* v1 kopieren in v2 * data met 9999 verwijderen. Zijn eigen testcases. * hoeveel complete data? SORT CASES BY Q17_6(D). IF (q17_6>0) CompleteData=1. execute. Recode CompleteData (sysmis=0). execute. FREQUENCIES VARIABLES=CompleteData /ORDER=ANALYSIS. * DEMOGRAPHICS * Q34 IS LEEFTIJD MAAR ALS STRING IN SPSS - CONTROLEREN VOOR TEKST EN DAARNA OMZETTEN NAAR NUMERIEK - R_2VIvzkbxzEzTszF MZ 31 -R_R_50dPqz6NfcZxXAp MZ 84 - R_3KB0sFdN2rlWwTH MZ 66 - R_2uPZrKEBcBcaUst 46 * Q22 IS LENGTE IN CM MAAR ALS STRING IN SPSS - CONTROLEREN VOOR TEKST EN DAARNA OMZETTEN NAAR NUMERIEK - R_1hG4YcUEC5ic4O7 MZ 172 - R_WAstpuezY0NhJTP MZ 175 - R_3QFX8xQEP38uRtO MZ 179 - R_2eWIhM8QNDPd85I MZ 172 - R_2q1Smgno3Ox15cC MZ 170 - R_PH9TprNYpas5zl7 MZ 176 - R_33g8GX7I0OKOLSx MZ 177 - R_1NDOzkQOTspqyI2 MZ 168 - R_3F8G9mHIxfdlRkh MZ 167 - R_1dN2qK08LiCcRuy MZ 165 - R_31TUhHNvlHu4vmS MZ 178 - R_1Duq9yrYpcaEPEi MZ 169 - R_2EgWXm8pRkaEC9i MZ 166 - R_2sXE1qvN7t8u9te MZ 188 - EN NOG EEN HOOP. * idem voor q23.0 is gewicht in KG maar als string in spss Recode q3 (1=1)(2=2) into GenderT1. Recode q34 (lowest thru highest=copy) into AgeT1. Recode q4 (lowest thru highest=copy) into EducationT1. Recode q22 (lowest thru highest=copy) into LengthT1_cm. Recode q23.0 (lowest thru highest=copy) into WeightT1. execute. Compute Length_T1mtr = LengthT1_cm/100. execute. Compute Length_T1mtr2 = Length_T1mtr*Length_T1mtr. execute. Compute BMIT1 = WeightT1/Length_T1mtr2. execute. Value labels GenderT1 1 'male' 2 'female'. FREQUENCIES VARIABLES=GenderT1 AgeT1 EducationT1 BMIT1 /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. SORT CASES BY BMIT1(D). * FRUIT INTAKE Recode q5_1 q5_2 q5_3 q5_4 q5_5 q5_6 (1=0) (2=,5) (3=1)(4=2)(5=3)(6=4)(7=5)(8=6)(9=7) into FreqAppT1a FreqCitrT1a FreqBanT1a FreqTangT1a FreqSmallFrtT1a FreqOtherT1a. execute. FREQUENCIES VARIABLES=Q24_1 Q24_2 Q24_3 Q24_4 Q24_5 Q24_6 /ORDER=ANALYSIS. = heel erg weinig mensen met 6 of meer per dag, dus maximaliseren op 6 via 8=6. Recode q24_1 q24_2 q24_3 q24_4 q24_5 q24_6 (1=0) (2=,5) (3=1)(4=2)(5=3)(6=4)(7=5)(8=6) into PieceAppT1a PieceCitrT1a PieceBanT1a PieceTangT1a PieceSmallFrtT1a PieceOtherT1a. execute. Compute PieceTangT1a_2 = PieceTangT1a/2. execute. FREQUENCIES VARIABLES=FreqAppT1a FreqCitrT1a FreqBanT1a FreqTangT1a FreqSmallFrtT1a FreqOtherT1a PieceAppT1a PieceCitrT1a PieceBanT1a PieceTangT1a_2 PieceSmallFrtT1a PieceOtherT1a /ORDER=ANALYSIS. Recode FreqAppT1a FreqCitrT1a FreqBanT1a FreqTangT1a FreqSmallFrtT1a FreqOtherT1a PieceAppT1a PieceCitrT1a PieceBanT1a PieceTangT1a_2 PieceSmallFrtT1a PieceOtherT1a (sysmis=999). execute. IF (FreqAppT1a=0) & (PieceAppT1a=999) PieceAppT1a=0. IF (FreqAppT1a=999) & (PieceAppT1a=0) FreqAppT1a=0. IF (FreqCitrT1a=0) & (PieceCitrT1a=999) PieceCitrT1a=0. IF (FreqCitrT1a=999) & (PieceCitrT1a=0) FreqCitrT1a=0. IF (FreqBanT1a=0) & (PieceBanT1a=999) PieceBanT1a=0. IF (FreqBanT1a=999) & (PieceBanT1a=0) FreqBanT1a=0. IF (FreqTangT1a=0) & (PieceTangT1a_2=999) PieceTangT1a_2=0. IF (FreqTangT1a=999) & (PieceTangT1a_2=0) FreqTangT1a=0. IF (FreqSmallFrtT1a=0) & (PieceSmallFrtT1a=999) PieceSmallFrtT1a=0. IF (FreqSmallFrtT1a=999) & (PieceSmallFrtT1a=0) FreqSmallFrtT1a=0. IF (FreqOtherT1a=0) & (PieceOtherT1a=999) PieceOtherT1a=0. IF (FreqOtherT1a=999) & (PieceOtherT1a=0) FreqOtherT1a=0. execute. IF (FreqAppT1a>0) & (PieceAppT1a=999) PieceAppT1a=1. IF (FreqAppT1a=999) & (PieceAppT1a>0) FreqAppT1a=1. IF (FreqCitrT1a>0) & (PieceCitrT1a=999) PieceCitrT1a=1. IF (FreqCitrT1a=999) & (PieceCitrT1a>0) FreqCitrT1a=1. IF (FreqBanT1a>0) & (PieceBanT1a=999) PieceBanT1a=1. IF (FreqBanT1a=999) & (PieceBanT1a>0) FreqBanT1a=1. IF (FreqTangT1a>0) & (PieceTangT1a_2=999) PieceTangT1a_2=1. IF (FreqTangT1a=999) & (PieceTangT1a>0) FreqTangT1a=1. IF (FreqSmallFrtT1a>0) & (PieceSmallFrtT1a=999) PieceSmallFrtT1a=1. IF (FreqSmallFrtT1a=999) & (PieceSmallFrtT1a>0) FreqSmallFrtT1a=1. IF (FreqOtherT1a>0) & (PieceOtherT1a=999) PieceOtherT1a=1. IF (FreqOtherT1a=999) & (PieceOtherT1a>0) FreqOtherT1a=1. execute. Recode FreqAppT1a FreqCitrT1a FreqBanT1a FreqTangT1a FreqSmallFrtT1a FreqOtherT1a PieceAppT1a PieceCitrT1a PieceBanT1a PieceTangT1a_2 PieceSmallFrtT1a PieceOtherT1a (999=sysmis). execute. FREQUENCIES VARIABLES=PieceAppT1a PieceCitrT1a PieceBanT1a PieceTangT1a_2 PieceSmallFrtT1a PieceOtherT1a /ORDER=ANALYSIS. * veel stuks. Aftoppen behalve mandarijnen IF (PieceAppT1a >2) PieceAppT1a=2. IF (PieceCitrT1a >2) PieceCitrT1a=2. IF (PieceBanT1a >2) PieceBanT1a=2. IF (PieceSmallFrtT1a >2) PieceSmallFrtT1a=2. IF (PieceOtherT1a >2) PieceOtherT1a=2. execute. Compute AppleT1a = (FreqAppT1a*PieceAppT1a)/7. Compute CitrusT1a = (FreqCitrT1a*PieceCitrT1a)/7. Compute BananaT1a = (FreqBanT1a*PieceBanT1a)/7. Compute TangerineT1a = (FreqTangT1a *(PieceTangT1a_2) )/7. Compute SmallFrtT1a = (FreqSmallFrtT1a*PieceSmallFrtT1a)/7. Compute OtherFrtT1a = (FreqOtherT1a*PieceOtherT1a)/7. execute. Compute TotFrtT1a = AppleT1a+CitrusT1a+BananaT1a+TangerineT1a+SmallFrtT1a+OtherFrtT1a. execute. SORT CASES BY TotFrtT1a(D). FREQUENCIES VARIABLES=AppleT1a CitrusT1a BananaT1a TangerineT1a SmallFrtT1a OtherFrtT1a TotFrtT1a /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. Recode q27_1 (1=-3)(2=-2)(3=-1)(4=0)(5=1)(6=2)(7=3) into CompareOwnIntake. execute. * CFC SCALE * from http://web.missouri.edu/~strathmana/CFC%20%20English.pdf (zie ook in map) *Scoring -- Generally, the CFC Scale is scored so that higher numbers indicate a greater consideration of future consequences. *To do this, items 3, 4, 5, 9, 10, 11, 12 should be reverse-scored. This can be done by creating a new variable which is "6-response" for each of the reverse-scored items. *These seven new variables should then be summed along with the five items which need not be reversed (items 1, 2, 6, 7, 8). Recode q25_1 q25_2 q25_6 q26_1 q26_2 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into CFC_T1a CFC_T1b CFC_T1f CFC_T1g CFC_T1h. Recode q25_3 q25_4 q25_5 q26_3 q26_4 q26_5 q26_6 (1=-3)(2=-2)(3=-1)(4=0)(5=1)(6=2)(7=-3) into CFC_T1c CFC_T1d CFC_T1e CFC_T1i CFC_T1j CFC_T1k CFC_T1l. execute. RELIABILITY /VARIABLES=CFC_T1a CFC_T1b CFC_T1f CFC_T1g CFC_T1h CFC_T1c CFC_T1d CFC_T1e CFC_T1i CFC_T1j CFC_T1k CFC_T1l /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. * POOR ALPHA Compute CFC_T1 = (CFC_T1a +CFC_T1b+ CFC_T1f+ CFC_T1g +CFC_T1h+ CFC_T1c +CFC_T1d +CFC_T1e +CFC_T1i +CFC_T1j +CFC_T1k +CFC_T1l )/12. execute. * SOCIO-COGNITIVE CONSTRUCTS Recode q18_1 q18_2 q18_3 q18_4 (1=-3)(2=-2)(3=-1)(4=0)(5=1)(6=2)(7=3) into Involv_T1a Involv_T1b Involv_T1c Involv_T1d. execute. RELIABILITY /VARIABLES=Involv_T1a Involv_T1b Involv_T1c Involv_T1d /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. Compute InvolvementT1a = (Involv_T1a +Involv_T1b + Involv_T1c +Involv_T1d)/4. execute. Recode q11_1 q11_2 q11_3 q11_4 q11_5 q11_6 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into PBC_T1a PBC_T1b PBC_T1c PBC_T1d PBC_T1e PBC_T1f. execute. RELIABILITY /VARIABLES=PBC_T1a PBC_T1b PBC_T1c PBC_T1f /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. RELIABILITY /VARIABLES=PBC_T1d PBC_T1e /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. Compute SelfEfficacyT1a = (PBC_T1a+ PBC_T1b+ PBC_T1c +PBC_T1f)/4. Compute ControllT1a = ( PBC_T1d+ PBC_T1e)/2. execute. * MESSAGES AND MANIPULATION CHECKS FREQUENCIES VARIABLES=Q19 q20 q21 q22.0 /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. IF (q19>0) ConditionTot=1. IF (q20>0) ConditionTot=2. IF (q21>0) ConditionTot=3. IF (q22.0>0) ConditionTot=4. execute. value label ConditionTot 1 'Gain Short Term' 2 'Gain Long Term' 3 'Loss Short Term' 4 'Loss Long Term'. FREQUENCIES VARIABLES=ConditionTot /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. IF (ConditionTot=1) | (ConditionTot=3) TypeTerm=0. IF (ConditionTot=2) | (ConditionTot=4) TypeTerm=1. IF (ConditionTot=1) | (ConditionTot=2) TypeFrame=1. IF (ConditionTot=3) | (ConditionTot=4) TypeFrame=0. execute. value label TypeTerm 0 'Short Term' 1 'Long Term'. value label TypeFrame 0 'Loss Frame' 1 'Gain Frame'. CROSSTABS /TABLES=TypeTerm BY TypeFrame /FORMAT=AVALUE TABLES /STATISTICS=CHISQ /CELLS=COUNT /COUNT ROUND CELL. Recode Q19__1.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckFrame. Recode Q20__1.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckTemp. Recode Q45__2.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckFrame. Recode Q46__2.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckTemp. Recode Q43__3.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckFrame. Recode Q44__3.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckTemp. Recode Q47__4.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckFrame. Recode Q48__4.Man_1 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into ManCheckTemp. execute. FREQUENCIES VARIABLES=ManCheckFrame ManCheckTemp /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. * POST MESSAGE VARIABLES (q17 niet doen) Recode q6_1 q6_2 q6_3 q6_4 q6_5 q6_6 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into IntentT1b_a IntentT1b_b IntentT1b_c ResolveT1b_a ResolveT1b_b ResolveT1b_c. execute. RELIABILITY /VARIABLES=IntentT1b_a IntentT1b_b IntentT1b_c /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. RELIABILITY /VARIABLES=ResolveT1b_a ResolveT1b_b ResolveT1b_c /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. Compute IntentT1b = (IntentT1b_a+IntentT1b_b+ IntentT1b_c)/3. Compute ResolveT1b = (ResolveT1b_a+ ResolveT1b_b+ ResolveT1b_c)/3. execute. Recode Q9_1 Q9_2 Q9_3 Q9_4 Q9_5 (1=-3)(2=-2)(3=-1)(4=0)(5=1)(6=2)(7=3) into AttT1b_a AttT1b_b AttT1b_c AttT1b_d AttT1b_e. execute. RELIABILITY /VARIABLES=AttT1b_a AttT1b_e /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. RELIABILITY /VARIABLES=AttT1b_b AttT1b_c AttT1b_d /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. RELIABILITY /VARIABLES=AttT1b_b AttT1b_c AttT1b_d AttT1b_a AttT1b_e /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. Compute CognAttT1b = (AttT1b_a +AttT1b_e)/2. Compute AffAttT1b = (AttT1b_b +AttT1b_c +AttT1b_d)/3. Compute AttT1b = (AttT1b_a+ AttT1b_b+ AttT1b_c+ AttT1b_d+ AttT1b_e)/5. execute. Recode q17_1 q17_2 q17_3 q17_4 (1=3)(2=2)(3=1)(4=0)(5=-1)(6=-2)(7=-3) into SevereT1b_a SevereT1b_b SevereT1b_c SevereT1b_d. execute. RELIABILITY /VARIABLES=SevereT1b_a SevereT1b_b SevereT1b_c SevereT1b_d /SCALE('ALL VARIABLES') ALL /MODEL=ALPHA /STATISTICS=DESCRIPTIVE SCALE /SUMMARY=TOTAL. Compute SevereT1b = (SevereT1b_a+ SevereT1b_b +SevereT1b_c +SevereT1b_d)/4. execute. FREQUENCIES VARIABLES=AgeT1 CFC_T1 InvolvementT1a SelfEfficacyT1a ControllT1a TotFrtT1a IntentT1b AttT1b SevereT1b ResolveT1b /STATISTICS=STDDEV MEAN /ORDER=ANALYSIS. SORT CASES BY SevereT1b(A). * we lijken 278 voor boodschap en 277 (intent en severe) en 276 (attitude) na boodschap te hebben. * missing recode to mean Recode IntentT1b (sysmis=1.0505). Recode AttT1b (sysmis=1.4623). Recode SevereT1b (sysmis=-0.0280). Recode ResolveT1b (sysmis=-0.0301). execute. * ANALYSES USE ALL. COMPUTE filter_$=(CompleteData = 1). VARIABLE LABELS filter_$ 'CompleteData = 1 (FILTER)'. VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'. FORMATS filter_$ (f1.0). FILTER BY filter_$. EXECUTE. * randomization check UNIANOVA AgeT1 BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA BMIT1 BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA CFC_T1 BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA InvolvementT1a BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA SelfEfficacyT1a BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA ControllT1a BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA TotFrtT1a BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. CROSSTABS /TABLES=TypeTerm BY TypeFrame BY GenderT1 /FORMAT=AVALUE TABLES /STATISTICS=CHISQ /CELLS=COUNT /COUNT ROUND CELL. * RANDOMIZATION SUCCESSFUL * MANIPULATION CHECK UNIANOVA ManCheckFrame BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA ManCheckTemp BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. * MANIPULATION CHECK SUCCESSFUL * MAIN ANALYSES * TABLE 1 AND 2 DESCRIPTIVES FOR STUDY VARIABLES CORRELATIONS /VARIABLES=GenderT1 AgeT1 CFC_T1 InvolvementT1a SelfEfficacyT1a ControllT1a TotFrtT1a IntentT1b ResolveT1b AttT1b /PRINT=TWOTAIL NOSIG /STATISTICS DESCRIPTIVES /MISSING=PAIRWISE. T-TEST PAIRS=IntentT1b WITH ResolveT1b (PAIRED) /CRITERIA=CI(.9500) /MISSING=ANALYSIS. FREQUENCIES VARIABLES=GenderT1 AgeT1 CFC_T1 InvolvementT1a SelfEfficacyT1a ControllT1a TotFrtT1a IntentT1b ResolveT1b AttT1b SevereT1b /STATISTICS=STDDEV MEAN /ORDER=ANALYSIS. ONEWAY GenderT1 AgeT1 CFC_T1 InvolvementT1a SelfEfficacyT1a ControllT1a TotFrtT1a IntentT1b ResolveT1b AttT1b SevereT1b BY ConditionTot /STATISTICS DESCRIPTIVES /MISSING ANALYSIS /POSTHOC=TUKEY ALPHA(0.05). SORT CASES BY ConditionTot. SPLIT FILE SEPARATE BY ConditionTot. FREQUENCIES VARIABLES=GenderT1 /STATISTICS=STDDEV MEAN /ORDER=ANALYSIS. Split File Off. * 2x2 UNI ANOVA'S ZONDER COVARIATEN UNIANOVA IntentT1b BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA ResolveT1b BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA CognAttT1b BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA AffAttT1b BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA AttT1b BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA SevereT1b BY TypeTerm TypeFrame /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame TypeTerm*TypeFrame. * FOLLOWUPS SIGNIFICANT INTERACTIONS ONEWAY IntentT1b BY ConditionTot /STATISTICS DESCRIPTIVES /MISSING ANALYSIS /POSTHOC=TUKEY ALPHA(0.05). ONEWAY ResolveT1b BY ConditionTot /STATISTICS DESCRIPTIVES /MISSING ANALYSIS /POSTHOC=TUKEY ALPHA(0.05). ONEWAY SevereT1b BY TypeFrame /STATISTICS DESCRIPTIVES /MISSING ANALYSIS /POSTHOC=TUKEY ALPHA(0.05). ONEWAY SevereT1b BY TypeTerm /STATISTICS DESCRIPTIVES /MISSING ANALYSIS /POSTHOC=TUKEY ALPHA(0.05). * COVARIATEN OPNEMEN ZONDER INTERACTIES CONDITIES MET DEZE COVARIATEN UNIANOVA IntentT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA ResolveT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA AttT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a TypeTerm TypeFrame TypeTerm*TypeFrame. UNIANOVA SevereT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN ControllT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a ControllT1a InvolvementT1a CFC_T1 TotFrtT1a TypeTerm TypeFrame TypeTerm*TypeFrame. * COVARIATEN OPNEMEN MET INTERACTIES CONDITIES MET DEZE COVARIATEN * MSS HET NETST OM DEZE OP TE SCHRIJVEN? UNIANOVA AttT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a CFC_T1*TypeFrame CFC_T1*TypeTerm InvolvementT1a*TypeFrame InvolvementT1a*TypeTerm SelfEfficacyT1a*TypeFrame SelfEfficacyT1a*TypeTerm TotFrtT1a*TypeFrame TotFrtT1a*TypeTerm TypeFrame*TypeTerm. UNIANOVA SevereT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a CFC_T1*TypeFrame CFC_T1*TypeTerm InvolvementT1a*TypeFrame InvolvementT1a*TypeTerm SelfEfficacyT1a*TypeFrame SelfEfficacyT1a*TypeTerm TotFrtT1a*TypeFrame TotFrtT1a*TypeTerm TypeFrame*TypeTerm. UNIANOVA IntentT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a CFC_T1*TypeFrame CFC_T1*TypeTerm InvolvementT1a*TypeFrame InvolvementT1a*TypeTerm SelfEfficacyT1a*TypeFrame SelfEfficacyT1a*TypeTerm TotFrtT1a*TypeFrame TotFrtT1a*TypeTerm TypeFrame*TypeTerm. UNIANOVA ResolveT1b BY TypeTerm TypeFrame WITH SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(OVERALL) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN CFC_T1=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame SelfEfficacyT1a InvolvementT1a CFC_T1 TotFrtT1a CFC_T1*TypeFrame CFC_T1*TypeTerm InvolvementT1a*TypeFrame InvolvementT1a*TypeTerm SelfEfficacyT1a*TypeFrame SelfEfficacyT1a*TypeTerm TotFrtT1a*TypeFrame TotFrtT1a*TypeTerm TypeFrame*TypeTerm. *** REVISION JHC *** REVIEWERS SUGGEREN OM ANALYSES TE RUNNEN MET SOCIO-COGNITIVE ALS COVARIATEN (REEDS GEDAAN, DUS SYNTAX HIERONDER COPY/PASTE) *** REVIEWER 1 VRAAG EXPLICIET OM CFC INTERACTIE. DUS CFC OPSLITSEN IN HOOG/LAAG EN ALS FACTOR IN GLM OPVOEREN FREQUENCIES VARIABLES=CFC_T1 /PERCENTILES=50.0 /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. * MEDIAN, MEAN EN MIDSCALE LIGGEN ALLEMAAL ERG DICHT BIJ ELKAAR. MOOI. IF (CFC_T1 <= .17) CFCMed=0. IF (CFC_T1 > .17) CFCMed=1. execute. value label CFCMed 0 'Present Oriented Median' 1 'Future Oriented Median'. FREQUENCIES VARIABLES= CFCMed CFC_T1 /PERCENTILES=50.0 /STATISTICS=STDDEV MEAN MEDIAN /ORDER=ANALYSIS. UNIANOVA ResolveT1b BY TypeTerm TypeFrame CFCMed WITH SelfEfficacyT1a InvolvementT1a TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed)WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a InvolvementT1a TotFrtT1a TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA IntentT1b BY TypeTerm TypeFrame CFCMed WITH SelfEfficacyT1a InvolvementT1a TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed)WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a InvolvementT1a TotFrtT1a TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA AttT1b BY TypeTerm TypeFrame CFCMed WITH SelfEfficacyT1a InvolvementT1a TotFrtT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PLOT=PROFILE(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed)WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(SelfEfficacyT1a=MEAN InvolvementT1a=MEAN TotFrtT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=SelfEfficacyT1a InvolvementT1a TotFrtT1a TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. * REVIEWER #2 - ONVOLDOENDE POWER VOOR ALLE COVARIATEN? * MAIN ANALYSES RUNNEN ZONDER COVARIATEN, ZIE ONDER UNIANOVA ResolveT1b BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA IntentT1b BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA AttT1b BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. # REVIEWER #2 - HOGE CORRELATIE TUSSEN INTENTIE EN RESOLVE. # UNIANOVA RUNNEN MET INTENTIE (VOOR RESOLVE) EN RESOLVE (VOOR INTENTIE) ALS COVARIAAT. UNIANOVA IntentT1b BY CFCMed TypeFrame TypeTerm WITH ResolveT1b /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) WITH(ResolveT1b=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(ResolveT1b=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) WITH(ResolveT1b=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(ResolveT1b=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(ResolveT1b=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed) WITH(ResolveT1b=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(ResolveT1b=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=ResolveT1b TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA IntentT1b BY TypeTerm TypeFrame CFCMed WITH ResolveT1b TotFrtT1a InvolvementT1a SelfEfficacyT1a ControllT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(ResolveT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=ResolveT1b TotFrtT1a InvolvementT1a SelfEfficacyT1a ControllT1a TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA ResolveT1b BY CFCMed TypeFrame TypeTerm WITH IntentT1b /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) WITH(IntentT1b=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(IntentT1b=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) WITH(IntentT1b=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(IntentT1b=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(IntentT1b=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed) WITH(IntentT1b=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(IntentT1b=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=IntentT1b TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA ResolveT1b BY CFCMed TypeFrame TypeTerm WITH IntentT1b TotFrtT1a InvolvementT1a SelfEfficacyT1a ControllT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(TypeTerm) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(IntentT1b=MEAN TotFrtT1a=MEAN InvolvementT1a=MEAN SelfEfficacyT1a=MEAN ControllT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=IntentT1b TotFrtT1a InvolvementT1a SelfEfficacyT1a ControllT1a TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. OOK ALS GLM MULTIVARIATE GLM IntentT1b ResolveT1b BY TypeTerm TypeFrame CFCMed WITH TotFrtT1a SelfEfficacyT1a InvolvementT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(TypeTerm) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(TypeTerm*CFCMed) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(TypeFrame*CFCMed) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /PRINT=DESCRIPTIVE ETASQ /CRITERIA=ALPHA(.05) /DESIGN=TotFrtT1a SelfEfficacyT1a InvolvementT1a TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. USE ALL. COMPUTE filter_$=(CompleteData = 1). VARIABLE LABELS filter_$ 'CompleteData = 1 (FILTER)'. VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'. FORMATS filter_$ (f1.0). FILTER BY filter_$. EXECUTE. * randomization check MET MEDIAN SPLIT CFC UNIANOVA AgeT1 BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA InvolvementT1a BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA SelfEfficacyT1a BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA TotFrtT1a BY CFCMed TypeFrame TypeTerm /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. CROSSTABS /TABLES=TypeTerm BY TypeFrame BY CFCMed BY GenderT1 /FORMAT=AVALUE TABLES /STATISTICS=CHISQ /CELLS=COUNT ROW COLUMN TOTAL /COUNT ROUND CELL. CROSSTABS /TABLES=ConditionTot BY CFCMed BY GenderT1 /FORMAT=AVALUE TABLES /STATISTICS=CHISQ /CELLS=COUNT /COUNT ROUND CELL. * RANDOMIZATION SUCCESSFUL * MANIPULATION CHECK MET MEDIAN SPLIT CFC UNIANOVA ManCheckFrame BY TypeTerm TypeFrame CFCMed /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. UNIANOVA ManCheckTemp BY TypeTerm TypeFrame CFCMed /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(TypeTerm) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm*TypeFrame) /EMMEANS=TABLES(TypeTerm*CFCMed) /EMMEANS=TABLES(TypeFrame*CFCMed) /EMMEANS=TABLES(TypeTerm*TypeFrame*CFCMed) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=TypeTerm TypeFrame CFCMed TypeTerm*TypeFrame TypeTerm*CFCMed TypeFrame*CFCMed TypeTerm*TypeFrame*CFCMed. * MANIPULATION CHECK SUCCESSFUL * MAAR NU HET PROBLEEM DAT DE DRIE WEG INTERACTIE NIET AF TE LEIDEN IS UIT DE 3 TWEEWEGS!!! * GEEN FULL MODEL, MAAR LOUTER HOOFD EN TWEEWEGSINTERACTIES UNIANOVA IntentT1b BY CFCMed TypeTerm TypeFrame WITH TotFrtT1a SelfEfficacyT1a InvolvementT1a /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(CFCMed) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeTerm) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(TypeFrame) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CFCMed*TypeTerm) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(CFCMed*TypeFrame) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /EMMEANS=TABLES(TypeTerm*TypeFrame) WITH(TotFrtT1a=MEAN SelfEfficacyT1a=MEAN InvolvementT1a=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CFCMed TypeTerm TypeFrame CFCMed*TypeTerm CFCMed*TypeFrame TypeFrame*TypeTerm TotFrtT1a SelfEfficacyT1a InvolvementT1a. SORT CASES BY TypeTerm TypeFrame CFCMed. SPLIT FILE SEPARATE BY TypeTerm TypeFrame CFCMed. FREQUENCIES VARIABLES=GenderT1 /ORDER=ANALYSIS.