Similarity in the g factor structure between and within families across racial groups : NLSY97 SPSS syntax

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IF R0538700=2 BHW=1.
IF R1482600=2 BHW=2.
IF R0538700=1 and R1482600=4 BHW=3.

RECODE R1309100 (13 thru 14=1) (15 thru 26=2) (74 thru 85=2) INTO SIBLING.
EXECUTE.

RECODE R9705200 (0 thru 100000000=Copy) INTO GSPOSrecode.
VARIABLE LABELS GSPOSrecode ‘GSPOSrecode’.
EXECUTE.

RECODE R9705300 (0 thru 100000000=Copy) INTO ARPOSrecode.
VARIABLE LABELS ARPOSrecode ‘ARPOSrecode’.
EXECUTE.

RECODE R9705400 (0 thru 100000000=Copy) INTO WKPOSrecode.
VARIABLE LABELS WKPOSrecode ‘WKPOSrecode’.
EXECUTE.

RECODE R9705500 (0 thru 100000000=Copy) INTO PCPOSrecode.
VARIABLE LABELS PCPOSrecode ‘PCPOSrecode’.
EXECUTE.

RECODE R9705600 (0 thru 100000000=Copy) INTO NOPOSrecode.
VARIABLE LABELS NOPOSrecode ‘NOPOSrecode’.
EXECUTE.

RECODE R9705700 (0 thru 100000000=Copy) INTO CSPOSrecode.
VARIABLE LABELS CSPOSrecode ‘CSPOSrecode’.
EXECUTE.

RECODE R9705800 (0 thru 100000000=Copy) INTO AIPOSrecode.
VARIABLE LABELS AIPOSrecode ‘AIPOSrecode’.
EXECUTE.

RECODE R9705900 (0 thru 100000000=Copy) INTO SIPOSrecode.
VARIABLE LABELS SIPOSrecode ‘SIPOSrecode’.
EXECUTE.

RECODE R9706000 (0 thru 100000000=Copy) INTO MKPOSrecode.
VARIABLE LABELS MKPOSrecode ‘MKPOSrecode’.
EXECUTE.

RECODE R9706100 (0 thru 100000000=Copy) INTO MCPOSrecode.
VARIABLE LABELS MCPOSrecode ‘MCPOSrecode’.
EXECUTE.

RECODE R9706200 (0 thru 100000000=Copy) INTO EIPOSrecode.
VARIABLE LABELS EIPOSrecode ‘EIPOSrecode’.
EXECUTE.

RECODE R9706300 (0 thru 100000000=Copy) INTO AOPOSrecode.
VARIABLE LABELS AOPOSrecode ‘AOPOSrecode’.
EXECUTE.

RECODE R9706400 (0 thru 100000000=Copy) INTO GSNEGrecode.
VARIABLE LABELS GSNEGrecode ‘GSNEGrecode’.
EXECUTE.

RECODE R9706500 (0 thru 100000000=Copy) INTO ARNEGrecode.
VARIABLE LABELS ARNEGrecode ‘ARNEGrecode’.
EXECUTE.

RECODE R9706600 (0 thru 100000000=Copy) INTO WKNEGrecode.
VARIABLE LABELS WKNEGrecode ‘WKNEGrecode’.
EXECUTE.

RECODE R9706700 (0 thru 100000000=Copy) INTO PCNEGrecode.
VARIABLE LABELS PCNEGrecode ‘PCNEGrecode’.
EXECUTE.

RECODE R9706800 (0 thru 100000000=Copy) INTO NONEGrecode.
VARIABLE LABELS NONEGrecode ‘NONEGrecode’.
EXECUTE.

RECODE R9706900 (0 thru 100000000=Copy) INTO CSNEGrecode.
VARIABLE LABELS CSNEGrecode ‘CSNEGrecode’.
EXECUTE.

RECODE R9707000 (0 thru 100000000=Copy) INTO AINEGrecode.
VARIABLE LABELS AINEGrecode ‘AINEGrecode’.
EXECUTE.

RECODE R9707100 (0 thru 100000000=Copy) INTO SINEGrecode.
VARIABLE LABELS SINEGrecode ‘SINEGrecode’.
EXECUTE.

RECODE R9707200 (0 thru 100000000=Copy) INTO MKNEGrecode.
VARIABLE LABELS MKNEGrecode ‘MKNEGrecode’.
EXECUTE.

RECODE R9707300 (0 thru 100000000=Copy) INTO MCNEGrecode.
VARIABLE LABELS MCNEGrecode ‘MCNEGrecode’.
EXECUTE.

RECODE R9707400 (0 thru 100000000=Copy) INTO EINEGrecode.
VARIABLE LABELS EINEGrecode ‘EINEGrecode’.
EXECUTE.

RECODE R9707500 (0 thru 100000000=Copy) INTO AONEGrecode.
VARIABLE LABELS AONEGrecode ‘AONEGrecode’.
EXECUTE.

COMPUTE RECODEGSNEG=GSNEGrecode*-1.
VARIABLE LABELS RECODEGSNEG.

COMPUTE RECODEARNEG=ARNEGrecode*-1.
VARIABLE LABELS RECODEARNEG.

COMPUTE RECODEWKNEG=WKNEGrecode*-1.
VARIABLE LABELS RECODEWKNEG.

COMPUTE RECODEPCNEG=PCNEGrecode*-1.
VARIABLE LABELS RECODEPCNEG.

COMPUTE RECODENONEG=NONEGrecode*-1.
VARIABLE LABELS RECODENONEG.

COMPUTE RECODECSNEG=CSNEGrecode*-1.
VARIABLE LABELS RECODECSNEG.

COMPUTE RECODEAINEG=AINEGrecode*-1.
VARIABLE LABELS RECODEAINEG.

COMPUTE RECODESINEG=SINEGrecode*-1.
VARIABLE LABELS RECODESINEG.

COMPUTE RECODEMKNEG=MKNEGrecode*-1.
VARIABLE LABELS RECODEMKNEG.

COMPUTE RECODEMCNEG=MCNEGrecode*-1.
VARIABLE LABELS RECODEMCNEG.

COMPUTE RECODEEINEG=EINEGrecode*-1.
VARIABLE LABELS RECODEEINEG.

COMPUTE RECODEAONEG=AONEGrecode*-1.
VARIABLE LABELS RECODEAONEG.

COMPUTE CombGS = SUM(GSPOSrecode, RECODEGSNEG).
EXECUTE.

COMPUTE CombAR = SUM(ARPOSrecode, RECODEARNEG).
EXECUTE.

COMPUTE CombWK = SUM(WKPOSrecode, RECODEWKNEG).
EXECUTE.

COMPUTE CombPC = SUM(PCPOSrecode, RECODEPCNEG).
EXECUTE.

COMPUTE CombNO = SUM(NOPOSrecode, RECODENONEG).
EXECUTE.

COMPUTE CombCS = SUM(CSPOSrecode, RECODECSNEG).
EXECUTE.

COMPUTE CombAI = SUM(AIPOSrecode, RECODEAINEG).
EXECUTE.

COMPUTE CombSI = SUM(SIPOSrecode, RECODESINEG).
EXECUTE.

COMPUTE CombMK = SUM(MKPOSrecode, RECODEMKNEG).
EXECUTE.

COMPUTE CombMC = SUM(MCPOSrecode, RECODEMCNEG).
EXECUTE.

COMPUTE CombEI = SUM(EIPOSrecode, RECODEEINEG).
EXECUTE.

COMPUTE CombAO = SUM(AOPOSrecode, RECODEAONEG).
EXECUTE.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombGS
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombAR
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombWK
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombPC
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombNO
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombCS
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombAI
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombSI
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombMK
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombMC
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombEI
/METHOD=ENTER R0536402
/SAVE ZRESID.

REGRESSION
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT CombAO
/METHOD=ENTER R0536402
/SAVE ZRESID.

SORT CASES BY R1193000 R0000100.
CASESTOVARS
/ID = R1193000
/GROUPBY = VARIABLE.

COMPUTE BF_corr_ASVAB1=(ZRE_1.1+ZRE_1.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB2=(ZRE_2.1+ZRE_2.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB3=(ZRE_3.1+ZRE_3.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB4=(ZRE_4.1+ZRE_4.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB5=(ZRE_5.1+ZRE_5.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB6=(ZRE_6.1+ZRE_6.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB7=(ZRE_7.1+ZRE_7.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB8=(ZRE_8.1+ZRE_8.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB9=(ZRE_9.1+ZRE_9.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB10=(ZRE_10.1+ZRE_10.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB11=(ZRE_11.1+ZRE_11.2)/2.
EXECUTE.
COMPUTE BF_corr_ASVAB12=(ZRE_12.1+ZRE_12.2)/2.
EXECUTE.

COMPUTE WF_corr_ASVAB1=(ZRE_1.1-ZRE_1.2).
EXECUTE.
COMPUTE WF_corr_ASVAB2=(ZRE_2.1-ZRE_2.2).
EXECUTE.
COMPUTE WF_corr_ASVAB3=(ZRE_3.1-ZRE_3.2).
EXECUTE.
COMPUTE WF_corr_ASVAB4=(ZRE_4.1-ZRE_4.2).
EXECUTE.
COMPUTE WF_corr_ASVAB5=(ZRE_5.1-ZRE_5.2).
EXECUTE.
COMPUTE WF_corr_ASVAB6=(ZRE_6.1-ZRE_6.2).
EXECUTE.
COMPUTE WF_corr_ASVAB7=(ZRE_7.1-ZRE_7.2).
EXECUTE.
COMPUTE WF_corr_ASVAB8=(ZRE_8.1-ZRE_8.2).
EXECUTE.
COMPUTE WF_corr_ASVAB9=(ZRE_9.1-ZRE_9.2).
EXECUTE.
COMPUTE WF_corr_ASVAB10=(ZRE_10.1-ZRE_10.2).
EXECUTE.
COMPUTE WF_corr_ASVAB11=(ZRE_11.1-ZRE_11.2).
EXECUTE.
COMPUTE WF_corr_ASVAB12=(ZRE_12.1-ZRE_12.2).
EXECUTE.

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

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

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

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

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

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

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

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

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

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

COMPUTE WF_ASVAB11_powers2=WF_corr_ASVAB11*WF_corr_ASVAB11.
EXECUTE.
COMPUTE WF_ASVAB11_powers3=WF_corr_ASVAB11*WF_corr_ASVAB11*WF_corr_ASVAB11.
EXECUTE.
COMPUTE WF_ASVAB11_powers4=WF_corr_ASVAB11*WF_corr_ASVAB11*WF_corr_ASVAB11*WF_corr_ASVAB11.
EXECUTE.
COMPUTE WF_ASVAB11_powers5=WF_corr_ASVAB11*WF_corr_ASVAB11*WF_corr_ASVAB11*WF_corr_ASVAB11*WF_corr_ASVAB11.
EXECUTE.

COMPUTE WF_ASVAB12_powers2=WF_corr_ASVAB12*WF_corr_ASVAB12.
EXECUTE.
COMPUTE WF_ASVAB12_powers3=WF_corr_ASVAB12*WF_corr_ASVAB12*WF_corr_ASVAB12.
EXECUTE.
COMPUTE WF_ASVAB12_powers4=WF_corr_ASVAB12*WF_corr_ASVAB12*WF_corr_ASVAB12*WF_corr_ASVAB12.
EXECUTE.
COMPUTE WF_ASVAB12_powers5=WF_corr_ASVAB12*WF_corr_ASVAB12*WF_corr_ASVAB12*WF_corr_ASVAB12*WF_corr_ASVAB12.
EXECUTE.

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

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

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

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

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

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

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

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

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

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

COMPUTE BF_ASVAB11_powers2=BF_corr_ASVAB11*BF_corr_ASVAB11.
EXECUTE.
COMPUTE BF_ASVAB11_powers3=BF_corr_ASVAB11*BF_corr_ASVAB11*BF_corr_ASVAB11.
EXECUTE.
COMPUTE BF_ASVAB11_powers4=BF_corr_ASVAB11*BF_corr_ASVAB11*BF_corr_ASVAB11*BF_corr_ASVAB11.
EXECUTE.
COMPUTE BF_ASVAB11_powers5=BF_corr_ASVAB11*BF_corr_ASVAB11*BF_corr_ASVAB11*BF_corr_ASVAB11*BF_corr_ASVAB11.
EXECUTE.

COMPUTE BF_ASVAB12_powers2=BF_corr_ASVAB12*BF_corr_ASVAB12.
EXECUTE.
COMPUTE BF_ASVAB12_powers3=BF_corr_ASVAB12*BF_corr_ASVAB12*BF_corr_ASVAB12.
EXECUTE.
COMPUTE BF_ASVAB12_powers4=BF_corr_ASVAB12*BF_corr_ASVAB12*BF_corr_ASVAB12*BF_corr_ASVAB12.
EXECUTE.
COMPUTE BF_ASVAB12_powers5=BF_corr_ASVAB12*BF_corr_ASVAB12*BF_corr_ASVAB12*BF_corr_ASVAB12*BF_corr_ASVAB12.
EXECUTE.

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 BF_corr_ASVAB11
/METHOD=STEPWISE WF_corr_ASVAB11 WF_ASVAB11_powers2 WF_ASVAB11_powers3 WF_ASVAB11_powers4 WF_ASVAB11_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_ASVAB12
/METHOD=STEPWISE WF_corr_ASVAB12 WF_ASVAB12_powers2 WF_ASVAB12_powers3 WF_ASVAB12_powers4 WF_ASVAB12_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.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB11
/METHOD=STEPWISE BF_corr_ASVAB11 BF_ASVAB11_powers2 BF_ASVAB11_powers3 BF_ASVAB11_powers4 BF_ASVAB11_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_ASVAB12
/METHOD=STEPWISE BF_corr_ASVAB12 BF_ASVAB12_powers2 BF_ASVAB12_powers3 BF_ASVAB12_powers4 BF_ASVAB12_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 BF_corr_ASVAB11
/METHOD=STEPWISE WF_corr_ASVAB11 WF_ASVAB11_powers2 WF_ASVAB11_powers3 WF_ASVAB11_powers4 WF_ASVAB11_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_ASVAB12
/METHOD=STEPWISE WF_corr_ASVAB12 WF_ASVAB12_powers2 WF_ASVAB12_powers3 WF_ASVAB12_powers4 WF_ASVAB12_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.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB11
/METHOD=STEPWISE BF_corr_ASVAB11 BF_ASVAB11_powers2 BF_ASVAB11_powers3 BF_ASVAB11_powers4 BF_ASVAB11_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_ASVAB12
/METHOD=STEPWISE BF_corr_ASVAB12 BF_ASVAB12_powers2 BF_ASVAB12_powers3 BF_ASVAB12_powers4 BF_ASVAB12_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 BF_corr_ASVAB11
/METHOD=STEPWISE WF_corr_ASVAB11 WF_ASVAB11_powers2 WF_ASVAB11_powers3 WF_ASVAB11_powers4 WF_ASVAB11_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_ASVAB12
/METHOD=STEPWISE WF_corr_ASVAB12 WF_ASVAB12_powers2 WF_ASVAB12_powers3 WF_ASVAB12_powers4 WF_ASVAB12_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.

REGRESSION
/DESCRIPTIVES MEAN STDDEV CORR SIG N
/MISSING LISTWISE
/STATISTICS COEFF OUTS R ANOVA CHANGE
/CRITERIA=PIN(.05) POUT(.10)
/NOORIGIN
/DEPENDENT WF_corr_ASVAB11
/METHOD=STEPWISE BF_corr_ASVAB11 BF_ASVAB11_powers2 BF_ASVAB11_powers3 BF_ASVAB11_powers4 BF_ASVAB11_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_ASVAB12
/METHOD=STEPWISE BF_corr_ASVAB12 BF_ASVAB12_powers2 BF_ASVAB12_powers3 BF_ASVAB12_powers4 BF_ASVAB12_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 BF_corr_ASVAB11 BF_corr_ASVAB12
/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 WF_corr_ASVAB11 WF_corr_ASVAB12
/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 BF_corr_ASVAB11 BF_corr_ASVAB12
/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 WF_corr_ASVAB11 WF_corr_ASVAB12
/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 BF_corr_ASVAB11 BF_corr_ASVAB12
/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 WF_corr_ASVAB11 WF_corr_ASVAB12
/PRINT=TWOTAIL NOSIG
/STATISTICS DESCRIPTIVES
/MISSING=LISTWISE.

MATRIX DATA VARIABLES=GS AR WK PC NO CS AI SI MK MC EI AO
/contents=corr
/N=275.
BEGIN DATA.
1
.697 1
.847 .732 1
.766 .798 .806 1
.515 .635 .569 .602 1
.388 .441 .427 .482 .583 1
.504 .422 .494 .442 .276 .232 1
.597 .478 .586 .517 .302 .237 .493 1
.715 .816 .765 .78 .711 .524 .382 .427 1
.7 .697 .691 .722 .492 .392 .541 .601 .671 1
.788 .718 .802 .751 .55 .367 .512 .58 .709 .727 1
.608 .66 .586 .685 .402 .408 .429 .465 .65 .691 .621 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 AI SI MK MC EI AO
/contents=corr
/N=275.
BEGIN DATA.
1
.548 1
.561 .526 1
.464 .561 .497 1
.385 .546 .395 .469 1
.257 .315 .231 .43 .399 1
.36 .352 .352 .308 .131 .173 1
.391 .353 .347 .271 .225 .152 .333 1
.561 .68 .548 .541 .588 .325 .31 .332 1
.375 .427 .37 .464 .249 .239 .385 .344 .347 1
.448 .53 .473 .542 .343 .27 .335 .301 .487 .446 1
.367 .47 .288 .44 .299 .251 .23 .155 .458 .338 .384 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 AI SI MK MC EI AO
/contents=corr
/N=257.
BEGIN DATA.
1
.687 1
.824 .724 1
.761 .755 .779 1
.463 .614 .547 .505 1
.437 .465 .468 .521 .613 1
.526 .385 .465 .357 .144 .158 1
.617 .444 .538 .42 .196 .215 .564 1
.671 .794 .667 .733 .67 .557 .328 .342 1
.661 .66 .617 .681 .358 .404 .455 .5 .615 1
.787 .655 .757 .705 .45 .412 .576 .678 .599 .673 1
.544 .613 .477 .626 .368 .45 .34 .33 .653 .655 .532 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 AI SI MK MC EI AO
/contents=corr
/N=257.
BEGIN DATA.
1
.397 1
.587 .455 1
.452 .521 .509 1
.252 .513 .276 .453 1
.22 .372 .166 .374 .409 1
.274 .197 .281 .191 .087 .021 1
.25 .13 .234 .108 -.02 -.035 .255 1
.404 .563 .36 .488 .532 .349 .168 .157 1
.383 .413 .279 .381 .32 .131 .204 .287 .426 1
.472 .429 .47 .402 .286 .198 .318 .364 .35 .392 1
.262 .327 .244 .424 .288 .287 .089 .099 .384 .345 .246 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 AI SI MK MC EI AO
/contents=corr
/N=656.
BEGIN DATA.
1
.704 1
.81 .685 1
.727 .748 .766 1
.441 .591 .464 .526 1
.422 .518 .445 .56 .61 1
.456 .366 .401 .316 .14 .106 1
.513 .394 .433 .337 .094 .098 .641 1
.681 .826 .668 .737 .662 .591 .243 .278 1
.729 .711 .655 .676 .369 .389 .518 .585 .632 1
.722 .587 .641 .584 .336 .323 .571 .613 .524 .704 1
.557 .642 .504 .61 .38 .458 .241 .329 .629 .63 .479 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 AI SI MK MC EI AO
/contents=corr
/N=656.
BEGIN DATA.
1
.574 1
.64 .537 1
.523 .547 .551 1
.354 .513 .396 .385 1
.246 .359 .319 .358 .343 1
.374 .311 .291 .192 .129 .059 1
.342 .223 .32 .128 .064 .007 .493 1
.545 .636 .491 .57 .548 .402 .201 .131 1
.514 .501 .431 .422 .257 .233 .422 .443 .445 1
.538 .416 .485 .378 .211 .171 .45 .466 .379 .552 1
.359 .413 .306 .38 .238 .306 .186 .176 .44 .468 .319 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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