Mplus VERSION 6
MUTHEN & MUTHEN
04/25/2010 10:58 PM
INPUT INSTRUCTIONS
TITLE:
penn2
2-class no covariates invariant Psi invariant Theta
DATA: FILE IS lsay.dat;
FORMAT is 3f8 f8.4 8f8.2 3f8 2f8.2;
VARIABLE: NAMES ARE cohort id school weight math7 math8 math9 math10
att7 att8 att9 att10 gender mothed homeres;
USEOBS = (gender EQ 1 AND cohort EQ 2);
MISSING = ALL (999);
USEVAR = math7-math10 ;
classes = c(2);
ANALYSIS: TYPE = mixture;
MODEL:
%overall%
intercpt BY math7-math10 @1;
slope BY math8@1 math9@2.5 math10@3.5;
[math7-math10@0];
math7-math9*7 math10*13;
intercpt*64.5 slope*1.3;
slope with intercpt*3.1;
! intercpt ON homeres;
! slope ON homeres;
%c#1%
[intercpt*42.8 slope*.6];
! intercpt ON homeres;
! slope ON homeres;
%c#2%
[intercpt*62.8 slope*3.6];
OUTPUT: TECH1 tech8;
*** WARNING
Data set contains cases with missing on all variables.
These cases were not included in the analysis.
Number of cases with missing on all variables: 8
1 WARNING(S) FOUND IN THE INPUT INSTRUCTIONS
penn2
2-class no covariates invariant Psi invariant Theta
SUMMARY OF ANALYSIS
Number of groups 1
Number of observations 1482
Number of dependent variables 4
Number of independent variables 0
Number of continuous latent variables 2
Number of categorical latent variables 1
Observed dependent variables
Continuous
MATH7 MATH8 MATH9 MATH10
Continuous latent variables
INTERCPT SLOPE
Categorical latent variables
C
Estimator MLR
Information matrix OBSERVED
Optimization Specifications for the Quasi-Newton Algorithm for
Continuous Outcomes
Maximum number of iterations 100
Convergence criterion 0.100D-05
Optimization Specifications for the EM Algorithm
Maximum number of iterations 500
Convergence criteria
Loglikelihood change 0.100D-06
Relative loglikelihood change 0.100D-06
Derivative 0.100D-05
Optimization Specifications for the M step of the EM Algorithm for
Categorical Latent variables
Number of M step iterations 1
M step convergence criterion 0.100D-05
Basis for M step termination ITERATION
Optimization Specifications for the M step of the EM Algorithm for
Censored, Binary or Ordered Categorical (Ordinal), Unordered
Categorical (Nominal) and Count Outcomes
Number of M step iterations 1
M step convergence criterion 0.100D-05
Basis for M step termination ITERATION
Maximum value for logit thresholds 15
Minimum value for logit thresholds -15
Minimum expected cell size for chi-square 0.100D-01
Maximum number of iterations for H1 2000
Convergence criterion for H1 0.100D-03
Optimization algorithm EMA
Random Starts Specifications
Number of initial stage random starts 10
Number of final stage optimizations 2
Number of initial stage iterations 10
Initial stage convergence criterion 0.100D+01
Random starts scale 0.500D+01
Random seed for generating random starts 0
Input data file(s)
lsay.dat
Input data format
(3F8 F8.4 8F8.2 3F8 2F8.2)
SUMMARY OF DATA
Number of missing data patterns 13
Number of y missing data patterns 13
Number of u missing data patterns 0
COVARIANCE COVERAGE OF DATA
Minimum covariance coverage value 0.100
PROPORTION OF DATA PRESENT FOR Y
Covariance Coverage
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
MATH7 0.990
MATH8 0.881 0.890
MATH9 0.790 0.758 0.799
MATH10 0.744 0.708 0.702 0.750
RANDOM STARTS RESULTS RANKED FROM THE BEST TO THE WORST LOGLIKELIHOOD VALUES
Final stage loglikelihood values at local maxima, seeds, and initial stage start numbers:
-16692.790 93468 3
-16692.790 unperturbed 0
THE MODEL ESTIMATION TERMINATED NORMALLY
TESTS OF MODEL FIT
Loglikelihood
H0 Value -16692.790
H0 Scaling Correction Factor 1.352
for MLR
Information Criteria
Number of Free Parameters 12
Akaike (AIC) 33409.579
Bayesian (BIC) 33473.193
Sample-Size Adjusted BIC 33435.073
(n* = (n + 2) / 24)
FINAL CLASS COUNTS AND PROPORTIONS FOR THE LATENT CLASSES
BASED ON THE ESTIMATED MODEL
Latent
Classes
1 369.54654 0.24936
2 1112.45346 0.75064
FINAL CLASS COUNTS AND PROPORTIONS FOR THE LATENT CLASS PATTERNS
BASED ON ESTIMATED POSTERIOR PROBABILITIES
Latent
Classes
1 369.54696 0.24936
2 1112.45304 0.75064
CLASSIFICATION QUALITY
Entropy 0.645
CLASSIFICATION OF INDIVIDUALS BASED ON THEIR MOST LIKELY LATENT CLASS MEMBERSHIP
Class Counts and Proportions
Latent
Classes
1 334 0.22537
2 1148 0.77463
Average Latent Class Probabilities for Most Likely Latent Class Membership (Row)
by Latent Class (Column)
1 2
1 0.816 0.184
2 0.085 0.915
MODEL RESULTS
Two-Tailed
Estimate S.E. Est./S.E. P-Value
Latent Class 1
INTERCPT BY
MATH7 1.000 0.000 999.000 999.000
MATH8 1.000 0.000 999.000 999.000
MATH9 1.000 0.000 999.000 999.000
MATH10 1.000 0.000 999.000 999.000
SLOPE BY
MATH8 1.000 0.000 999.000 999.000
MATH9 2.500 0.000 999.000 999.000
MATH10 3.500 0.000 999.000 999.000
SLOPE WITH
INTERCPT -1.062 0.825 -1.288 0.198
Means
INTERCPT 45.134 0.576 78.420 0.000
SLOPE 0.226 0.260 0.870 0.384
Intercepts
MATH7 0.000 0.000 999.000 999.000
MATH8 0.000 0.000 999.000 999.000
MATH9 0.000 0.000 999.000 999.000
MATH10 0.000 0.000 999.000 999.000
Variances
INTERCPT 59.630 4.008 14.878 0.000
SLOPE 0.022 0.279 0.079 0.937
Residual Variances
MATH7 13.647 1.316 10.374 0.000
MATH8 13.439 1.060 12.676 0.000
MATH9 17.050 1.302 13.091 0.000
MATH10 26.191 2.711 9.661 0.000
Latent Class 2
INTERCPT BY
MATH7 1.000 0.000 999.000 999.000
MATH8 1.000 0.000 999.000 999.000
MATH9 1.000 0.000 999.000 999.000
MATH10 1.000 0.000 999.000 999.000
SLOPE BY
MATH8 1.000 0.000 999.000 999.000
MATH9 2.500 0.000 999.000 999.000
MATH10 3.500 0.000 999.000 999.000
SLOPE WITH
INTERCPT -1.062 0.825 -1.288 0.198
Means
INTERCPT 53.846 0.469 114.801 0.000
SLOPE 3.189 0.065 48.786 0.000
Intercepts
MATH7 0.000 0.000 999.000 999.000
MATH8 0.000 0.000 999.000 999.000
MATH9 0.000 0.000 999.000 999.000
MATH10 0.000 0.000 999.000 999.000
Variances
INTERCPT 59.630 4.008 14.878 0.000
SLOPE 0.022 0.279 0.079 0.937
Residual Variances
MATH7 13.647 1.316 10.374 0.000
MATH8 13.439 1.060 12.676 0.000
MATH9 17.050 1.302 13.091 0.000
MATH10 26.191 2.711 9.661 0.000
Categorical Latent Variables
Means
C#1 -1.102 0.164 -6.704 0.000
QUALITY OF NUMERICAL RESULTS
Condition Number for the Information Matrix 0.279E-03
(ratio of smallest to largest eigenvalue)
TECHNICAL 1 OUTPUT
PARAMETER SPECIFICATION FOR LATENT CLASS 1
NU
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
1 0 0 0 0
LAMBDA
INTERCPT SLOPE
________ ________
MATH7 0 0
MATH8 0 0
MATH9 0 0
MATH10 0 0
THETA
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
MATH7 1
MATH8 0 2
MATH9 0 0 3
MATH10 0 0 0 4
ALPHA
INTERCPT SLOPE
________ ________
1 5 6
BETA
INTERCPT SLOPE
________ ________
INTERCPT 0 0
SLOPE 0 0
PSI
INTERCPT SLOPE
________ ________
INTERCPT 7
SLOPE 8 9
PARAMETER SPECIFICATION FOR LATENT CLASS 2
NU
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
1 0 0 0 0
LAMBDA
INTERCPT SLOPE
________ ________
MATH7 0 0
MATH8 0 0
MATH9 0 0
MATH10 0 0
THETA
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
MATH7 1
MATH8 0 2
MATH9 0 0 3
MATH10 0 0 0 4
ALPHA
INTERCPT SLOPE
________ ________
1 10 11
BETA
INTERCPT SLOPE
________ ________
INTERCPT 0 0
SLOPE 0 0
PSI
INTERCPT SLOPE
________ ________
INTERCPT 7
SLOPE 8 9
PARAMETER SPECIFICATION FOR LATENT CLASS REGRESSION MODEL PART
ALPHA(C)
C#1 C#2
________ ________
1 12 0
STARTING VALUES FOR LATENT CLASS 1
NU
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
1 0.000 0.000 0.000 0.000
LAMBDA
INTERCPT SLOPE
________ ________
MATH7 1.000 0.000
MATH8 1.000 1.000
MATH9 1.000 2.500
MATH10 1.000 3.500
THETA
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
MATH7 7.000
MATH8 0.000 7.000
MATH9 0.000 0.000 7.000
MATH10 0.000 0.000 0.000 13.000
ALPHA
INTERCPT SLOPE
________ ________
1 42.800 0.600
BETA
INTERCPT SLOPE
________ ________
INTERCPT 0.000 0.000
SLOPE 0.000 0.000
PSI
INTERCPT SLOPE
________ ________
INTERCPT 64.500
SLOPE 3.100 1.300
STARTING VALUES FOR LATENT CLASS 2
NU
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
1 0.000 0.000 0.000 0.000
LAMBDA
INTERCPT SLOPE
________ ________
MATH7 1.000 0.000
MATH8 1.000 1.000
MATH9 1.000 2.500
MATH10 1.000 3.500
THETA
MATH7 MATH8 MATH9 MATH10
________ ________ ________ ________
MATH7 7.000
MATH8 0.000 7.000
MATH9 0.000 0.000 7.000
MATH10 0.000 0.000 0.000 13.000
ALPHA
INTERCPT SLOPE
________ ________
1 62.800 3.600
BETA
INTERCPT SLOPE
________ ________
INTERCPT 0.000 0.000
SLOPE 0.000 0.000
PSI
INTERCPT SLOPE
________ ________
INTERCPT 64.500
SLOPE 3.100 1.300
STARTING VALUES FOR LATENT CLASS REGRESSION MODEL PART
ALPHA(C)
C#1 C#2
________ ________
1 0.000 0.000
TECHNICAL 8 OUTPUT
INITIAL STAGE ITERATIONS
TECHNICAL 8 OUTPUT FOR UNPERTURBED STARTING VALUE SET
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.17640711D+05 0.0000000 0.0000000 706.036 775.964 EM
2 -0.16729358D+05 911.3530281 0.0516619 674.485 807.515 EM
3 -0.16724391D+05 4.9671391 0.0002969 648.969 833.031 EM
4 -0.16720967D+05 3.4236808 0.0002047 626.462 855.538 EM
5 -0.16718205D+05 2.7623112 0.0001652 606.168 875.832 EM
6 -0.16715762D+05 2.4434234 0.0001462 587.594 894.406 EM
7 -0.16713468D+05 2.2939414 0.0001372 570.395 911.605 EM
8 -0.16711242D+05 2.2254988 0.0001332 554.336 927.664 EM
9 -0.16709061D+05 2.1813423 0.0001305 539.263 942.737 EM
10 -0.16706938D+05 2.1225730 0.0001270 525.083 956.917 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 1
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.21606584D+05 0.0000000 0.0000000 596.537 885.463 EM
2 -0.16736235D+05 4870.3486491 0.2254104 601.464 880.536 EM
3 -0.16728051D+05 8.1847687 0.0004890 604.670 877.330 EM
4 -0.16725015D+05 3.0356170 0.0001815 607.049 874.951 EM
5 -0.16723516D+05 1.4992032 0.0000896 608.874 873.126 EM
6 -0.16722635D+05 0.8808137 0.0000527 610.295 871.705 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 2
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.18850645D+05 0.0000000 0.0000000 35.760 1446.240 EM
2 -0.16743257D+05 2107.3872576 0.1117939 32.879 1449.121 EM
3 -0.16735591D+05 7.6667910 0.0004579 36.486 1445.514 EM
4 -0.16732963D+05 2.6276411 0.0001570 41.856 1440.144 EM
5 -0.16731135D+05 1.8280641 0.0001092 47.991 1434.009 EM
6 -0.16729605D+05 1.5296146 0.0000914 54.562 1427.438 EM
7 -0.16728236D+05 1.3696383 0.0000819 61.455 1420.545 EM
8 -0.16726941D+05 1.2950291 0.0000774 68.654 1413.346 EM
9 -0.16725662D+05 1.2787756 0.0000765 76.181 1405.819 EM
10 -0.16724363D+05 1.2984760 0.0000776 84.064 1397.936 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 3
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.21909503D+05 0.0000000 0.0000000 97.156 1384.844 EM
2 -0.16746567D+05 5162.9360354 0.2356483 96.705 1385.295 EM
3 -0.16730436D+05 16.1306540 0.0009632 105.173 1376.827 EM
4 -0.16724383D+05 6.0532585 0.0003618 115.674 1366.326 EM
5 -0.16720232D+05 4.1506216 0.0002482 126.960 1355.040 EM
6 -0.16717004D+05 3.2280574 0.0001931 138.544 1343.456 EM
7 -0.16714394D+05 2.6105447 0.0001562 150.205 1331.795 EM
8 -0.16712180D+05 2.2131044 0.0001324 161.840 1320.160 EM
9 -0.16710209D+05 1.9718535 0.0001180 173.384 1308.616 EM
10 -0.16708393D+05 1.8156850 0.0001087 184.772 1297.228 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 4
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.28899530D+05 0.0000000 0.0000000 1212.745 269.255 EM
2 -0.16796358D+05 ************ 0.4188017 1199.593 282.407 EM
3 -0.16764626D+05 31.7323791 0.0018892 1191.685 290.315 EM
4 -0.16754852D+05 9.7742542 0.0005830 1185.993 296.007 EM
5 -0.16750425D+05 4.4266701 0.0002642 1181.630 300.370 EM
6 -0.16747998D+05 2.4268770 0.0001449 1178.148 303.852 EM
7 -0.16746503D+05 1.4947102 0.0000892 1175.288 306.712 EM
8 -0.16745507D+05 0.9961425 0.0000595 1172.889 309.111 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 5
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.17978405D+05 0.0000000 0.0000000 1021.253 460.747 EM
2 -0.16758058D+05 1220.3469930 0.0678785 999.663 482.337 EM
3 -0.16750876D+05 7.1823197 0.0004286 981.209 500.791 EM
4 -0.16747135D+05 3.7403672 0.0002233 964.813 517.187 EM
5 -0.16744856D+05 2.2789470 0.0001361 949.802 532.198 EM
6 -0.16743305D+05 1.5512354 0.0000926 935.760 546.240 EM
7 -0.16742152D+05 1.1534627 0.0000689 922.409 559.591 EM
8 -0.16741227D+05 0.9247618 0.0000552 909.555 572.445 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 6
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.25886395D+05 0.0000000 0.0000000 1481.386 0.614 EM
2 -0.16741642D+05 9144.7530615 0.3532648 1481.477 0.523 EM
3 -0.16741600D+05 0.0421693 0.0000025 1481.526 0.474 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 7
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.29098499D+05 0.0000000 0.0000000 117.655 1364.345 EM
2 -0.16737260D+05 ************ 0.4248067 114.335 1367.665 EM
3 -0.16735702D+05 1.5585346 0.0000931 110.376 1371.624 EM
4 -0.16734985D+05 0.7169695 0.0000428 106.629 1375.371 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 8
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.21336850D+05 0.0000000 0.0000000 1002.133 479.867 EM
2 -0.16797530D+05 4539.3202889 0.2127456 987.023 494.977 EM
3 -0.16764649D+05 32.8802684 0.0019574 991.976 490.024 EM
4 -0.16753748D+05 10.9018479 0.0006503 998.108 483.892 EM
5 -0.16748392D+05 5.3552703 0.0003196 1003.986 478.014 EM
6 -0.16745325D+05 3.0674278 0.0001831 1009.404 472.596 EM
7 -0.16743396D+05 1.9287117 0.0001152 1014.320 467.680 EM
8 -0.16742098D+05 1.2981578 0.0000775 1018.737 463.263 EM
9 -0.16741175D+05 0.9228552 0.0000551 1022.680 459.320 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 9
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.29451496D+05 0.0000000 0.0000000 77.724 1404.276 EM
2 -0.16746570D+05 ************ 0.4313848 76.831 1405.169 EM
3 -0.16743991D+05 2.5789228 0.0001540 76.666 1405.334 EM
4 -0.16742697D+05 1.2941289 0.0000773 76.920 1405.080 EM
5 -0.16741789D+05 0.9074982 0.0000542 77.565 1404.435 EM
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 10
ITER LOGLIKELIHOOD ABS CHANGE REL CHANGE CLASS COUNTS ALGORITHM
1 -0.32895292D+05 0.0000000 0.0000000 1058.367 423.633 EM
2 -0.16798076D+05 ************ 0.4893471 1020.545 461.455 EM
3 -0.16763003D+05 35.0728462 0.0020879 992.613 489.387 EM
4 -0.16752141D+05 10.8618783 0.0006480 969.494 512.506 EM
5 -0.16747088D+05 5.0531480 0.0003016 949.268 532.732 EM
6 -0.16744175D+05 2.9132143 0.0001740 930.943 551.057 EM
7 -0.16742232D+05 1.9426793 0.0001160 913.934 568.066 EM
8 -0.16740783D+05 1.4489273 0.0000865 897.867 584.133 EM
9 -0.16739599D+05 1.1836498 0.0000707 882.488 599.512 EM
10 -0.16738558D+05 1.0412561 0.0000622 867.617 614.383 EM
FINAL STAGE ITERATIONS
TECHNICAL 8 OUTPUT FOR UNPERTURBED STARTING VALUE SET
10 -0.16706938D+05 2.1225730 0.0001270 525.083 956.917 EM
11 -0.16704911D+05 2.0268219 0.0001213 511.747 970.253 EM
12 -0.16703024D+05 1.8869429 0.0001130 499.238 982.762 EM
13 -0.16701317D+05 1.7079210 0.0001023 487.553 994.447 EM
14 -0.16699814D+05 1.5027059 0.0000900 476.695 1005.305 EM
15 -0.16698526D+05 1.2877078 0.0000771 466.664 1015.336 EM
16 -0.16697447D+05 1.0791940 0.0000646 457.451 1024.549 EM
17 -0.16696558D+05 0.8891069 0.0000532 449.031 1032.969 EM
18 -0.16695834D+05 0.7238772 0.0000434 441.371 1040.629 EM
19 -0.16695249D+05 0.5851349 0.0000350 434.425 1047.575 EM
20 -0.16694778D+05 0.4711363 0.0000282 428.144 1053.856 EM
21 -0.16694399D+05 0.3788932 0.0000227 422.476 1059.524 EM
22 -0.16694094D+05 0.3047515 0.0000183 417.365 1064.635 EM
23 -0.16693849D+05 0.2453372 0.0000147 412.763 1069.237 EM
24 -0.16693651D+05 0.1978136 0.0000118 408.617 1073.383 EM
25 -0.16693491D+05 0.1597701 0.0000096 404.885 1077.115 EM
26 -0.16693362D+05 0.1292716 0.0000077 401.523 1080.477 EM
27 -0.16693257D+05 0.1047820 0.0000063 398.494 1083.506 EM
28 -0.16693172D+05 0.0850895 0.0000051 395.764 1086.236 EM
29 -0.16693103D+05 0.0692062 0.0000041 393.302 1088.698 EM
30 -0.16693046D+05 0.0563822 0.0000034 391.080 1090.920 EM
31 -0.16693000D+05 0.0460030 0.0000028 389.074 1092.926 EM
32 -0.16692963D+05 0.0375875 0.0000023 387.261 1094.739 EM
33 -0.16692932D+05 0.0307521 0.0000018 385.623 1096.377 EM
34 -0.16692907D+05 0.0251914 0.0000015 384.140 1097.860 EM
35 -0.16692816D+05 0.0907636 0.0000054 374.499 1107.501 FS
36 -0.16692797D+05 0.0193376 0.0000012 372.978 1109.022 FS
37 -0.16692792D+05 0.0047629 0.0000003 370.431 1111.569 FS
38 -0.16692791D+05 0.0013854 0.0000001 370.537 1111.463 FS
39 -0.16692790D+05 0.0004849 0.0000000 369.656 1112.344 FS
40 -0.16692790D+05 0.0001977 0.0000000 369.892 1112.108 FS
41 -0.16692790D+05 0.0000900 0.0000000 369.530 1112.470 FS
42 -0.16692790D+05 0.0000430 0.0000000 369.689 1112.311 FS
43 -0.16692790D+05 0.0000212 0.0000000 369.523 1112.477 FS
44 -0.16692790D+05 0.0000105 0.0000000 369.613 1112.387 FS
45 -0.16692790D+05 0.0000053 0.0000000 369.532 1112.468 FS
46 -0.16692790D+05 0.0000026 0.0000000 369.580 1112.420 FS
47 -0.16692790D+05 0.0000013 0.0000000 369.540 1112.460 FS
48 -0.16692790D+05 0.0000007 0.0000000 369.564 1112.436 FS
49 -0.16692790D+05 0.0000003 0.0000000 369.544 1112.456 FS
50 -0.16692790D+05 0.0000002 0.0000000 369.557 1112.443 FS
51 -0.16692790D+05 0.0000001 0.0000000 369.547 1112.453 FS
TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 3
10 -0.16708393D+05 1.8156850 0.0001087 184.772 1297.228 EM
11 -0.16706700D+05 1.6924746 0.0001013 195.927 1286.073 EM
12 -0.16705126D+05 1.5740842 0.0000942 206.773 1275.227 EM
13 -0.16703677D+05 1.4498879 0.0000868 217.238 1264.762 EM
14 -0.16702357D+05 1.3195749 0.0000790 227.265 1254.735 EM
15 -0.16701170D+05 1.1874070 0.0000711 236.814 1245.186 EM
16 -0.16700111D+05 1.0586129 0.0000634 245.864 1236.136 EM
17 -0.16699173D+05 0.9374859 0.0000561 254.411 1227.589 EM
18 -0.16698347D+05 0.8265360 0.0000495 262.462 1219.538 EM
19 -0.16697620D+05 0.7267252 0.0000435 270.033 1211.967 EM
20 -0.16696982D+05 0.6379364 0.0000382 277.142 1204.858 EM
21 -0.16696423D+05 0.5593786 0.0000335 283.813 1198.187 EM
22 -0.16695933D+05 0.4900225 0.0000293 290.068 1191.932 EM
23 -0.16695504D+05 0.4288142 0.0000257 295.927 1186.073 EM
24 -0.16695129D+05 0.3747519 0.0000224 301.413 1180.587 EM
25 -0.16694802D+05 0.3269963 0.0000196 306.544 1175.456 EM
26 -0.16694517D+05 0.2848110 0.0000171 311.338 1170.662 EM
27 -0.16694270D+05 0.2474939 0.0000148 315.813 1166.187 EM
28 -0.16694055D+05 0.2145899 0.0000129 319.986 1162.014 EM
29 -0.16693870D+05 0.1856329 0.0000111 323.871 1158.129 EM
30 -0.16693710D+05 0.1601829 0.0000096 327.485 1154.515 EM
31 -0.16693572D+05 0.1378791 0.0000083 330.843 1151.157 EM
32 -0.16693453D+05 0.1183841 0.0000071 333.958 1148.042 EM
33 -0.16693352D+05 0.1014064 0.0000061 336.845 1145.155 EM
34 -0.16693265D+05 0.0866702 0.0000052 339.517 1142.483 EM
35 -0.16693191D+05 0.0739054 0.0000044 341.988 1140.012 EM
36 -0.16692893D+05 0.2978877 0.0000178 359.957 1122.043 FS
37 -0.16692820D+05 0.0731956 0.0000044 362.410 1119.590 FS
38 -0.16692800D+05 0.0197343 0.0000012 367.916 1114.084 FS
39 -0.16692794D+05 0.0063826 0.0000004 367.393 1114.607 FS
40 -0.16692792D+05 0.0023949 0.0000001 369.407 1112.593 FS
41 -0.16692791D+05 0.0010461 0.0000001 368.773 1113.227 FS
42 -0.16692790D+05 0.0004840 0.0000000 369.626 1112.374 FS
43 -0.16692790D+05 0.0002370 0.0000000 369.225 1112.775 FS
44 -0.16692790D+05 0.0001167 0.0000000 369.621 1112.379 FS
45 -0.16692790D+05 0.0000585 0.0000000 369.400 1112.600 FS
46 -0.16692790D+05 0.0000293 0.0000000 369.593 1112.407 FS
47 -0.16692790D+05 0.0000147 0.0000000 369.477 1112.523 FS
48 -0.16692790D+05 0.0000074 0.0000000 369.574 1112.426 FS
49 -0.16692790D+05 0.0000037 0.0000000 369.513 1112.487 FS
50 -0.16692790D+05 0.0000019 0.0000000 369.562 1112.438 FS
51 -0.16692790D+05 0.0000009 0.0000000 369.531 1112.469 FS
52 -0.16692790D+05 0.0000005 0.0000000 369.556 1112.444 FS
53 -0.16692790D+05 0.0000002 0.0000000 369.540 1112.460 FS
54 -0.16692790D+05 0.0000001 0.0000000 369.553 1112.447 FS
55 -0.16692790D+05 0.0000001 0.0000000 369.545 1112.455 FS
56 -0.16692790D+05 0.0000000 0.0000000 369.551 1112.449 FS
Beginning Time: 22:58:15
Ending Time: 22:58:15
Elapsed Time: 00:00:00
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