Similarity in the g factor structure between and within families across racial groups : NLSY79 SPSS syntax

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IF R0214700=2 BHW=1.
IF R0214700=1 BHW=2.
IF R0214700=3 BHW=3.

RECODE R0000151 (6 thru 7=1) (89=2) (36=2) (39 thru 40=2) (52 thru 53=2) (59 thru 65=2) INTO SIBLING.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615000
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615100
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615200
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615300
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615400
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615500
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615600
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615700
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615800
/METHOD=ENTER R0000600
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT R0615900
/METHOD=ENTER R0000600
/SAVE ZRESID.

SORT CASES BY R0000149 R0000100.
CASESTOVARS
/ID = R0000149
/GROUPBY = VARIABLE.

COMPUTE BF_corr_ASVAB1=(ZRE_1.1+ZRE_1.2)/2.
COMPUTE BF_corr_ASVAB2=(ZRE_2.1+ZRE_2.2)/2.
COMPUTE BF_corr_ASVAB3=(ZRE_3.1+ZRE_3.2)/2.
COMPUTE BF_corr_ASVAB4=(ZRE_4.1+ZRE_4.2)/2.
COMPUTE BF_corr_ASVAB5=(ZRE_5.1+ZRE_5.2)/2.
COMPUTE BF_corr_ASVAB6=(ZRE_6.1+ZRE_6.2)/2.
COMPUTE BF_corr_ASVAB7=(ZRE_7.1+ZRE_7.2)/2.
COMPUTE BF_corr_ASVAB8=(ZRE_8.1+ZRE_8.2)/2.
COMPUTE BF_corr_ASVAB9=(ZRE_9.1+ZRE_9.2)/2.
COMPUTE BF_corr_ASVAB10=(ZRE_10.1+ZRE_10.2)/2.

COMPUTE WF_corr_ASVAB1=(ZRE_1.1-ZRE_1.2).
COMPUTE WF_corr_ASVAB2=(ZRE_2.1-ZRE_2.2).
COMPUTE WF_corr_ASVAB3=(ZRE_3.1-ZRE_3.2).
COMPUTE WF_corr_ASVAB4=(ZRE_4.1-ZRE_4.2).
COMPUTE WF_corr_ASVAB5=(ZRE_5.1-ZRE_5.2).
COMPUTE WF_corr_ASVAB6=(ZRE_6.1-ZRE_6.2).
COMPUTE WF_corr_ASVAB7=(ZRE_7.1-ZRE_7.2).
COMPUTE WF_corr_ASVAB8=(ZRE_8.1-ZRE_8.2).
COMPUTE WF_corr_ASVAB9=(ZRE_9.1-ZRE_9.2).
COMPUTE WF_corr_ASVAB10=(ZRE_10.1-ZRE_10.2).

COMPUTE WF_ASVAB1_powers2=WF_corr_ASVAB1*WF_corr_ASVAB1.
COMPUTE WF_ASVAB1_powers3=WF_corr_ASVAB1*WF_corr_ASVAB1*WF_corr_ASVAB1.
COMPUTE WF_ASVAB1_powers4=WF_corr_ASVAB1*WF_corr_ASVAB1*WF_corr_ASVAB1*WF_corr_ASVAB1.
COMPUTE WF_ASVAB1_powers5=WF_corr_ASVAB1*WF_corr_ASVAB1*WF_corr_ASVAB1*WF_corr_ASVAB1*WF_corr_ASVAB1.

COMPUTE WF_ASVAB2_powers2=WF_corr_ASVAB2*WF_corr_ASVAB2.
COMPUTE WF_ASVAB2_powers3=WF_corr_ASVAB2*WF_corr_ASVAB2*WF_corr_ASVAB2.
COMPUTE WF_ASVAB2_powers4=WF_corr_ASVAB2*WF_corr_ASVAB2*WF_corr_ASVAB2*WF_corr_ASVAB2.
COMPUTE WF_ASVAB2_powers5=WF_corr_ASVAB2*WF_corr_ASVAB2*WF_corr_ASVAB2*WF_corr_ASVAB2*WF_corr_ASVAB2.

COMPUTE WF_ASVAB3_powers2=WF_corr_ASVAB3*WF_corr_ASVAB3.
COMPUTE WF_ASVAB3_powers3=WF_corr_ASVAB3*WF_corr_ASVAB3*WF_corr_ASVAB3.
COMPUTE WF_ASVAB3_powers4=WF_corr_ASVAB3*WF_corr_ASVAB3*WF_corr_ASVAB3*WF_corr_ASVAB3.
COMPUTE WF_ASVAB3_powers5=WF_corr_ASVAB3*WF_corr_ASVAB3*WF_corr_ASVAB3*WF_corr_ASVAB3*WF_corr_ASVAB3.

COMPUTE WF_ASVAB4_powers2=WF_corr_ASVAB4*WF_corr_ASVAB4.
COMPUTE WF_ASVAB4_powers3=WF_corr_ASVAB4*WF_corr_ASVAB4*WF_corr_ASVAB4.
COMPUTE WF_ASVAB4_powers4=WF_corr_ASVAB4*WF_corr_ASVAB4*WF_corr_ASVAB4*WF_corr_ASVAB4.
COMPUTE WF_ASVAB4_powers5=WF_corr_ASVAB4*WF_corr_ASVAB4*WF_corr_ASVAB4*WF_corr_ASVAB4*WF_corr_ASVAB4.

COMPUTE WF_ASVAB5_powers2=WF_corr_ASVAB5*WF_corr_ASVAB5.
COMPUTE WF_ASVAB5_powers3=WF_corr_ASVAB5*WF_corr_ASVAB5*WF_corr_ASVAB5.
COMPUTE WF_ASVAB5_powers4=WF_corr_ASVAB5*WF_corr_ASVAB5*WF_corr_ASVAB5*WF_corr_ASVAB5.
COMPUTE WF_ASVAB5_powers5=WF_corr_ASVAB5*WF_corr_ASVAB5*WF_corr_ASVAB5*WF_corr_ASVAB5*WF_corr_ASVAB5.

COMPUTE WF_ASVAB6_powers2=WF_corr_ASVAB6*WF_corr_ASVAB6.
COMPUTE WF_ASVAB6_powers3=WF_corr_ASVAB6*WF_corr_ASVAB6*WF_corr_ASVAB6.
COMPUTE WF_ASVAB6_powers4=WF_corr_ASVAB6*WF_corr_ASVAB6*WF_corr_ASVAB6*WF_corr_ASVAB6.
COMPUTE WF_ASVAB6_powers5=WF_corr_ASVAB6*WF_corr_ASVAB6*WF_corr_ASVAB6*WF_corr_ASVAB6*WF_corr_ASVAB6.

COMPUTE WF_ASVAB7_powers2=WF_corr_ASVAB7*WF_corr_ASVAB7.
COMPUTE WF_ASVAB7_powers3=WF_corr_ASVAB7*WF_corr_ASVAB7*WF_corr_ASVAB7.
COMPUTE WF_ASVAB7_powers4=WF_corr_ASVAB7*WF_corr_ASVAB7*WF_corr_ASVAB7*WF_corr_ASVAB7.
COMPUTE WF_ASVAB7_powers5=WF_corr_ASVAB7*WF_corr_ASVAB7*WF_corr_ASVAB7*WF_corr_ASVAB7*WF_corr_ASVAB7.

COMPUTE WF_ASVAB8_powers2=WF_corr_ASVAB8*WF_corr_ASVAB8.
COMPUTE WF_ASVAB8_powers3=WF_corr_ASVAB8*WF_corr_ASVAB8*WF_corr_ASVAB8.
COMPUTE WF_ASVAB8_powers4=WF_corr_ASVAB8*WF_corr_ASVAB8*WF_corr_ASVAB8*WF_corr_ASVAB8.
COMPUTE WF_ASVAB8_powers5=WF_corr_ASVAB8*WF_corr_ASVAB8*WF_corr_ASVAB8*WF_corr_ASVAB8*WF_corr_ASVAB8.

COMPUTE WF_ASVAB9_powers2=WF_corr_ASVAB9*WF_corr_ASVAB9.
COMPUTE WF_ASVAB9_powers3=WF_corr_ASVAB9*WF_corr_ASVAB9*WF_corr_ASVAB9.
COMPUTE WF_ASVAB9_powers4=WF_corr_ASVAB9*WF_corr_ASVAB9*WF_corr_ASVAB9*WF_corr_ASVAB9.
COMPUTE WF_ASVAB9_powers5=WF_corr_ASVAB9*WF_corr_ASVAB9*WF_corr_ASVAB9*WF_corr_ASVAB9*WF_corr_ASVAB9.

COMPUTE WF_ASVAB10_powers2=WF_corr_ASVAB10*WF_corr_ASVAB10.
COMPUTE WF_ASVAB10_powers3=WF_corr_ASVAB10*WF_corr_ASVAB10*WF_corr_ASVAB10.
COMPUTE WF_ASVAB10_powers4=WF_corr_ASVAB10*WF_corr_ASVAB10*WF_corr_ASVAB10*WF_corr_ASVAB10.
COMPUTE WF_ASVAB10_powers5=WF_corr_ASVAB10*WF_corr_ASVAB10*WF_corr_ASVAB10*WF_corr_ASVAB10*WF_corr_ASVAB10.

COMPUTE BF_ASVAB1_powers2=BF_corr_ASVAB1*BF_corr_ASVAB1.
COMPUTE BF_ASVAB1_powers3=BF_corr_ASVAB1*BF_corr_ASVAB1*BF_corr_ASVAB1.
COMPUTE BF_ASVAB1_powers4=BF_corr_ASVAB1*BF_corr_ASVAB1*BF_corr_ASVAB1*BF_corr_ASVAB1.
COMPUTE BF_ASVAB1_powers5=BF_corr_ASVAB1*BF_corr_ASVAB1*BF_corr_ASVAB1*BF_corr_ASVAB1*BF_corr_ASVAB1.

COMPUTE BF_ASVAB2_powers2=BF_corr_ASVAB2*BF_corr_ASVAB2.
COMPUTE BF_ASVAB2_powers3=BF_corr_ASVAB2*BF_corr_ASVAB2*BF_corr_ASVAB2.
COMPUTE BF_ASVAB2_powers4=BF_corr_ASVAB2*BF_corr_ASVAB2*BF_corr_ASVAB2*BF_corr_ASVAB2.
COMPUTE BF_ASVAB2_powers5=BF_corr_ASVAB2*BF_corr_ASVAB2*BF_corr_ASVAB2*BF_corr_ASVAB2*BF_corr_ASVAB2.

COMPUTE BF_ASVAB3_powers2=BF_corr_ASVAB3*BF_corr_ASVAB3.
COMPUTE BF_ASVAB3_powers3=BF_corr_ASVAB3*BF_corr_ASVAB3*BF_corr_ASVAB3.
COMPUTE BF_ASVAB3_powers4=BF_corr_ASVAB3*BF_corr_ASVAB3*BF_corr_ASVAB3*BF_corr_ASVAB3.
COMPUTE BF_ASVAB3_powers5=BF_corr_ASVAB3*BF_corr_ASVAB3*BF_corr_ASVAB3*BF_corr_ASVAB3*BF_corr_ASVAB3.

COMPUTE BF_ASVAB4_powers2=BF_corr_ASVAB4*BF_corr_ASVAB4.
COMPUTE BF_ASVAB4_powers3=BF_corr_ASVAB4*BF_corr_ASVAB4*BF_corr_ASVAB4.
COMPUTE BF_ASVAB4_powers4=BF_corr_ASVAB4*BF_corr_ASVAB4*BF_corr_ASVAB4*BF_corr_ASVAB4.
COMPUTE BF_ASVAB4_powers5=BF_corr_ASVAB4*BF_corr_ASVAB4*BF_corr_ASVAB4*BF_corr_ASVAB4*BF_corr_ASVAB4.

COMPUTE BF_ASVAB5_powers2=BF_corr_ASVAB5*BF_corr_ASVAB5.
COMPUTE BF_ASVAB5_powers3=BF_corr_ASVAB5*BF_corr_ASVAB5*BF_corr_ASVAB5.
COMPUTE BF_ASVAB5_powers4=BF_corr_ASVAB5*BF_corr_ASVAB5*BF_corr_ASVAB5*BF_corr_ASVAB5.
COMPUTE BF_ASVAB5_powers5=BF_corr_ASVAB5*BF_corr_ASVAB5*BF_corr_ASVAB5*BF_corr_ASVAB5*BF_corr_ASVAB5.

COMPUTE BF_ASVAB6_powers2=BF_corr_ASVAB6*BF_corr_ASVAB6.
COMPUTE BF_ASVAB6_powers3=BF_corr_ASVAB6*BF_corr_ASVAB6*BF_corr_ASVAB6.
COMPUTE BF_ASVAB6_powers4=BF_corr_ASVAB6*BF_corr_ASVAB6*BF_corr_ASVAB6*BF_corr_ASVAB6.
COMPUTE BF_ASVAB6_powers5=BF_corr_ASVAB6*BF_corr_ASVAB6*BF_corr_ASVAB6*BF_corr_ASVAB6*BF_corr_ASVAB6.

COMPUTE BF_ASVAB7_powers2=BF_corr_ASVAB7*BF_corr_ASVAB7.
COMPUTE BF_ASVAB7_powers3=BF_corr_ASVAB7*BF_corr_ASVAB7*BF_corr_ASVAB7.
COMPUTE BF_ASVAB7_powers4=BF_corr_ASVAB7*BF_corr_ASVAB7*BF_corr_ASVAB7*BF_corr_ASVAB7.
COMPUTE BF_ASVAB7_powers5=BF_corr_ASVAB7*BF_corr_ASVAB7*BF_corr_ASVAB7*BF_corr_ASVAB7*BF_corr_ASVAB7.

COMPUTE BF_ASVAB8_powers2=BF_corr_ASVAB8*BF_corr_ASVAB8.
COMPUTE BF_ASVAB8_powers3=BF_corr_ASVAB8*BF_corr_ASVAB8*BF_corr_ASVAB8.
COMPUTE BF_ASVAB8_powers4=BF_corr_ASVAB8*BF_corr_ASVAB8*BF_corr_ASVAB8*BF_corr_ASVAB8.
COMPUTE BF_ASVAB8_powers5=BF_corr_ASVAB8*BF_corr_ASVAB8*BF_corr_ASVAB8*BF_corr_ASVAB8*BF_corr_ASVAB8.

COMPUTE BF_ASVAB9_powers2=BF_corr_ASVAB9*BF_corr_ASVAB9.
COMPUTE BF_ASVAB9_powers3=BF_corr_ASVAB9*BF_corr_ASVAB9*BF_corr_ASVAB9.
COMPUTE BF_ASVAB9_powers4=BF_corr_ASVAB9*BF_corr_ASVAB9*BF_corr_ASVAB9*BF_corr_ASVAB9.
COMPUTE BF_ASVAB9_powers5=BF_corr_ASVAB9*BF_corr_ASVAB9*BF_corr_ASVAB9*BF_corr_ASVAB9*BF_corr_ASVAB9.

COMPUTE BF_ASVAB10_powers2=BF_corr_ASVAB10*BF_corr_ASVAB10.
COMPUTE BF_ASVAB10_powers3=BF_corr_ASVAB10*BF_corr_ASVAB10*BF_corr_ASVAB10.
COMPUTE BF_ASVAB10_powers4=BF_corr_ASVAB10*BF_corr_ASVAB10*BF_corr_ASVAB10*BF_corr_ASVAB10.
COMPUTE BF_ASVAB10_powers5=BF_corr_ASVAB10*BF_corr_ASVAB10*BF_corr_ASVAB10*BF_corr_ASVAB10*BF_corr_ASVAB10.

USE ALL.
COMPUTE filter_$=(BHW.1=1 and BHW.2=1 and SIBLING.1=1 and SIBLING.2=1).
VARIABLE LABELS filter_$ ‘BHW.1=1 and BHW.2=1 and SIBLING.1=1 and SIBLING.2=1 (FILTER)’.
VALUE LABELS filter_$ 0 ‘Not Selected’ 1 ‘Selected’.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB1
/METHOD=STEPWISE WF_corr_ASVAB1 WF_ASVAB1_powers2 WF_ASVAB1_powers3 WF_ASVAB1_powers4 WF_ASVAB1_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB2
/METHOD=STEPWISE WF_corr_ASVAB2 WF_ASVAB2_powers2 WF_ASVAB2_powers3 WF_ASVAB2_powers4 WF_ASVAB2_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB3
/METHOD=STEPWISE WF_corr_ASVAB3 WF_ASVAB3_powers2 WF_ASVAB3_powers3 WF_ASVAB3_powers4 WF_ASVAB3_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB4
/METHOD=STEPWISE WF_corr_ASVAB4 WF_ASVAB4_powers2 WF_ASVAB4_powers3 WF_ASVAB4_powers4 WF_ASVAB4_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB5
/METHOD=STEPWISE WF_corr_ASVAB5 WF_ASVAB5_powers2 WF_ASVAB5_powers3 WF_ASVAB5_powers4 WF_ASVAB5_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB6
/METHOD=STEPWISE WF_corr_ASVAB6 WF_ASVAB6_powers2 WF_ASVAB6_powers3 WF_ASVAB6_powers4 WF_ASVAB6_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB7
/METHOD=STEPWISE WF_corr_ASVAB7 WF_ASVAB7_powers2 WF_ASVAB7_powers3 WF_ASVAB7_powers4 WF_ASVAB7_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB8
/METHOD=STEPWISE WF_corr_ASVAB8 WF_ASVAB8_powers2 WF_ASVAB8_powers3 WF_ASVAB8_powers4 WF_ASVAB8_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB9
/METHOD=STEPWISE WF_corr_ASVAB9 WF_ASVAB9_powers2 WF_ASVAB9_powers3 WF_ASVAB9_powers4 WF_ASVAB9_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB10
/METHOD=STEPWISE WF_corr_ASVAB10 WF_ASVAB10_powers2 WF_ASVAB10_powers3 WF_ASVAB10_powers4 WF_ASVAB10_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB1
/METHOD=STEPWISE BF_corr_ASVAB1 BF_ASVAB1_powers2 BF_ASVAB1_powers3 BF_ASVAB1_powers4 BF_ASVAB1_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB2
/METHOD=STEPWISE BF_corr_ASVAB2 BF_ASVAB2_powers2 BF_ASVAB2_powers3 BF_ASVAB2_powers4 BF_ASVAB2_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB3
/METHOD=STEPWISE BF_corr_ASVAB3 BF_ASVAB3_powers2 BF_ASVAB3_powers3 BF_ASVAB3_powers4 BF_ASVAB3_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB4
/METHOD=STEPWISE BF_corr_ASVAB4 BF_ASVAB4_powers2 BF_ASVAB4_powers3 BF_ASVAB4_powers4 BF_ASVAB4_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB5
/METHOD=STEPWISE BF_corr_ASVAB5 BF_ASVAB5_powers2 BF_ASVAB5_powers3 BF_ASVAB5_powers4 BF_ASVAB5_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB6
/METHOD=STEPWISE BF_corr_ASVAB6 BF_ASVAB6_powers2 BF_ASVAB6_powers3 BF_ASVAB6_powers4 BF_ASVAB6_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB7
/METHOD=STEPWISE BF_corr_ASVAB7 BF_ASVAB7_powers2 BF_ASVAB7_powers3 BF_ASVAB7_powers4 BF_ASVAB7_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB8
/METHOD=STEPWISE BF_corr_ASVAB8 BF_ASVAB8_powers2 BF_ASVAB8_powers3 BF_ASVAB8_powers4 BF_ASVAB8_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB9
/METHOD=STEPWISE BF_corr_ASVAB9 BF_ASVAB9_powers2 BF_ASVAB9_powers3 BF_ASVAB9_powers4 BF_ASVAB9_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB10
/METHOD=STEPWISE BF_corr_ASVAB10 BF_ASVAB10_powers2 BF_ASVAB10_powers3 BF_ASVAB10_powers4 BF_ASVAB10_powers5.

USE ALL.
COMPUTE filter_$=(BHW.1=2 and BHW.2=2 and SIBLING.1=1 and SIBLING.2=1).
VARIABLE LABELS filter_$ ‘BHW.1=2 and BHW.2=2 and SIBLING.1=1 and SIBLING.2=1 (FILTER)’.
VALUE LABELS filter_$ 0 ‘Not Selected’ 1 ‘Selected’.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB1
/METHOD=STEPWISE WF_corr_ASVAB1 WF_ASVAB1_powers2 WF_ASVAB1_powers3 WF_ASVAB1_powers4 WF_ASVAB1_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB2
/METHOD=STEPWISE WF_corr_ASVAB2 WF_ASVAB2_powers2 WF_ASVAB2_powers3 WF_ASVAB2_powers4 WF_ASVAB2_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB3
/METHOD=STEPWISE WF_corr_ASVAB3 WF_ASVAB3_powers2 WF_ASVAB3_powers3 WF_ASVAB3_powers4 WF_ASVAB3_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB4
/METHOD=STEPWISE WF_corr_ASVAB4 WF_ASVAB4_powers2 WF_ASVAB4_powers3 WF_ASVAB4_powers4 WF_ASVAB4_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB5
/METHOD=STEPWISE WF_corr_ASVAB5 WF_ASVAB5_powers2 WF_ASVAB5_powers3 WF_ASVAB5_powers4 WF_ASVAB5_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB6
/METHOD=STEPWISE WF_corr_ASVAB6 WF_ASVAB6_powers2 WF_ASVAB6_powers3 WF_ASVAB6_powers4 WF_ASVAB6_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB7
/METHOD=STEPWISE WF_corr_ASVAB7 WF_ASVAB7_powers2 WF_ASVAB7_powers3 WF_ASVAB7_powers4 WF_ASVAB7_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB8
/METHOD=STEPWISE WF_corr_ASVAB8 WF_ASVAB8_powers2 WF_ASVAB8_powers3 WF_ASVAB8_powers4 WF_ASVAB8_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB9
/METHOD=STEPWISE WF_corr_ASVAB9 WF_ASVAB9_powers2 WF_ASVAB9_powers3 WF_ASVAB9_powers4 WF_ASVAB9_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB10
/METHOD=STEPWISE WF_corr_ASVAB10 WF_ASVAB10_powers2 WF_ASVAB10_powers3 WF_ASVAB10_powers4 WF_ASVAB10_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB1
/METHOD=STEPWISE BF_corr_ASVAB1 BF_ASVAB1_powers2 BF_ASVAB1_powers3 BF_ASVAB1_powers4 BF_ASVAB1_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB2
/METHOD=STEPWISE BF_corr_ASVAB2 BF_ASVAB2_powers2 BF_ASVAB2_powers3 BF_ASVAB2_powers4 BF_ASVAB2_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB3
/METHOD=STEPWISE BF_corr_ASVAB3 BF_ASVAB3_powers2 BF_ASVAB3_powers3 BF_ASVAB3_powers4 BF_ASVAB3_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB4
/METHOD=STEPWISE BF_corr_ASVAB4 BF_ASVAB4_powers2 BF_ASVAB4_powers3 BF_ASVAB4_powers4 BF_ASVAB4_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB5
/METHOD=STEPWISE BF_corr_ASVAB5 BF_ASVAB5_powers2 BF_ASVAB5_powers3 BF_ASVAB5_powers4 BF_ASVAB5_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB6
/METHOD=STEPWISE BF_corr_ASVAB6 BF_ASVAB6_powers2 BF_ASVAB6_powers3 BF_ASVAB6_powers4 BF_ASVAB6_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB7
/METHOD=STEPWISE BF_corr_ASVAB7 BF_ASVAB7_powers2 BF_ASVAB7_powers3 BF_ASVAB7_powers4 BF_ASVAB7_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB8
/METHOD=STEPWISE BF_corr_ASVAB8 BF_ASVAB8_powers2 BF_ASVAB8_powers3 BF_ASVAB8_powers4 BF_ASVAB8_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB9
/METHOD=STEPWISE BF_corr_ASVAB9 BF_ASVAB9_powers2 BF_ASVAB9_powers3 BF_ASVAB9_powers4 BF_ASVAB9_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB10
/METHOD=STEPWISE BF_corr_ASVAB10 BF_ASVAB10_powers2 BF_ASVAB10_powers3 BF_ASVAB10_powers4 BF_ASVAB10_powers5.

USE ALL.
COMPUTE filter_$=(BHW.1=3 and BHW.2=3 and SIBLING.1=1 and SIBLING.2=1).
VARIABLE LABELS filter_$ ‘BHW.1=3 and BHW.2=3 and SIBLING.1=1 and SIBLING.2=1 (FILTER)’.
VALUE LABELS filter_$ 0 ‘Not Selected’ 1 ‘Selected’.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB1
/METHOD=STEPWISE WF_corr_ASVAB1 WF_ASVAB1_powers2 WF_ASVAB1_powers3 WF_ASVAB1_powers4 WF_ASVAB1_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB2
/METHOD=STEPWISE WF_corr_ASVAB2 WF_ASVAB2_powers2 WF_ASVAB2_powers3 WF_ASVAB2_powers4 WF_ASVAB2_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB3
/METHOD=STEPWISE WF_corr_ASVAB3 WF_ASVAB3_powers2 WF_ASVAB3_powers3 WF_ASVAB3_powers4 WF_ASVAB3_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB4
/METHOD=STEPWISE WF_corr_ASVAB4 WF_ASVAB4_powers2 WF_ASVAB4_powers3 WF_ASVAB4_powers4 WF_ASVAB4_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB5
/METHOD=STEPWISE WF_corr_ASVAB5 WF_ASVAB5_powers2 WF_ASVAB5_powers3 WF_ASVAB5_powers4 WF_ASVAB5_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB6
/METHOD=STEPWISE WF_corr_ASVAB6 WF_ASVAB6_powers2 WF_ASVAB6_powers3 WF_ASVAB6_powers4 WF_ASVAB6_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB7
/METHOD=STEPWISE WF_corr_ASVAB7 WF_ASVAB7_powers2 WF_ASVAB7_powers3 WF_ASVAB7_powers4 WF_ASVAB7_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB8
/METHOD=STEPWISE WF_corr_ASVAB8 WF_ASVAB8_powers2 WF_ASVAB8_powers3 WF_ASVAB8_powers4 WF_ASVAB8_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB9
/METHOD=STEPWISE WF_corr_ASVAB9 WF_ASVAB9_powers2 WF_ASVAB9_powers3 WF_ASVAB9_powers4 WF_ASVAB9_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT BF_corr_ASVAB10
/METHOD=STEPWISE WF_corr_ASVAB10 WF_ASVAB10_powers2 WF_ASVAB10_powers3 WF_ASVAB10_powers4 WF_ASVAB10_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB1
/METHOD=STEPWISE BF_corr_ASVAB1 BF_ASVAB1_powers2 BF_ASVAB1_powers3 BF_ASVAB1_powers4 BF_ASVAB1_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB2
/METHOD=STEPWISE BF_corr_ASVAB2 BF_ASVAB2_powers2 BF_ASVAB2_powers3 BF_ASVAB2_powers4 BF_ASVAB2_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB3
/METHOD=STEPWISE BF_corr_ASVAB3 BF_ASVAB3_powers2 BF_ASVAB3_powers3 BF_ASVAB3_powers4 BF_ASVAB3_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB4
/METHOD=STEPWISE BF_corr_ASVAB4 BF_ASVAB4_powers2 BF_ASVAB4_powers3 BF_ASVAB4_powers4 BF_ASVAB4_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB5
/METHOD=STEPWISE BF_corr_ASVAB5 BF_ASVAB5_powers2 BF_ASVAB5_powers3 BF_ASVAB5_powers4 BF_ASVAB5_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB6
/METHOD=STEPWISE BF_corr_ASVAB6 BF_ASVAB6_powers2 BF_ASVAB6_powers3 BF_ASVAB6_powers4 BF_ASVAB6_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB7
/METHOD=STEPWISE BF_corr_ASVAB7 BF_ASVAB7_powers2 BF_ASVAB7_powers3 BF_ASVAB7_powers4 BF_ASVAB7_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB8
/METHOD=STEPWISE BF_corr_ASVAB8 BF_ASVAB8_powers2 BF_ASVAB8_powers3 BF_ASVAB8_powers4 BF_ASVAB8_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB9
/METHOD=STEPWISE BF_corr_ASVAB9 BF_ASVAB9_powers2 BF_ASVAB9_powers3 BF_ASVAB9_powers4 BF_ASVAB9_powers5.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB10
/METHOD=STEPWISE BF_corr_ASVAB10 BF_ASVAB10_powers2 BF_ASVAB10_powers3 BF_ASVAB10_powers4 BF_ASVAB10_powers5.

USE ALL.
COMPUTE filter_$=(BHW.1=1 and BHW.2=1 and SIBLING.1=1 and SIBLING.2=1).
VARIABLE LABELS filter_$ ‘BHW.1=1 and BHW.2=1 and SIBLING.1=1 and SIBLING.2=1 (FILTER)’.
VALUE LABELS filter_$ 0 ‘Not Selected’ 1 ‘Selected’.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

CORRELATIONS
/VARIABLES=BF_corr_ASVAB1 BF_corr_ASVAB2 BF_corr_ASVAB3 BF_corr_ASVAB4 BF_corr_ASVAB5 BF_corr_ASVAB6 BF_corr_ASVAB7 BF_corr_ASVAB8 BF_corr_ASVAB9 BF_corr_ASVAB10
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

CORRELATIONS
/VARIABLES=WF_corr_ASVAB1 WF_corr_ASVAB2 WF_corr_ASVAB3 WF_corr_ASVAB4 WF_corr_ASVAB5 WF_corr_ASVAB6 WF_corr_ASVAB7 WF_corr_ASVAB8 WF_corr_ASVAB9 WF_corr_ASVAB10
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

USE ALL.
COMPUTE filter_$=(BHW.1=2 and BHW.2=2 and SIBLING.1=1 and SIBLING.2=1).
VARIABLE LABELS filter_$ ‘BHW.1=2 and BHW.2=2 and SIBLING.1=1 and SIBLING.2=1 (FILTER)’.
VALUE LABELS filter_$ 0 ‘Not Selected’ 1 ‘Selected’.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

CORRELATIONS
/VARIABLES=BF_corr_ASVAB1 BF_corr_ASVAB2 BF_corr_ASVAB3 BF_corr_ASVAB4 BF_corr_ASVAB5 BF_corr_ASVAB6 BF_corr_ASVAB7 BF_corr_ASVAB8 BF_corr_ASVAB9 BF_corr_ASVAB10
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

CORRELATIONS
/VARIABLES=WF_corr_ASVAB1 WF_corr_ASVAB2 WF_corr_ASVAB3 WF_corr_ASVAB4 WF_corr_ASVAB5 WF_corr_ASVAB6 WF_corr_ASVAB7 WF_corr_ASVAB8 WF_corr_ASVAB9 WF_corr_ASVAB10
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

USE ALL.
COMPUTE filter_$=(BHW.1=3 and BHW.2=3 and SIBLING.1=1 and SIBLING.2=1).
VARIABLE LABELS filter_$ ‘BHW.1=3 and BHW.2=3 and SIBLING.1=1 and SIBLING.2=1 (FILTER)’.
VALUE LABELS filter_$ 0 ‘Not Selected’ 1 ‘Selected’.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

CORRELATIONS
/VARIABLES=BF_corr_ASVAB1 BF_corr_ASVAB2 BF_corr_ASVAB3 BF_corr_ASVAB4 BF_corr_ASVAB5 BF_corr_ASVAB6 BF_corr_ASVAB7 BF_corr_ASVAB8 BF_corr_ASVAB9 BF_corr_ASVAB10
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

CORRELATIONS
/VARIABLES=WF_corr_ASVAB1 WF_corr_ASVAB2 WF_corr_ASVAB3 WF_corr_ASVAB4 WF_corr_ASVAB5 WF_corr_ASVAB6 WF_corr_ASVAB7 WF_corr_ASVAB8 WF_corr_ASVAB9 WF_corr_ASVAB10
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

MATRIX DATA VARIABLES=GS AR WK PC NO CS ASI MK MC EI
/contents=corr
/N=626.
BEGIN DATA.
1
.665 1
.820 .677 1
.700 .651 .811 1
.535 .578 .604 .616 1
.504 .509 .598 .605 .729 1
.613 .549 .584 .516 .401 .365 1
.685 .747 .718 .687 .600 .539 .476 1
.620 .596 .572 .513 .390 .367 .634 .545 1
.721 .621 .698 .608 .430 .404 .672 .567 .673 1
END DATA.
EXECUTE.

FACTOR MATRIX=IN(COR=*)
/MISSING LISTWISE
/PRINT UNIVARIATE INITIAL CORRELATION SIG DET KMO EXTRACTION
/PLOT EIGEN
/CRITERIA MINEIGEN(1) ITERATE(25)
/EXTRACTION PC
/ROTATION NOROTATE
/METHOD=CORRELATION.

MATRIX DATA VARIABLES=GS AR WK PC NO CS ASI MK MC EI
/contents=corr
/N=626.
BEGIN DATA.
1
.477 1
.641 .529 1
.516 .498 .662 1
.366 .411 .471 .458 1
.288 .330 .431 .439 .573 1
.383 .368 .377 .285 .223 .139 1
.444 .637 .505 .534 .432 .339 .297 1
.394 .416 .382 .321 .255 .247 .435 .372 1
.509 .411 .503 .406 .260 .241 .533 .341 .477 1
END DATA.
EXECUTE.

FACTOR MATRIX=IN(COR=*)
/MISSING LISTWISE
/PRINT UNIVARIATE INITIAL CORRELATION SIG DET KMO EXTRACTION
/PLOT EIGEN
/CRITERIA MINEIGEN(1) ITERATE(25)
/EXTRACTION PC
/ROTATION NOROTATE
/METHOD=CORRELATION.

MATRIX DATA VARIABLES=GS AR WK PC NO CS ASI MK MC EI
/contents=corr
/N=350.
BEGIN DATA.
1
.740 1
.845 .726 1
.794 .710 .830 1
.584 .667 .678 .646 1
.543 .558 .637 .664 .747 1
.696 .597 .658 .577 .436 .400 1
.730 .828 .693 .676 .639 .534 .496 1
.716 .679 .654 .606 .478 .486 .743 .632 1
.787 .664 .707 .658 .484 .413 .739 .605 .736 1
END DATA.
EXECUTE.

FACTOR MATRIX=IN(COR=*)
/MISSING LISTWISE
/PRINT UNIVARIATE INITIAL CORRELATION SIG DET KMO EXTRACTION
/PLOT EIGEN
/CRITERIA MINEIGEN(1) ITERATE(25)
/EXTRACTION PC
/ROTATION NOROTATE
/METHOD=CORRELATION.

MATRIX DATA VARIABLES=GS AR WK PC NO CS ASI MK MC EI
/contents=corr
/N=350.
BEGIN DATA.
1
.497 1
.601 .506 1
.394 .480 .547 1
.264 .359 .374 .410 1
.187 .204 .257 .336 .501 1
.397 .383 .350 .210 .077 -.046 1
.503 .654 .494 .475 .390 .291 .277 1
.443 .500 .370 .307 .231 .110 .600 .422 1
.449 .528 .465 .431 .258 .093 .556 .468 .497 1
END DATA.
EXECUTE.

FACTOR MATRIX=IN(COR=*)
/MISSING LISTWISE
/PRINT UNIVARIATE INITIAL CORRELATION SIG DET KMO EXTRACTION
/PLOT EIGEN
/CRITERIA MINEIGEN(1) ITERATE(25)
/EXTRACTION PC
/ROTATION NOROTATE
/METHOD=CORRELATION.

MATRIX DATA VARIABLES=GS AR WK PC NO CS ASI MK MC EI
/contents=corr
/N=1222.
BEGIN DATA.
1
.764 1
.843 .750 1
.761 .738 .846 1
.578 .690 .651 .676 1
.502 .587 .608 .632 .751 1
.635 .513 .534 .442 .297 .242 1
.754 .869 .729 .722 .693 .609 .411 1
.718 .699 .626 .574 .439 .388 .740 .631 1
.784 .671 .704 .619 .460 .397 .742 .620 .757 1
END DATA.
EXECUTE.

FACTOR MATRIX=IN(COR=*)
/MISSING LISTWISE
/PRINT UNIVARIATE INITIAL CORRELATION SIG DET KMO EXTRACTION
/PLOT EIGEN
/CRITERIA MINEIGEN(1) ITERATE(25)
/EXTRACTION PC
/ROTATION NOROTATE
/METHOD=CORRELATION.

MATRIX DATA VARIABLES=GS AR WK PC NO CS ASI MK MC EI
/contents=corr
/N=1222.
BEGIN DATA.
1
.529 1
.612 .523 1
.426 .479 .622 1
.266 .434 .419 .418 1
.196 .305 .336 .387 .540 1
.505 .391 .315 .184 .066 -.026 1
.498 .693 .503 .436 .437 .354 .258 1
.516 .499 .378 .280 .171 .112 .624 .423 1
.606 .463 .469 .306 .182 .069 .632 .411 .599 1
END DATA.
EXECUTE.

FACTOR MATRIX=IN(COR=*)
/MISSING LISTWISE
/PRINT UNIVARIATE INITIAL CORRELATION SIG DET KMO EXTRACTION
/PLOT EIGEN
/CRITERIA MINEIGEN(1) ITERATE(25)
/EXTRACTION PC
/ROTATION NOROTATE
/METHOD=CORRELATION.

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