1.3387 M,I,WQKTR(1),WQTDKR(M,I) = 283 2 1.0240 1.3387 M,I,WQKTR(1),WQTDKR(M,I) = 283 3 1.0240 1.3387 M,I,WQKTR(1),WQTDKR(M,I) = 283 4 1.0240 1.3387 M,I,WQKTR(1),WQTDKR(M,I) = 284 1 1.0240 1.3435 M,I,WQKTR(1),WQTDKR(M,I) = 284 2 1.0240 1.3435 M,I,WQKTR(1),WQTDKR(M,I) = 284 3 1.0240 1.3435 M,I,WQKTR(1),WQTDKR(M,I) = 284 4 1.0240 1.3435 M,I,WQKTR(1),WQTDKR(M,I) = 285 1 1.0240 1.3483 M,I,WQKTR(1),WQTDKR(M,I) = 285 2 1.0240 1.3483 M,I,WQKTR(1),WQTDKR(M,I) = 285 3 1.0240 1.3483 M,I,WQKTR(1),WQTDKR(M,I) = 285 4 1.0240 1.3483 M,I,WQKTR(1),WQTDKR(M,I) = 286 1 1.0240 1.3531 M,I,WQKTR(1),WQTDKR(M,I) = 286 2 1.0240 1.3531 M,I,WQKTR(1),WQTDKR(M,I) = 286 3 1.0240 1.3531 M,I,WQKTR(1),WQTDKR(M,I) = 286 4 1.0240 1.3531 M,I,WQKTR(1),WQTDKR(M,I) = 287 1 1.0240 1.3579 M,I,WQKTR(1),WQTDKR(M,I) = 287 2 1.0240 1.3579 M,I,WQKTR(1),WQTDKR(M,I) = 287 3 1.0240 1.3579 M,I,WQKTR(1),WQTDKR(M,I) = 287 4 1.0240 1.3579 M,I,WQKTR(1),WQTDKR(M,I) = 288 1 1.0240 1.3627 M,I,WQKTR(1),WQTDKR(M,I) = 288 2 1.0240 1.3627 M,I,WQKTR(1),WQTDKR(M,I) = 288 3 1.0240 1.3627 M,I,WQKTR(1),WQTDKR(M,I) = 288 4 1.0240 1.3627 M,I,WQKTR(1),WQTDKR(M,I) = 289 1 1.0240 1.3676 M,I,WQKTR(1),WQTDKR(M,I) = 289 2 1.0240 1.3676 M,I,WQKTR(1),WQTDKR(M,I) = 289 3 1.0240 1.3676 M,I,WQKTR(1),WQTDKR(M,I) = 289 4 1.0240 1.3676 M,I,WQKTR(1),WQTDKR(M,I) = 290 1 1.0240 1.3725 M,I,WQKTR(1),WQTDKR(M,I) = 290 2 1.0240 1.3725 M,I,WQKTR(1),WQTDKR(M,I) = 290 3 1.0240 1.3725 M,I,WQKTR(1),WQTDKR(M,I) = 290 4 1.0240 1.3725 M,I,WQKTR(1),WQTDKR(M,I) = 291 1 1.0240 1.3774 M,I,WQKTR(1),WQTDKR(M,I) = 291 2 1.0240 1.3774 M,I,WQKTR(1),WQTDKR(M,I) = 291 3 1.0240 1.3774 M,I,WQKTR(1),WQTDKR(M,I) = 291 4 1.0240 1.3774 M,I,WQKTR(1),WQTDKR(M,I) = 292 1 1.0240 1.3823 M,I,WQKTR(1),WQTDKR(M,I) = 292 2 1.0240 1.3823 M,I,WQKTR(1),WQTDKR(M,I) = 292 3 1.0240 1.3823 M,I,WQKTR(1),WQTDKR(M,I) = 292 4 1.0240 1.3823 M,I,WQKTR(1),WQTDKR(M,I) = 293 1 1.0240 1.3872 M,I,WQKTR(1),WQTDKR(M,I) = 293 2 1.0240 1.3872 M,I,WQKTR(1),WQTDKR(M,I) = 293 3 1.0240 1.3872 M,I,WQKTR(1),WQTDKR(M,I) = 293 4 1.0240 1.3872 M,I,WQKTR(1),WQTDKR(M,I) = 294 1 1.0240 1.3921 M,I,WQKTR(1),WQTDKR(M,I) = 294 2 1.0240 1.3921 M,I,WQKTR(1),WQTDKR(M,I) = 294 3 1.0240 1.3921 M,I,WQKTR(1),WQTDKR(M,I) = 294 4 1.0240 1.3921 M,I,WQKTR(1),WQTDKR(M,I) = 295 1 1.0240 1.3971 M,I,WQKTR(1),WQTDKR(M,I) = 295 2 1.0240 1.3971 M,I,WQKTR(1),WQTDKR(M,I) = 295 3 1.0240 1.3971 M,I,WQKTR(1),WQTDKR(M,I) = 295 4 1.0240 1.3971 M,I,WQKTR(1),WQTDKR(M,I) = 296 1 1.0240 1.4021 M,I,WQKTR(1),WQTDKR(M,I) = 296 2 1.0240 1.4021 M,I,WQKTR(1),WQTDKR(M,I) = 296 3 1.0240 1.4021 M,I,WQKTR(1),WQTDKR(M,I) = 296 4 1.0240 1.4021 M,I,WQKTR(1),WQTDKR(M,I) = 297 1 1.0240 1.4071 M,I,WQKTR(1),WQTDKR(M,I) = 297 2 1.0240 1.4071 M,I,WQKTR(1),WQTDKR(M,I) = 297 3 1.0240 1.4071 M,I,WQKTR(1),WQTDKR(M,I) = 297 4 1.0240 1.4071 M,I,WQKTR(1),WQTDKR(M,I) = 298 1 1.0240 1.4121 M,I,WQKTR(1),WQTDKR(M,I) = 298 2 1.0240 1.4121 M,I,WQKTR(1),WQTDKR(M,I) = 298 3 1.0240 1.4121 M,I,WQKTR(1),WQTDKR(M,I) = 298 4 1.0240 1.4121 M,I,WQKTR(1),WQTDKR(M,I) = 299 1 1.0240 1.4171 M,I,WQKTR(1),WQTDKR(M,I) = 299 2 1.0240 1.4171 M,I,WQKTR(1),WQTDKR(M,I) = 299 3 1.0240 1.4171 M,I,WQKTR(1),WQTDKR(M,I) = 299 4 1.0240 1.4171 M,I,WQKTR(1),WQTDKR(M,I) = 300 1 1.0240 1.4222 M,I,WQKTR(1),WQTDKR(M,I) = 300 2 1.0240 1.4222 M,I,WQKTR(1),WQTDKR(M,I) = 300 3 1.0240 1.4222 M,I,WQKTR(1),WQTDKR(M,I) = 300 4 1.0240 1.4222 M,I,WQKTR(1),WQTDKR(M,I) = 301 1 1.0240 1.4272 M,I,WQKTR(1),WQTDKR(M,I) = 301 2 1.0240 1.4272 M,I,WQKTR(1),WQTDKR(M,I) = 301 3 1.0240 1.4272 M,I,WQKTR(1),WQTDKR(M,I) = 301 4 1.0240 1.4272 M,I,WQKTR(1),WQTDKR(M,I) = 302 1 1.0240 1.4323 M,I,WQKTR(1),WQTDKR(M,I) = 302 2 1.0240 1.4323 M,I,WQKTR(1),WQTDKR(M,I) = 302 3 1.0240 1.4323 M,I,WQKTR(1),WQTDKR(M,I) = 302 4 1.0240 1.4323 M,I,WQKTR(1),WQTDKR(M,I) = 303 1 1.0240 1.4374 M,I,WQKTR(1),WQTDKR(M,I) = 303 2 1.0240 1.4374 M,I,WQKTR(1),WQTDKR(M,I) = 303 3 1.0240 1.4374 M,I,WQKTR(1),WQTDKR(M,I) = 303 4 1.0240 1.4374 M,I,WQKTR(1),WQTDKR(M,I) = 304 1 1.0240 1.4426 M,I,WQKTR(1),WQTDKR(M,I) = 304 2 1.0240 1.4426 M,I,WQKTR(1),WQTDKR(M,I) = 304 3 1.0240 1.4426 M,I,WQKTR(1),WQTDKR(M,I) = 304 4 1.0240 1.4426 M,I,WQKTR(1),WQTDKR(M,I) = 305 1 1.0240 1.4477 M,I,WQKTR(1),WQTDKR(M,I) = 305 2 1.0240 1.4477 M,I,WQKTR(1),WQTDKR(M,I) = 305 3 1.0240 1.4477 M,I,WQKTR(1),WQTDKR(M,I) = 305 4 1.0240 1.4477 M,I,WQKTR(1),WQTDKR(M,I) = 306 1 1.0240 1.4529 M,I,WQKTR(1),WQTDKR(M,I) = 306 2 1.0240 1.4529 M,I,WQKTR(1),WQTDKR(M,I) = 306 3 1.0240 1.4529 M,I,WQKTR(1),WQTDKR(M,I) = 306 4 1.0240 1.4529 M,I,WQKTR(1),WQTDKR(M,I) = 307 1 1.0240 1.4580 M,I,WQKTR(1),WQTDKR(M,I) = 307 2 1.0240 1.4580 M,I,WQKTR(1),WQTDKR(M,I) = 307 3 1.0240 1.4580 M,I,WQKTR(1),WQTDKR(M,I) = 307 4 1.0240 1.4580 M,I,WQKTR(1),WQTDKR(M,I) = 308 1 1.0240 1.4632 M,I,WQKTR(1),WQTDKR(M,I) = 308 2 1.0240 1.4632 M,I,WQKTR(1),WQTDKR(M,I) = 308 3 1.0240 1.4632 M,I,WQKTR(1),WQTDKR(M,I) = 308 4 1.0240 1.4632 M,I,WQKTR(1),WQTDKR(M,I) = 309 1 1.0240 1.4685 M,I,WQKTR(1),WQTDKR(M,I) = 309 2 1.0240 1.4685 M,I,WQKTR(1),WQTDKR(M,I) = 309 3 1.0240 1.4685 M,I,WQKTR(1),WQTDKR(M,I) = 309 4 1.0240 1.4685 M,I,WQKTR(1),WQTDKR(M,I) = 310 1 1.0240 1.4737 M,I,WQKTR(1),WQTDKR(M,I) = 310 2 1.0240 1.4737 M,I,WQKTR(1),WQTDKR(M,I) = 310 3 1.0240 1.4737 M,I,WQKTR(1),WQTDKR(M,I) = 310 4 1.0240 1.4737 M,I,WQKTR(1),WQTDKR(M,I) = 311 1 1.0240 1.4789 M,I,WQKTR(1),WQTDKR(M,I) = 311 2 1.0240 1.4789 M,I,WQKTR(1),WQTDKR(M,I) = 311 3 1.0240 1.4789 M,I,WQKTR(1),WQTDKR(M,I) = 311 4 1.0240 1.4789 M,I,WQKTR(1),WQTDKR(M,I) = 312 1 1.0240 1.4842 M,I,WQKTR(1),WQTDKR(M,I) = 312 2 1.0240 1.4842 M,I,WQKTR(1),WQTDKR(M,I) = 312 3 1.0240 1.4842 M,I,WQKTR(1),WQTDKR(M,I) = 312 4 1.0240 1.4842 M,I,WQKTR(1),WQTDKR(M,I) = 313 1 1.0240 1.4895 M,I,WQKTR(1),WQTDKR(M,I) = 313 2 1.0240 1.4895 M,I,WQKTR(1),WQTDKR(M,I) = 313 3 1.0240 1.4895 M,I,WQKTR(1),WQTDKR(M,I) = 313 4 1.0240 1.4895 M,I,WQKTR(1),WQTDKR(M,I) = 314 1 1.0240 1.4948 M,I,WQKTR(1),WQTDKR(M,I) = 314 2 1.0240 1.4948 M,I,WQKTR(1),WQTDKR(M,I) = 314 3 1.0240 1.4948 M,I,WQKTR(1),WQTDKR(M,I) = 314 4 1.0240 1.4948 M,I,WQKTR(1),WQTDKR(M,I) = 315 1 1.0240 1.5001 M,I,WQKTR(1),WQTDKR(M,I) = 315 2 1.0240 1.5001 M,I,WQKTR(1),WQTDKR(M,I) = 315 3 1.0240 1.5001 M,I,WQKTR(1),WQTDKR(M,I) = 315 4 1.0240 1.5001 M,I,WQKTR(1),WQTDKR(M,I) = 316 1 1.0240 1.5055 M,I,WQKTR(1),WQTDKR(M,I) = 316 2 1.0240 1.5055 M,I,WQKTR(1),WQTDKR(M,I) = 316 3 1.0240 1.5055 M,I,WQKTR(1),WQTDKR(M,I) = 316 4 1.0240 1.5055 M,I,WQKTR(1),WQTDKR(M,I) = 317 1 1.0240 1.5108 M,I,WQKTR(1),WQTDKR(M,I) = 317 2 1.0240 1.5108 M,I,WQKTR(1),WQTDKR(M,I) = 317 3 1.0240 1.5108 M,I,WQKTR(1),WQTDKR(M,I) = 317 4 1.0240 1.5108 M,I,WQKTR(1),WQTDKR(M,I) = 318 1 1.0240 1.5162 M,I,WQKTR(1),WQTDKR(M,I) = 318 2 1.0240 1.5162 M,I,WQKTR(1),WQTDKR(M,I) = 318 3 1.0240 1.5162 M,I,WQKTR(1),WQTDKR(M,I) = 318 4 1.0240 1.5162 M,I,WQKTR(1),WQTDKR(M,I) = 319 1 1.0240 1.5216 M,I,WQKTR(1),WQTDKR(M,I) = 319 2 1.0240 1.5216 M,I,WQKTR(1),WQTDKR(M,I) = 319 3 1.0240 1.5216 M,I,WQKTR(1),WQTDKR(M,I) = 319 4 1.0240 1.5216 M,I,WQKTR(1),WQTDKR(M,I) = 320 1 1.0240 1.5271 M,I,WQKTR(1),WQTDKR(M,I) = 320 2 1.0240 1.5271 M,I,WQKTR(1),WQTDKR(M,I) = 320 3 1.0240 1.5271 M,I,WQKTR(1),WQTDKR(M,I) = 320 4 1.0240 1.5271 M,I,WQKTR(1),WQTDKR(M,I) = 321 1 1.0240 1.5325 M,I,WQKTR(1),WQTDKR(M,I) = 321 2 1.0240 1.5325 M,I,WQKTR(1),WQTDKR(M,I) = 321 3 1.0240 1.5325 M,I,WQKTR(1),WQTDKR(M,I) = 321 4 1.0240 1.5325 M,I,WQKTR(1),WQTDKR(M,I) = 322 1 1.0240 1.5380 M,I,WQKTR(1),WQTDKR(M,I) = 322 2 1.0240 1.5380 M,I,WQKTR(1),WQTDKR(M,I) = 322 3 1.0240 1.5380 M,I,WQKTR(1),WQTDKR(M,I) = 322 4 1.0240 1.5380 M,I,WQKTR(1),WQTDKR(M,I) = 323 1 1.0240 1.5434 M,I,WQKTR(1),WQTDKR(M,I) = 323 2 1.0240 1.5434 M,I,WQKTR(1),WQTDKR(M,I) = 323 3 1.0240 1.5434 M,I,WQKTR(1),WQTDKR(M,I) = 323 4 1.0240 1.5434 M,I,WQKTR(1),WQTDKR(M,I) = 324 1 1.0240 1.5489 M,I,WQKTR(1),WQTDKR(M,I) = 324 2 1.0240 1.5489 M,I,WQKTR(1),WQTDKR(M,I) = 324 3 1.0240 1.5489 M,I,WQKTR(1),WQTDKR(M,I) = 324 4 1.0240 1.5489 M,I,WQKTR(1),WQTDKR(M,I) = 325 1 1.0240 1.5545 M,I,WQKTR(1),WQTDKR(M,I) = 325 2 1.0240 1.5545 M,I,WQKTR(1),WQTDKR(M,I) = 325 3 1.0240 1.5545 M,I,WQKTR(1),WQTDKR(M,I) = 325 4 1.0240 1.5545 M,I,WQKTR(1),WQTDKR(M,I) = 326 1 1.0240 1.5600 M,I,WQKTR(1),WQTDKR(M,I) = 326 2 1.0240 1.5600 M,I,WQKTR(1),WQTDKR(M,I) = 326 3 1.0240 1.5600 M,I,WQKTR(1),WQTDKR(M,I) = 326 4 1.0240 1.5600 M,I,WQKTR(1),WQTDKR(M,I) = 327 1 1.0240 1.5656 M,I,WQKTR(1),WQTDKR(M,I) = 327 2 1.0240 1.5656 M,I,WQKTR(1),WQTDKR(M,I) = 327 3 1.0240 1.5656 M,I,WQKTR(1),WQTDKR(M,I) = 327 4 1.0240 1.5656 M,I,WQKTR(1),WQTDKR(M,I) = 328 1 1.0240 1.5711 M,I,WQKTR(1),WQTDKR(M,I) = 328 2 1.0240 1.5711 M,I,WQKTR(1),WQTDKR(M,I) = 328 3 1.0240 1.5711 M,I,WQKTR(1),WQTDKR(M,I) = 328 4 1.0240 1.5711 M,I,WQKTR(1),WQTDKR(M,I) = 329 1 1.0240 1.5767 M,I,WQKTR(1),WQTDKR(M,I) = 329 2 1.0240 1.5767 M,I,WQKTR(1),WQTDKR(M,I) = 329 3 1.0240 1.5767 M,I,WQKTR(1),WQTDKR(M,I) = 329 4 1.0240 1.5767 M,I,WQKTR(1),WQTDKR(M,I) = 330 1 1.0240 1.5824 M,I,WQKTR(1),WQTDKR(M,I) = 330 2 1.0240 1.5824 M,I,WQKTR(1),WQTDKR(M,I) = 330 3 1.0240 1.5824 M,I,WQKTR(1),WQTDKR(M,I) = 330 4 1.0240 1.5824 M,I,WQKTR(1),WQTDKR(M,I) = 331 1 1.0240 1.5880 M,I,WQKTR(1),WQTDKR(M,I) = 331 2 1.0240 1.5880 M,I,WQKTR(1),WQTDKR(M,I) = 331 3 1.0240 1.5880 M,I,WQKTR(1),WQTDKR(M,I) = 331 4 1.0240 1.5880 M,I,WQKTR(1),WQTDKR(M,I) = 332 1 1.0240 1.5937 M,I,WQKTR(1),WQTDKR(M,I) = 332 2 1.0240 1.5937 M,I,WQKTR(1),WQTDKR(M,I) = 332 3 1.0240 1.5937 M,I,WQKTR(1),WQTDKR(M,I) = 332 4 1.0240 1.5937 M,I,WQKTR(1),WQTDKR(M,I) = 333 1 1.0240 1.5993 M,I,WQKTR(1),WQTDKR(M,I) = 333 2 1.0240 1.5993 M,I,WQKTR(1),WQTDKR(M,I) = 333 3 1.0240 1.5993 M,I,WQKTR(1),WQTDKR(M,I) = 333 4 1.0240 1.5993 M,I,WQKTR(1),WQTDKR(M,I) = 334 1 1.0240 1.6050 M,I,WQKTR(1),WQTDKR(M,I) = 334 2 1.0240 1.6050 M,I,WQKTR(1),WQTDKR(M,I) = 334 3 1.0240 1.6050 M,I,WQKTR(1),WQTDKR(M,I) = 334 4 1.0240 1.6050 M,I,WQKTR(1),WQTDKR(M,I) = 335 1 1.0240 1.6108 M,I,WQKTR(1),WQTDKR(M,I) = 335 2 1.0240 1.6108 M,I,WQKTR(1),WQTDKR(M,I) = 335 3 1.0240 1.6108 M,I,WQKTR(1),WQTDKR(M,I) = 335 4 1.0240 1.6108 M,I,WQKTR(1),WQTDKR(M,I) = 336 1 1.0240 1.6165 M,I,WQKTR(1),WQTDKR(M,I) = 336 2 1.0240 1.6165 M,I,WQKTR(1),WQTDKR(M,I) = 336 3 1.0240 1.6165 M,I,WQKTR(1),WQTDKR(M,I) = 336 4 1.0240 1.6165 M,I,WQKTR(1),WQTDKR(M,I) = 337 1 1.0240 1.6223 M,I,WQKTR(1),WQTDKR(M,I) = 337 2 1.0240 1.6223 M,I,WQKTR(1),WQTDKR(M,I) = 337 3 1.0240 1.6223 M,I,WQKTR(1),WQTDKR(M,I) = 337 4 1.0240 1.6223 M,I,WQKTR(1),WQTDKR(M,I) = 338 1 1.0240 1.6280 M,I,WQKTR(1),WQTDKR(M,I) = 338 2 1.0240 1.6280 M,I,WQKTR(1),WQTDKR(M,I) = 338 3 1.0240 1.6280 M,I,WQKTR(1),WQTDKR(M,I) = 338 4 1.0240 1.6280 M,I,WQKTR(1),WQTDKR(M,I) = 339 1 1.0240 1.6338 M,I,WQKTR(1),WQTDKR(M,I) = 339 2 1.0240 1.6338 M,I,WQKTR(1),WQTDKR(M,I) = 339 3 1.0240 1.6338 M,I,WQKTR(1),WQTDKR(M,I) = 339 4 1.0240 1.6338 M,I,WQKTR(1),WQTDKR(M,I) = 340 1 1.0240 1.6397 M,I,WQKTR(1),WQTDKR(M,I) = 340 2 1.0240 1.6397 M,I,WQKTR(1),WQTDKR(M,I) = 340 3 1.0240 1.6397 M,I,WQKTR(1),WQTDKR(M,I) = 340 4 1.0240 1.6397 M,I,WQKTR(1),WQTDKR(M,I) = 341 1 1.0240 1.6455 M,I,WQKTR(1),WQTDKR(M,I) = 341 2 1.0240 1.6455 M,I,WQKTR(1),WQTDKR(M,I) = 341 3 1.0240 1.6455 M,I,WQKTR(1),WQTDKR(M,I) = 341 4 1.0240 1.6455 M,I,WQKTR(1),WQTDKR(M,I) = 342 1 1.0240 1.6514 M,I,WQKTR(1),WQTDKR(M,I) = 342 2 1.0240 1.6514 M,I,WQKTR(1),WQTDKR(M,I) = 342 3 1.0240 1.6514 M,I,WQKTR(1),WQTDKR(M,I) = 342 4 1.0240 1.6514 M,I,WQKTR(1),WQTDKR(M,I) = 343 1 1.0240 1.6573 M,I,WQKTR(1),WQTDKR(M,I) = 343 2 1.0240 1.6573 M,I,WQKTR(1),WQTDKR(M,I) = 343 3 1.0240 1.6573 M,I,WQKTR(1),WQTDKR(M,I) = 343 4 1.0240 1.6573 M,I,WQKTR(1),WQTDKR(M,I) = 344 1 1.0240 1.6632 M,I,WQKTR(1),WQTDKR(M,I) = 344 2 1.0240 1.6632 M,I,WQKTR(1),WQTDKR(M,I) = 344 3 1.0240 1.6632 M,I,WQKTR(1),WQTDKR(M,I) = 344 4 1.0240 1.6632 M,I,WQKTR(1),WQTDKR(M,I) = 345 1 1.0240 1.6691 M,I,WQKTR(1),WQTDKR(M,I) = 345 2 1.0240 1.6691 M,I,WQKTR(1),WQTDKR(M,I) = 345 3 1.0240 1.6691 M,I,WQKTR(1),WQTDKR(M,I) = 345 4 1.0240 1.6691 M,I,WQKTR(1),WQTDKR(M,I) = 346 1 1.0240 1.6750 M,I,WQKTR(1),WQTDKR(M,I) = 346 2 1.0240 1.6750 M,I,WQKTR(1),WQTDKR(M,I) = 346 3 1.0240 1.6750 M,I,WQKTR(1),WQTDKR(M,I) = 346 4 1.0240 1.6750 M,I,WQKTR(1),WQTDKR(M,I) = 347 1 1.0240 1.6810 M,I,WQKTR(1),WQTDKR(M,I) = 347 2 1.0240 1.6810 M,I,WQKTR(1),WQTDKR(M,I) = 347 3 1.0240 1.6810 M,I,WQKTR(1),WQTDKR(M,I) = 347 4 1.0240 1.6810 M,I,WQKTR(1),WQTDKR(M,I) = 348 1 1.0240 1.6870 M,I,WQKTR(1),WQTDKR(M,I) = 348 2 1.0240 1.6870 M,I,WQKTR(1),WQTDKR(M,I) = 348 3 1.0240 1.6870 M,I,WQKTR(1),WQTDKR(M,I) = 348 4 1.0240 1.6870 M,I,WQKTR(1),WQTDKR(M,I) = 349 1 1.0240 1.6930 M,I,WQKTR(1),WQTDKR(M,I) = 349 2 1.0240 1.6930 M,I,WQKTR(1),WQTDKR(M,I) = 349 3 1.0240 1.6930 M,I,WQKTR(1),WQTDKR(M,I) = 349 4 1.0240 1.6930 M,I,WQKTR(1),WQTDKR(M,I) = 350 1 1.0240 1.6990 M,I,WQKTR(1),WQTDKR(M,I) = 350 2 1.0240 1.6990 M,I,WQKTR(1),WQTDKR(M,I) = 350 3 1.0240 1.6990 M,I,WQKTR(1),WQTDKR(M,I) = 350 4 1.0240 1.6990 M,I,WQKTR(1),WQTDKR(M,I) = 351 1 1.0240 1.7051 M,I,WQKTR(1),WQTDKR(M,I) = 351 2 1.0240 1.7051 M,I,WQKTR(1),WQTDKR(M,I) = 351 3 1.0240 1.7051 M,I,WQKTR(1),WQTDKR(M,I) = 351 4 1.0240 1.7051 M,I,WQKTR(1),WQTDKR(M,I) = 352 1 1.0240 1.7112 M,I,WQKTR(1),WQTDKR(M,I) = 352 2 1.0240 1.7112 M,I,WQKTR(1),WQTDKR(M,I) = 352 3 1.0240 1.7112 M,I,WQKTR(1),WQTDKR(M,I) = 352 4 1.0240 1.7112 M,I,WQKTR(1),WQTDKR(M,I) = 353 1 1.0240 1.7173 M,I,WQKTR(1),WQTDKR(M,I) = 353 2 1.0240 1.7173 M,I,WQKTR(1),WQTDKR(M,I) = 353 3 1.0240 1.7173 M,I,WQKTR(1),WQTDKR(M,I) = 353 4 1.0240 1.7173 M,I,WQKTR(1),WQTDKR(M,I) = 354 1 1.0240 1.7234 M,I,WQKTR(1),WQTDKR(M,I) = 354 2 1.0240 1.7234 M,I,WQKTR(1),WQTDKR(M,I) = 354 3 1.0240 1.7234 M,I,WQKTR(1),WQTDKR(M,I) = 354 4 1.0240 1.7234 M,I,WQKTR(1),WQTDKR(M,I) = 355 1 1.0240 1.7295 M,I,WQKTR(1),WQTDKR(M,I) = 355 2 1.0240 1.7295 M,I,WQKTR(1),WQTDKR(M,I) = 355 3 1.0240 1.7295 M,I,WQKTR(1),WQTDKR(M,I) = 355 4 1.0240 1.7295 M,I,WQKTR(1),WQTDKR(M,I) = 356 1 1.0240 1.7357 M,I,WQKTR(1),WQTDKR(M,I) = 356 2 1.0240 1.7357 M,I,WQKTR(1),WQTDKR(M,I) = 356 3 1.0240 1.7357 M,I,WQKTR(1),WQTDKR(M,I) = 356 4 1.0240 1.7357 M,I,WQKTR(1),WQTDKR(M,I) = 357 1 1.0240 1.7419 M,I,WQKTR(1),WQTDKR(M,I) = 357 2 1.0240 1.7419 M,I,WQKTR(1),WQTDKR(M,I) = 357 3 1.0240 1.7419 M,I,WQKTR(1),WQTDKR(M,I) = 357 4 1.0240 1.7419 M,I,WQKTR(1),WQTDKR(M,I) = 358 1 1.0240 1.7481 M,I,WQKTR(1),WQTDKR(M,I) = 358 2 1.0240 1.7481 M,I,WQKTR(1),WQTDKR(M,I) = 358 3 1.0240 1.7481 M,I,WQKTR(1),WQTDKR(M,I) = 358 4 1.0240 1.7481 M,I,WQKTR(1),WQTDKR(M,I) = 359 1 1.0240 1.7543 M,I,WQKTR(1),WQTDKR(M,I) = 359 2 1.0240 1.7543 M,I,WQKTR(1),WQTDKR(M,I) = 359 3 1.0240 1.7543 M,I,WQKTR(1),WQTDKR(M,I) = 359 4 1.0240 1.7543 M,I,WQKTR(1),WQTDKR(M,I) = 360 1 1.0240 1.7606 M,I,WQKTR(1),WQTDKR(M,I) = 360 2 1.0240 1.7606 M,I,WQKTR(1),WQTDKR(M,I) = 360 3 1.0240 1.7606 M,I,WQKTR(1),WQTDKR(M,I) = 360 4 1.0240 1.7606 M,I,WQKTR(1),WQTDKR(M,I) = 361 1 1.0240 1.7669 M,I,WQKTR(1),WQTDKR(M,I) = 361 2 1.0240 1.7669 M,I,WQKTR(1),WQTDKR(M,I) = 361 3 1.0240 1.7669 M,I,WQKTR(1),WQTDKR(M,I) = 361 4 1.0240 1.7669 M,I,WQKTR(1),WQTDKR(M,I) = 362 1 1.0240 1.7731 M,I,WQKTR(1),WQTDKR(M,I) = 362 2 1.0240 1.7731 M,I,WQKTR(1),WQTDKR(M,I) = 362 3 1.0240 1.7731 M,I,WQKTR(1),WQTDKR(M,I) = 362 4 1.0240 1.7731 M,I,WQKTR(1),WQTDKR(M,I) = 363 1 1.0240 1.7795 M,I,WQKTR(1),WQTDKR(M,I) = 363 2 1.0240 1.7795 M,I,WQKTR(1),WQTDKR(M,I) = 363 3 1.0240 1.7795 M,I,WQKTR(1),WQTDKR(M,I) = 363 4 1.0240 1.7795 M,I,WQKTR(1),WQTDKR(M,I) = 364 1 1.0240 1.7858 M,I,WQKTR(1),WQTDKR(M,I) = 364 2 1.0240 1.7858 M,I,WQKTR(1),WQTDKR(M,I) = 364 3 1.0240 1.7858 M,I,WQKTR(1),WQTDKR(M,I) = 364 4 1.0240 1.7858 M,I,WQKTR(1),WQTDKR(M,I) = 365 1 1.0240 1.7922 M,I,WQKTR(1),WQTDKR(M,I) = 365 2 1.0240 1.7922 M,I,WQKTR(1),WQTDKR(M,I) = 365 3 1.0240 1.7922 M,I,WQKTR(1),WQTDKR(M,I) = 365 4 1.0240 1.7922 M,I,WQKTR(1),WQTDKR(M,I) = 366 1 1.0240 1.7986 M,I,WQKTR(1),WQTDKR(M,I) = 366 2 1.0240 1.7986 M,I,WQKTR(1),WQTDKR(M,I) = 366 3 1.0240 1.7986 M,I,WQKTR(1),WQTDKR(M,I) = 366 4 1.0240 1.7986 M,I,WQKTR(1),WQTDKR(M,I) = 367 1 1.0240 1.8050 M,I,WQKTR(1),WQTDKR(M,I) = 367 2 1.0240 1.8050 M,I,WQKTR(1),WQTDKR(M,I) = 367 3 1.0240 1.8050 M,I,WQKTR(1),WQTDKR(M,I) = 367 4 1.0240 1.8050 M,I,WQKTR(1),WQTDKR(M,I) = 368 1 1.0240 1.8114 M,I,WQKTR(1),WQTDKR(M,I) = 368 2 1.0240 1.8114 M,I,WQKTR(1),WQTDKR(M,I) = 368 3 1.0240 1.8114 M,I,WQKTR(1),WQTDKR(M,I) = 368 4 1.0240 1.8114 M,I,WQKTR(1),WQTDKR(M,I) = 369 1 1.0240 1.8179 M,I,WQKTR(1),WQTDKR(M,I) = 369 2 1.0240 1.8179 M,I,WQKTR(1),WQTDKR(M,I) = 369 3 1.0240 1.8179 M,I,WQKTR(1),WQTDKR(M,I) = 369 4 1.0240 1.8179 M,I,WQKTR(1),WQTDKR(M,I) = 370 1 1.0240 1.8243 M,I,WQKTR(1),WQTDKR(M,I) = 370 2 1.0240 1.8243 M,I,WQKTR(1),WQTDKR(M,I) = 370 3 1.0240 1.8243 M,I,WQKTR(1),WQTDKR(M,I) = 370 4 1.0240 1.8243 M,I,WQKTR(1),WQTDKR(M,I) = 371 1 1.0240 1.8308 M,I,WQKTR(1),WQTDKR(M,I) = 371 2 1.0240 1.8308 M,I,WQKTR(1),WQTDKR(M,I) = 371 3 1.0240 1.8308 M,I,WQKTR(1),WQTDKR(M,I) = 371 4 1.0240 1.8308 M,I,WQKTR(1),WQTDKR(M,I) = 372 1 1.0240 1.8374 M,I,WQKTR(1),WQTDKR(M,I) = 372 2 1.0240 1.8374 M,I,WQKTR(1),WQTDKR(M,I) = 372 3 1.0240 1.8374 M,I,WQKTR(1),WQTDKR(M,I) = 372 4 1.0240 1.8374 M,I,WQKTR(1),WQTDKR(M,I) = 373 1 1.0240 1.8439 M,I,WQKTR(1),WQTDKR(M,I) = 373 2 1.0240 1.8439 M,I,WQKTR(1),WQTDKR(M,I) = 373 3 1.0240 1.8439 M,I,WQKTR(1),WQTDKR(M,I) = 373 4 1.0240 1.8439 M,I,WQKTR(1),WQTDKR(M,I) = 374 1 1.0240 1.8505 M,I,WQKTR(1),WQTDKR(M,I) = 374 2 1.0240 1.8505 M,I,WQKTR(1),WQTDKR(M,I) = 374 3 1.0240 1.8505 M,I,WQKTR(1),WQTDKR(M,I) = 374 4 1.0240 1.8505 M,I,WQKTR(1),WQTDKR(M,I) = 375 1 1.0240 1.8571 M,I,WQKTR(1),WQTDKR(M,I) = 375 2 1.0240 1.8571 M,I,WQKTR(1),WQTDKR(M,I) = 375 3 1.0240 1.8571 M,I,WQKTR(1),WQTDKR(M,I) = 375 4 1.0240 1.8571 M,I,WQKTR(1),WQTDKR(M,I) = 376 1 1.0240 1.8637 M,I,WQKTR(1),WQTDKR(M,I) = 376 2 1.0240 1.8637 M,I,WQKTR(1),WQTDKR(M,I) = 376 3 1.0240 1.8637 M,I,WQKTR(1),WQTDKR(M,I) = 376 4 1.0240 1.8637 M,I,WQKTR(1),WQTDKR(M,I) = 377 1 1.0240 1.8703 M,I,WQKTR(1),WQTDKR(M,I) = 377 2 1.0240 1.8703 M,I,WQKTR(1),WQTDKR(M,I) = 377 3 1.0240 1.8703 M,I,WQKTR(1),WQTDKR(M,I) = 377 4 1.0240 1.8703 M,I,WQKTR(1),WQTDKR(M,I) = 378 1 1.0240 1.8770 M,I,WQKTR(1),WQTDKR(M,I) = 378 2 1.0240 1.8770 M,I,WQKTR(1),WQTDKR(M,I) = 378 3 1.0240 1.8770 M,I,WQKTR(1),WQTDKR(M,I) = 378 4 1.0240 1.8770 M,I,WQKTR(1),WQTDKR(M,I) = 379 1 1.0240 1.8837 M,I,WQKTR(1),WQTDKR(M,I) = 379 2 1.0240 1.8837 M,I,WQKTR(1),WQTDKR(M,I) = 379 3 1.0240 1.8837 M,I,WQKTR(1),WQTDKR(M,I) = 379 4 1.0240 1.8837 M,I,WQKTR(1),WQTDKR(M,I) = 380 1 1.0240 1.8904 M,I,WQKTR(1),WQTDKR(M,I) = 380 2 1.0240 1.8904 M,I,WQKTR(1),WQTDKR(M,I) = 380 3 1.0240 1.8904 M,I,WQKTR(1),WQTDKR(M,I) = 380 4 1.0240 1.8904 M,I,WQKTR(1),WQTDKR(M,I) = 381 1 1.0240 1.8971 M,I,WQKTR(1),WQTDKR(M,I) = 381 2 1.0240 1.8971 M,I,WQKTR(1),WQTDKR(M,I) = 381 3 1.0240 1.8971 M,I,WQKTR(1),WQTDKR(M,I) = 381 4 1.0240 1.8971 M,I,WQKTR(1),WQTDKR(M,I) = 382 1 1.0240 1.9039 M,I,WQKTR(1),WQTDKR(M,I) = 382 2 1.0240 1.9039 M,I,WQKTR(1),WQTDKR(M,I) = 382 3 1.0240 1.9039 M,I,WQKTR(1),WQTDKR(M,I) = 382 4 1.0240 1.9039 M,I,WQKTR(1),WQTDKR(M,I) = 383 1 1.0240 1.9107 M,I,WQKTR(1),WQTDKR(M,I) = 383 2 1.0240 1.9107 M,I,WQKTR(1),WQTDKR(M,I) = 383 3 1.0240 1.9107 M,I,WQKTR(1),WQTDKR(M,I) = 383 4 1.0240 1.9107 M,I,WQKTR(1),WQTDKR(M,I) = 384 1 1.0240 1.9175 M,I,WQKTR(1),WQTDKR(M,I) = 384 2 1.0240 1.9175 M,I,WQKTR(1),WQTDKR(M,I) = 384 3 1.0240 1.9175 M,I,WQKTR(1),WQTDKR(M,I) = 384 4 1.0240 1.9175 M,I,WQKTR(1),WQTDKR(M,I) = 385 1 1.0240 1.9243 M,I,WQKTR(1),WQTDKR(M,I) = 385 2 1.0240 1.9243 M,I,WQKTR(1),WQTDKR(M,I) = 385 3 1.0240 1.9243 M,I,WQKTR(1),WQTDKR(M,I) = 385 4 1.0240 1.9243 M,I,WQKTR(1),WQTDKR(M,I) = 386 1 1.0240 1.9312 M,I,WQKTR(1),WQTDKR(M,I) = 386 2 1.0240 1.9312 M,I,WQKTR(1),WQTDKR(M,I) = 386 3 1.0240 1.9312 M,I,WQKTR(1),WQTDKR(M,I) = 386 4 1.0240 1.9312 M,I,WQKTR(1),WQTDKR(M,I) = 387 1 1.0240 1.9381 M,I,WQKTR(1),WQTDKR(M,I) = 387 2 1.0240 1.9381 M,I,WQKTR(1),WQTDKR(M,I) = 387 3 1.0240 1.9381 M,I,WQKTR(1),WQTDKR(M,I) = 387 4 1.0240 1.9381 M,I,WQKTR(1),WQTDKR(M,I) = 388 1 1.0240 1.9450 M,I,WQKTR(1),WQTDKR(M,I) = 388 2 1.0240 1.9450 M,I,WQKTR(1),WQTDKR(M,I) = 388 3 1.0240 1.9450 M,I,WQKTR(1),WQTDKR(M,I) = 388 4 1.0240 1.9450 M,I,WQKTR(1),WQTDKR(M,I) = 389 1 1.0240 1.9519 M,I,WQKTR(1),WQTDKR(M,I) = 389 2 1.0240 1.9519 M,I,WQKTR(1),WQTDKR(M,I) = 389 3 1.0240 1.9519 M,I,WQKTR(1),WQTDKR(M,I) = 389 4 1.0240 1.9519 M,I,WQKTR(1),WQTDKR(M,I) = 390 1 1.0240 1.9589 M,I,WQKTR(1),WQTDKR(M,I) = 390 2 1.0240 1.9589 M,I,WQKTR(1),WQTDKR(M,I) = 390 3 1.0240 1.9589 M,I,WQKTR(1),WQTDKR(M,I) = 390 4 1.0240 1.9589 M,I,WQKTR(1),WQTDKR(M,I) = 391 1 1.0240 1.9659 M,I,WQKTR(1),WQTDKR(M,I) = 391 2 1.0240 1.9659 M,I,WQKTR(1),WQTDKR(M,I) = 391 3 1.0240 1.9659 M,I,WQKTR(1),WQTDKR(M,I) = 391 4 1.0240 1.9659 M,I,WQKTR(1),WQTDKR(M,I) = 392 1 1.0240 1.9729 M,I,WQKTR(1),WQTDKR(M,I) = 392 2 1.0240 1.9729 M,I,WQKTR(1),WQTDKR(M,I) = 392 3 1.0240 1.9729 M,I,WQKTR(1),WQTDKR(M,I) = 392 4 1.0240 1.9729 M,I,WQKTR(1),WQTDKR(M,I) = 393 1 1.0240 1.9799 M,I,WQKTR(1),WQTDKR(M,I) = 393 2 1.0240 1.9799 M,I,WQKTR(1),WQTDKR(M,I) = 393 3 1.0240 1.9799 M,I,WQKTR(1),WQTDKR(M,I) = 393 4 1.0240 1.9799 M,I,WQKTR(1),WQTDKR(M,I) = 394 1 1.0240 1.9869 M,I,WQKTR(1),WQTDKR(M,I) = 394 2 1.0240 1.9869 M,I,WQKTR(1),WQTDKR(M,I) = 394 3 1.0240 1.9869 M,I,WQKTR(1),WQTDKR(M,I) = 394 4 1.0240 1.9869 M,I,WQKTR(1),WQTDKR(M,I) = 395 1 1.0240 1.9940 M,I,WQKTR(1),WQTDKR(M,I) = 395 2 1.0240 1.9940 M,I,WQKTR(1),WQTDKR(M,I) = 395 3 1.0240 1.9940 M,I,WQKTR(1),WQTDKR(M,I) = 395 4 1.0240 1.9940 M,I,WQKTR(1),WQTDKR(M,I) = 396 1 1.0240 2.0011 M,I,WQKTR(1),WQTDKR(M,I) = 396 2 1.0240 2.0011 M,I,WQKTR(1),WQTDKR(M,I) = 396 3 1.0240 2.0011 M,I,WQKTR(1),WQTDKR(M,I) = 396 4 1.0240 2.0011 M,I,WQKTR(1),WQTDKR(M,I) = 397 1 1.0240 2.0083 M,I,WQKTR(1),WQTDKR(M,I) = 397 2 1.0240 2.0083 M,I,WQKTR(1),WQTDKR(M,I) = 397 3 1.0240 2.0083 M,I,WQKTR(1),WQTDKR(M,I) = 397 4 1.0240 2.0083 M,I,WQKTR(1),WQTDKR(M,I) = 398 1 1.0240 2.0154 M,I,WQKTR(1),WQTDKR(M,I) = 398 2 1.0240 2.0154 M,I,WQKTR(1),WQTDKR(M,I) = 398 3 1.0240 2.0154 M,I,WQKTR(1),WQTDKR(M,I) = 398 4 1.0240 2.0154 M,I,WQKTR(1),WQTDKR(M,I) = 399 1 1.0240 2.0226 M,I,WQKTR(1),WQTDKR(M,I) = 399 2 1.0240 2.0226 M,I,WQKTR(1),WQTDKR(M,I) = 399 3 1.0240 2.0226 M,I,WQKTR(1),WQTDKR(M,I) = 399 4 1.0240 2.0226 M,I,WQKTR(1),WQTDKR(M,I) = 400 1 1.0240 2.0298 M,I,WQKTR(1),WQTDKR(M,I) = 400 2 1.0240 2.0298 M,I,WQKTR(1),WQTDKR(M,I) = 400 3 1.0240 2.0298 M,I,WQKTR(1),WQTDKR(M,I) = 400 4 1.0240 2.0298 C ** WQ Kinetic Zones, , DDD 2011-05-18 ¿ÀÀü 10:43:00 C ** C ** L I J L IWQZMAP 2199 3 324 1 3 2493 3 325 1 3 2762 3 326 1 3 1914 4 323 1 3 2200 4 324 1 3 2494 4 325 1 3 2763 4 326 1 3 2904 4 327 1 3 2925 4 328 1 3 789 5 316 1 3 793 5 317 1 3 797 5 318 1 3 873 5 319 1 3 1062 5 320 1 3 1345 5 321 1 3 1633 5 322 1 3 1915 5 323 1 3 2201 5 324 1 3 2495 5 325 1 3 2764 5 326 1 3 2905 5 327 1 3 2926 5 328 1 3 3065 5 329 1 3 874 6 319 1 3 1063 6 320 1 3 1346 6 321 1 3 1634 6 322 1 3 2202 6 324 1 3 2496 6 325 1 3 2765 6 326 1 3 2906 6 327 1 3 2927 6 328 1 3 3066 6 329 1 3 3204 6 330 1 3 1347 7 321 1 3 2203 7 324 1 3 2497 7 325 1 3 2766 7 326 1 3 2907 7 327 1 3 2928 7 328 1 3 3067 7 329 1 3 3205 7 330 1 3 3242 7 331 1 3 3254 7 332 1 3 3259 7 333 1 3 3264 7 334 1 3 3269 7 335 1 3 3275 7 336 1 3 3282 7 337 1 3 3286 7 338 1 3 3290 7 339 1 3 3294 7 340 1 3 3298 7 341 1 3 1348 8 321 1 3 2204 8 324 1 3 2498 8 325 1 3 2767 8 326 1 3 2908 8 327 1 3 2929 8 328 1 3 3068 8 329 1 3 3206 8 330 1 3 3243 8 331 1 3 3255 8 332 1 3 3260 8 333 1 3 3265 8 334 1 3 3270 8 335 1 3 3276 8 336 1 3 3283 8 337 1 3 3287 8 338 1 3 3291 8 339 1 3 3295 8 340 1 3 3299 8 341 1 3 2205 9 324 1 3 2499 9 325 1 3 2768 9 326 1 3 2909 9 327 1 3 2930 9 328 1 3 3069 9 329 1 3 3207 9 330 1 3 3244 9 331 1 3 3256 9 332 1 3 3261 9 333 1 3 3266 9 334 1 3 3271 9 335 1 3 3277 9 336 1 3 3284 9 337 1 3 3288 9 338 1 3 3292 9 339 1 3 3296 9 340 1 3 3300 9 341 1 3 2206 10 324 1 3 2500 10 325 1 3 2769 10 326 1 3 2910 10 327 1 3 2931 10 328 1 3 3070 10 329 1 3 3208 10 330 1 3 3245 10 331 1 3 3257 10 332 1 3 3262 10 333 1 3 3267 10 334 1 3 3272 10 335 1 3 3278 10 336 1 3 3285 10 337 1 3 3289 10 338 1 3 3293 10 339 1 3 3297 10 340 1 3 3301 10 341 1 3 2207 11 324 1 3 2501 11 325 1 3 2770 11 326 1 3 2911 11 327 1 3 2932 11 328 1 3 3071 11 329 1 3 3209 11 330 1 3 3246 11 331 1 3 3258 11 332 1 3 3263 11 333 1 3 3268 11 334 1 3 3273 11 335 1 3 3279 11 336 1 3 1916 12 323 1 3 2208 12 324 1 3 2502 12 325 1 3 2771 12 326 1 3 3210 12 330 1 3 3274 12 335 1 3 3280 12 336 1 3 1917 13 323 1 3 2209 13 324 1 3 2503 13 325 1 3 2772 13 326 1 3 3281 13 336 1 3 2210 14 324 1 3 2504 14 325 1 3 2773 14 326 1 3 2211 15 324 1 3 2505 15 325 1 3 2774 15 326 1 3 2912 15 327 1 3 2933 15 328 1 3 3072 15 329 1 3 2212 16 324 1 3 2506 16 325 1 3 2775 16 326 1 3 2913 16 327 1 3 2934 16 328 1 3 3073 16 329 1 3 3211 16 330 1 3 2213 17 324 1 3 2507 17 325 1 3 2776 17 326 1 3 2914 17 327 1 3 2935 17 328 1 3 3074 17 329 1 3 3212 17 330 1 3 2214 18 324 1 3 2508 18 325 1 3 2777 18 326 1 3 2915 18 327 1 3 2936 18 328 1 3 3075 18 329 1 3 3213 18 330 1 3 2215 19 324 1 3 2509 19 325 1 3 2778 19 326 1 3 2916 19 327 1 3 2937 19 328 1 3 3076 19 329 1 3 3214 19 330 1 3 2216 20 324 1 3 2510 20 325 1 3 2779 20 326 1 3 2917 20 327 1 3 2938 20 328 1 3 3077 20 329 1 3 3215 20 330 1 3 3247 20 331 1 3 2217 21 324 1 3 2511 21 325 1 3 2780 21 326 1 3 2939 21 328 1 3 3078 21 329 1 3 3216 21 330 1 3 2218 22 324 1 3 2512 22 325 1 3 2781 22 326 1 3 2940 22 328 1 3 3079 22 329 1 3 3217 22 330 1 3 2219 23 324 1 3 2513 23 325 1 3 2782 23 326 1 3 2941 23 328 1 3 3080 23 329 1 3 3218 23 330 1 3 2220 24 324 1 3 2514 24 325 1 3 2783 24 326 1 3 2942 24 328 1 3 3081 24 329 1 3 3219 24 330 1 3 2221 25 324 1 2 2515 25 325 1 2 2784 25 326 1 2 2943 25 328 1 4 3082 25 329 1 4 3220 25 330 1 4 3248 25 331 1 4 2222 26 324 1 2 2516 26 325 1 2 2785 26 326 1 2 2944 26 328 1 4 3083 26 329 1 4 3221 26 330 1 4 3249 26 331 1 4 2223 27 324 1 2 2517 27 325 1 2 2786 27 326 1 2 2945 27 328 1 4 3084 27 329 1 4 3222 27 330 1 4 3250 27 331 1 4 2224 28 324 1 2 2518 28 325 1 2 2787 28 326 1 2 2946 28 328 1 4 3085 28 329 1 4 3223 28 330 1 4 3251 28 331 1 4 2225 29 324 1 2 2519 29 325 1 2 2947 29 328 1 4 3086 29 329 1 4 3224 29 330 1 4 3252 29 331 1 4 2226 30 324 1 2 2520 30 325 1 2 2948 30 328 1 4 3087 30 329 1 4 3225 30 330 1 4 2227 31 324 1 2 2521 31 325 1 2 2949 31 328 1 4 3088 31 329 1 4 3226 31 330 1 4 2228 32 324 1 2 2522 32 325 1 2 2950 32 328 1 4 3089 32 329 1 4 3227 32 330 1 4 3253 32 331 1 4 2229 33 324 1 2 2523 33 325 1 2 2951 33 328 1 4 3090 33 329 1 4 3228 33 330 1 4 2230 34 324 1 2 2524 34 325 1 2 2952 34 328 1 4 3091 34 329 1 4 3229 34 330 1 4 2231 35 324 1 2 2525 35 325 1 2 2953 35 328 1 4 3092 35 329 1 4 3230 35 330 1 4 2232 36 324 1 2 2526 36 325 1 2 2954 36 328 1 4 3093 36 329 1 4 3231 36 330 1 4 2233 37 324 1 2 2527 37 325 1 2 2955 37 328 1 4 3094 37 329 1 4 3232 37 330 1 4 2234 38 324 1 2 2528 38 325 1 2 2956 38 328 1 4 3095 38 329 1 4 3233 38 330 1 4 2235 39 324 1 2 2529 39 325 1 2 2957 39 328 1 4 3096 39 329 1 4 3234 39 330 1 4 2236 40 324 1 2 2530 40 325 1 2 2958 40 328 1 4 3097 40 329 1 4 3235 40 330 1 4 2237 41 324 1 2 2531 41 325 1 2 2959 41 328 1 4 3098 41 329 1 4 2238 42 324 1 2 2532 42 325 1 2 2960 42 328 1 4 3099 42 329 1 4 2239 43 324 1 2 2533 43 325 1 2 2961 43 328 1 4 3100 43 329 1 4 2240 44 324 1 2 2534 44 325 1 2 2962 44 328 1 4 3101 44 329 1 4 2241 45 324 1 2 2535 45 325 1 2 2788 45 326 1 2 2963 45 328 1 4 3102 45 329 1 4 2242 46 324 1 2 2536 46 325 1 2 2789 46 326 1 2 2964 46 328 1 4 3103 46 329 1 4 2243 47 324 1 2 2537 47 325 1 2 2790 47 326 1 2 2965 47 328 1 4 3104 47 329 1 4 2244 48 324 1 2 2538 48 325 1 2 2791 48 326 1 2 2966 48 328 1 4 3105 48 329 1 4 2245 49 324 1 2 2539 49 325 1 2 2792 49 326 1 2 2967 49 328 1 4 3106 49 329 1 4 2246 50 324 1 2 2540 50 325 1 2 2793 50 326 1 2 2968 50 328 1 4 3107 50 329 1 4 2247 51 324 1 2 2541 51 325 1 2 2794 51 326 1 2 2969 51 328 1 4 3108 51 329 1 4 2248 52 324 1 2 2542 52 325 1 2 2795 52 326 1 2 2970 52 328 1 4 3109 52 329 1 4 2249 53 324 1 2 2543 53 325 1 2 2796 53 326 1 2 2971 53 328 1 4 3110 53 329 1 4 2250 54 324 1 2 2544 54 325 1 2 2797 54 326 1 2 2972 54 328 1 4 3111 54 329 1 4 2251 55 324 1 2 2545 55 325 1 2 2798 55 326 1 2 2973 55 328 1 4 3112 55 329 1 4 2252 56 324 1 2 2546 56 325 1 2 2799 56 326 1 2 2974 56 328 1 4 3113 56 329 1 4 2253 57 324 1 2 2547 57 325 1 2 2800 57 326 1 2 2975 57 328 1 4 3114 57 329 1 4 2254 58 324 1 2 2548 58 325 1 2 2801 58 326 1 2 2976 58 328 1 4 3115 58 329 1 4 2255 59 324 1 2 2549 59 325 1 2 2802 59 326 1 2 2977 59 328 1 4 3116 59 329 1 4 2256 60 324 1 2 2550 60 325 1 2 2803 60 326 1 2 2978 60 328 1 4 3117 60 329 1 4 2257 61 324 1 2 2551 61 325 1 2 2804 61 326 1 2 2979 61 328 1 4 3118 61 329 1 4 2258 62 324 1 2 2552 62 325 1 2 2805 62 326 1 2 2980 62 328 1 4 3119 62 329 1 4 2259 63 324 1 2 2553 63 325 1 2 2806 63 326 1 2 2981 63 328 1 4 3120 63 329 1 4 2260 64 324 1 2 2554 64 325 1 2 2807 64 326 1 2 2982 64 328 1 4 3121 64 329 1 4 2261 65 324 1 2 2555 65 325 1 2 2808 65 326 1 2 2983 65 328 1 4 3122 65 329 1 4 2262 66 324 1 2 2556 66 325 1 2 2809 66 326 1 2 2984 66 328 1 4 3123 66 329 1 4 2263 67 324 1 2 2557 67 325 1 2 2810 67 326 1 2 2985 67 328 1 4 3124 67 329 1 4 2264 68 324 1 2 2558 68 325 1 2 2986 68 328 1 4 3125 68 329 1 4 2265 69 324 1 2 2559 69 325 1 2 2987 69 328 1 4 3126 69 329 1 4 2266 70 324 1 2 2560 70 325 1 2 2988 70 328 1 4 3127 70 329 1 4 2267 71 324 1 2 2561 71 325 1 2 2989 71 328 1 4 3128 71 329 1 4 2268 72 324 1 2 2562 72 325 1 2 2990 72 328 1 4 3129 72 329 1 4 2269 73 324 1 2 2563 73 325 1 2 2991 73 328 1 4 3130 73 329 1 4 2270 74 324 1 2 2564 74 325 1 2 2992 74 328 1 4 3131 74 329 1 4 2271 75 324 1 2 2565 75 325 1 2 2993 75 328 1 4 3132 75 329 1 4 2272 76 324 1 2 2566 76 325 1 2 2994 76 328 1 4 3133 76 329 1 4 2273 77 324 1 2 2567 77 325 1 2 2995 77 328 1 4 3134 77 329 1 4 2274 78 324 1 2 2568 78 325 1 2 2996 78 328 1 4 3135 78 329 1 4 2275 79 324 1 2 2569 79 325 1 2 2997 79 328 1 4 3136 79 329 1 4 2276 80 324 1 2 2570 80 325 1 2 2998 80 328 1 4 3137 80 329 1 4 2277 81 324 1 2 2571 81 325 1 2 2999 81 328 1 4 3138 81 329 1 4 2278 82 324 1 2 2572 82 325 1 2 3000 82 328 1 4 3139 82 329 1 4 2279 83 324 1 2 2573 83 325 1 2 3001 83 328 1 4 3140 83 329 1 4 2280 84 324 1 2 2574 84 325 1 2 3002 84 328 1 4 3141 84 329 1 4 2281 85 324 1 2 2575 85 325 1 2 3003 85 328 1 4 3142 85 329 1 4 2282 86 324 1 2 2576 86 325 1 2 3004 86 328 1 4 3143 86 329 1 4 2283 87 324 1 2 2577 87 325 1 2 3005 87 328 1 4 3144 87 329 1 4 2284 88 324 1 2 2578 88 325 1 2 3006 88 328 1 4 3145 88 329 1 4 2285 89 324 1 2 2579 89 325 1 2 3007 89 328 1 4 3146 89 329 1 4 2286 90 324 1 2 2580 90 325 1 2 3008 90 328 1 4 3147 90 329 1 4 2287 91 324 1 2 2581 91 325 1 2 3009 91 328 1 4 3148 91 329 1 4 2288 92 324 1 2 2582 92 325 1 2 3010 92 328 1 4 3149 92 329 1 4 2289 93 324 1 2 2583 93 325 1 2 3011 93 328 1 4 3150 93 329 1 4 2290 94 324 1 2 2584 94 325 1 2 3012 94 328 1 4 3151 94 329 1 4 2291 95 324 1 2 2585 95 325 1 2 3013 95 328 1 4 3152 95 329 1 4 2292 96 324 1 2 2586 96 325 1 2 3014 96 328 1 4 3153 96 329 1 4 2293 97 324 1 2 2587 97 325 1 2 3015 97 328 1 4 3154 97 329 1 4 2294 98 324 1 2 2588 98 325 1 2 3016 98 328 1 4 3155 98 329 1 4 2295 99 324 1 2 2589 99 325 1 2 3017 99 328 1 4 3156 99 329 1 4 2296 100 324 1 2 2590 100 325 1 2 3018 100 328 1 4 3157 100 329 1 4 2297 101 324 1 2 2591 101 325 1 2 3019 101 328 1 4 3158 101 329 1 4 2298 102 324 1 2 2592 102 325 1 2 3020 102 328 1 4 3159 102 329 1 4 2299 103 324 1 2 2593 103 325 1 2 3021 103 328 1 4 3160 103 329 1 4 2300 104 324 1 2 2594 104 325 1 2 3022 104 328 1 4 3161 104 329 1 4 2301 105 324 1 2 2595 105 325 1 2 3023 105 328 1 4 3162 105 329 1 4 2302 106 324 1 2 2596 106 325 1 2 3024 106 328 1 4 3163 106 329 1 4 2303 107 324 1 2 2597 107 325 1 2 3025 107 328 1 4 3164 107 329 1 4 2304 108 324 1 2 2598 108 325 1 2 3026 108 328 1 4 3165 108 329 1 4 2305 109 324 1 2 2599 109 325 1 2 3027 109 328 1 4 3166 109 329 1 4 2306 110 324 1 2 2600 110 325 1 2 3028 110 328 1 4 3167 110 329 1 4 2307 111 324 1 2 2601 111 325 1 2 2811 111 326 1 2 3029 111 328 1 4 3168 111 329 1 4 2308 112 324 1 2 2602 112 325 1 2 2812 112 326 1 2 3030 112 328 1 4 3169 112 329 1 4 2309 113 324 1 2 2603 113 325 1 2 2813 113 326 1 2 3031 113 328 1 4 3170 113 329 1 4 2310 114 324 1 2 2604 114 325 1 2 2814 114 326 1 2 3032 114 328 1 4 3171 114 329 1 4 2311 115 324 1 2 2605 115 325 1 2 2815 115 326 1 2 3033 115 328 1 4 3172 115 329 1 4 2312 116 324 1 2 2606 116 325 1 2 2816 116 326 1 2 3034 116 328 1 4 3173 116 329 1 4 2313 117 324 1 2 2607 117 325 1 2 2817 117 326 1 2 3035 117 328 1 4 3174 117 329 1 4 2314 118 324 1 2 2608 118 325 1 2 2818 118 326 1 2 3036 118 328 1 4 3175 118 329 1 4 2315 119 324 1 2 2609 119 325 1 2 2819 119 326 1 2 3037 119 328 1 4 3176 119 329 1 4 2316 120 324 1 2 2610 120 325 1 2 2820 120 326 1 2 3038 120 328 1 4 3177 120 329 1 4 2317 121 324 1 2 2611 121 325 1 2 2821 121 326 1 2 3039 121 328 1 4 3178 121 329 1 4 2318 122 324 1 2 2612 122 325 1 2 2822 122 326 1 2 3040 122 328 1 4 3179 122 329 1 4 2319 123 324 1 2 2613 123 325 1 2 2823 123 326 1 2 3041 123 328 1 4 3180 123 329 1 4 2320 124 324 1 2 2614 124 325 1 2 2824 124 326 1 2 3042 124 328 1 4 3181 124 329 1 4 2321 125 324 1 2 2615 125 325 1 2 2825 125 326 1 2 3043 125 328 1 4 3182 125 329 1 4 2322 126 324 1 2 2616 126 325 1 2 2826 126 326 1 2 3044 126 328 1 4 3183 126 329 1 4 2323 127 324 1 2 2617 127 325 1 2 2827 127 326 1 2 3045 127 328 1 4 3184 127 329 1 4 2324 128 324 1 2 2618 128 325 1 2 2828 128 326 1 2 3046 128 328 1 4 3185 128 329 1 4 2325 129 324 1 2 2619 129 325 1 2 2829 129 326 1 2 3047 129 328 1 4 3186 129 329 1 4 2326 130 324 1 2 2620 130 325 1 2 2830 130 326 1 2 3048 130 328 1 4 3187 130 329 1 4 2327 131 324 1 2 2621 131 325 1 2 2831 131 326 1 2 3049 131 328 1 4 3188 131 329 1 4 1918 132 323 1 2 2328 132 324 1 2 2622 132 325 1 2 2832 132 326 1 2 3050 132 328 1 4 3189 132 329 1 4 1919 133 323 1 2 2329 133 324 1 2 2623 133 325 1 2 2833 133 326 1 2 3051 133 328 1 4 3190 133 329 1 4 1920 134 323 1 2 2330 134 324 1 2 2624 134 325 1 2 2834 134 326 1 2 3052 134 328 1 4 3191 134 329 1 4 1635 135 322 1 2 1921 135 323 1 2 2331 135 324 1 2 2625 135 325 1 2 2835 135 326 1 2 3053 135 328 1 4 3192 135 329 1 4 1636 136 322 1 2 1922 136 323 1 2 2332 136 324 1 2 2626 136 325 1 2 2836 136 326 1 2 3054 136 328 1 4 3193 136 329 1 4 1637 137 322 1 2 1923 137 323 1 2 2333 137 324 1 2 2627 137 325 1 2 2837 137 326 1 2 3055 137 328 1 4 3194 137 329 1 4 1638 138 322 1 2 1924 138 323 1 2 2334 138 324 1 2 2628 138 325 1 2 2838 138 326 1 2 3056 138 328 1 4 3195 138 329 1 4 1639 139 322 1 2 1925 139 323 1 2 2335 139 324 1 2 2629 139 325 1 2 2839 139 326 1 2 3057 139 328 1 4 3196 139 329 1 4 1640 140 322 1 2 1926 140 323 1 2 2336 140 324 1 2 2630 140 325 1 2 2840 140 326 1 2 3058 140 328 1 4 3197 140 329 1 4 1641 141 322 1 2 1927 141 323 1 2 2337 141 324 1 2 2631 141 325 1 2 2841 141 326 1 2 3059 141 328 1 4 3198 141 329 1 4 3236 141 330 1 4 1642 142 322 1 2 1928 142 323 1 2 2338 142 324 1 2 2632 142 325 1 2 2842 142 326 1 2 3060 142 328 1 4 3199 142 329 1 4 3237 142 330 1 4 1643 143 322 1 2 1929 143 323 1 2 2339 143 324 1 2 2633 143 325 1 2 2843 143 326 1 2 3061 143 328 1 4 3200 143 329 1 4 3238 143 330 1 4 1644 144 322 1 2 1930 144 323 1 2 2340 144 324 1 2 2634 144 325 1 2 2844 144 326 1 2 3062 144 328 1 4 3201 144 329 1 4 3239 144 330 1 4 1645 145 322 1 2 1931 145 323 1 2 2341 145 324 1 2 2635 145 325 1 2 2845 145 326 1 2 3063 145 328 1 4 3202 145 329 1 4 3240 145 330 1 4 1646 146 322 1 2 1932 146 323 1 2 2342 146 324 1 2 2636 146 325 1 2 2846 146 326 1 2 3064 146 328 1 4 3203 146 329 1 4 3241 146 330 1 4 1647 147 322 1 2 1933 147 323 1 2 2343 147 324 1 2 2637 147 325 1 2 2847 147 326 1 2 1648 148 322 1 2 1934 148 323 1 2 2344 148 324 1 2 2638 148 325 1 2 2848 148 326 1 2 1349 149 321 1 2 1649 149 322 1 2 1935 149 323 1 2 2345 149 324 1 2 2639 149 325 1 2 2849 149 326 1 2 1350 150 321 1 2 1650 150 322 1 2 1936 150 323 1 2 2346 150 324 1 2 2640 150 325 1 2 2850 150 326 1 2 1351 151 321 1 2 1651 151 322 1 2 1937 151 323 1 2 2347 151 324 1 2 2641 151 325 1 2 2851 151 326 1 2 1352 152 321 1 2 1652 152 322 1 2 1938 152 323 1 2 2348 152 324 1 2 2642 152 325 1 2 2852 152 326 1 2 1064 153 320 1 2 1353 153 321 1 2 1653 153 322 1 2 1939 153 323 1 2 2349 153 324 1 2 2643 153 325 1 2 2853 153 326 1 2 1065 154 320 1 2 1354 154 321 1 2 1654 154 322 1 2 1940 154 323 1 2 2350 154 324 1 2 2644 154 325 1 2 2854 154 326 1 2 1066 155 320 1 2 1355 155 321 1 2 1655 155 322 1 2 1941 155 323 1 2 2351 155 324 1 2 2645 155 325 1 2 2855 155 326 1 2 1067 156 320 1 2 1356 156 321 1 2 1656 156 322 1 2 1942 156 323 1 2 2352 156 324 1 2 2646 156 325 1 2 2856 156 326 1 2 1068 157 320 1 2 1357 157 321 1 2 1657 157 322 1 2 1943 157 323 1 2 2353 157 324 1 2 2647 157 325 1 2 2857 157 326 1 2 1069 158 320 1 2 1358 158 321 1 2 1658 158 322 1 2 1944 158 323 1 2 2354 158 324 1 2 2648 158 325 1 2 2858 158 326 1 2 1070 159 320 1 2 1359 159 321 1 2 1659 159 322 1 2 1945 159 323 1 2 2355 159 324 1 2 2649 159 325 1 2 2859 159 326 1 2 1071 160 320 1 2 1360 160 321 1 2 1660 160 322 1 2 1946 160 323 1 2 2356 160 324 1 2 2650 160 325 1 2 2860 160 326 1 2 875 161 319 1 2 1072 161 320 1 2 1361 161 321 1 2 1661 161 322 1 2 1947 161 323 1 2 2357 161 324 1 2 2651 161 325 1 2 2861 161 326 1 2 876 162 319 1 2 1073 162 320 1 2 1362 162 321 1 2 1662 162 322 1 2 1948 162 323 1 2 2358 162 324 1 2 2652 162 325 1 2 2862 162 326 1 2 877 163 319 1 2 1074 163 320 1 2 1363 163 321 1 2 1663 163 322 1 2 1949 163 323 1 2 2359 163 324 1 2 2653 163 325 1 2 2863 163 326 1 2 878 164 319 1 2 1075 164 320 1 2 1364 164 321 1 2 1664 164 322 1 2 1950 164 323 1 2 2360 164 324 1 2 2654 164 325 1 2 2864 164 326 1 2 879 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