* Encoding: UTF-8. *this document contains all syntax for reproducing analyses in Study 3 from Gainsburg & Earl, 2018* *Statistics about our sample* *seeing how many said English was not first language and who did not consent Frequencies Include_english include_consent. USE ALL. FILTER BY filter_PreRead. EXECUTE. *Demographics: *White Ps: 582. if (race_3=1) White=1. if (race_1=1) White=0. if (race_2=1) White=0. if (race_4=1) White=0. if (race_5=1) White=0. if (race_6=1) White=0. if (race_7=1) White=0. if (race_8=1) White=0. if (race_9=1) White=0. variable labels white 'Are they white or nonwhite'. execute. Frequencies White. *Black Ps:54* if (race_1=1) black=1. if (race_3=1) Black =0. if (race_2=1) black=0. if (race_4=1) black=0. if (race_5=1) black=0. if (race_6=1) black=0. if (race_7=1) black=0. if (race_8=1) black=0. if (race_9=1) black=0.. variable labels black 'Are they black or nonblack'. execute. Frequencies Black. *Hispanic/Latino Ps: 41* if (race_5=1) latino =1. if (race_2=1) latino=0. if (race_4=1 )latino=0. if (race_3=1 )latino=0. if (race_6=1) latino=0. if (race_7=1) latino=0. if (race_8=1) latino=0. if (race_9=1) latino=0. if (race_1=1) latino=0.. variable labels latino 'Are they latino'. execute. frequencies latino. *Asian-american Ps: 33,* if (race_4=1) asian=1. if (race_7=1) asian=0. if (race_6=1) asian=0. if (race_8=1) asian=0. if (race_3=1) asian =0. if (race_1=1) asian=0. if (race_2=1) asian=0. if (race_5=1) asian=0. if (race_9=1) asian=0. variable labels asian 'Are they asian or nonasian'. execute. Frequencies Asian. *multi-racial or other: 35* *missing: 234 here and in all others* *one of the people who say "other" wrote in human, they are shifted to prefer not to respond, which leads to 34 multi/other and 235 missing* compute coded_race = sum(white,asian,latino,black). variable labels coded_race 'People who are 1 are one of the races we coded; 0 are mixed or other'. execute. Frequencies coded_race. *Gender Male: 269 Female 470 Other: 9 Missing/Prefer not to answer: 231* frequencies gend. *Education. All matches original paper*. frequencies ed. *9.2.1. Anticipated negative affect* *One-way anova that filters out those who didn't consent or have english as 1st language* *Cohen's D calculated between conditions using thie wesbite: https://memory.psych.mun.ca/models/stats/effect_size.shtml* *Ncontrol = 320, Mcontrol = 1.75, SD control = 6.95 *Ntw = 312, Mtw=4.79, SDtw=9.41 *Ntw+content = 314, Mtw+content = 9.00, SD tw+content = 11.36 *Cohen's D for difference between control and TW is d = .37 ONEWAY AntComp BY CondTW /CONTRAST=-1 1 0 /CONTRAST=0 -1 1 /STATISTICS DESCRIPTIVES /MISSING ANALYSIS. UNIANOVA AntComp BY CondTW WITH CodPro /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CodPro CondTW*CodPro. *9.2.2. Attention-regulation *looking at exclusions by not reading for enough time* FREQUENCIES Include_ReadTime Include_read. LOGISTIC REGRESSION VARIABLES Include_Read /METHOD=ENTER CondTW /CONTRAST (CondTW)=Indicator /CRITERIA=PIN(.05) POUT(.10) ITERATE(20) CUT(.5). LOGISTIC REGRESSION VARIABLES Include_ReadTime /METHOD=ENTER CondTW CondEssay CondTW*CondEssay /CONTRAST (CondTW)=Indicator /CONTRAST (CondEssay)=Indicator /CRITERIA=PIN(.05) POUT(.10) ITERATE(20) CUT(.5). *9.2.2.1. Avoidant attention* *Cohen's D calculated between conditions using thie wesbite: https://memory.psych.mun.ca/models/stats/effect_size.shtml* *Ncontrol = 227, Mcontrol = 1.612, SD control = 1.026 *Ntw = 225, Mtw=1.667, SDtw=1.146 *Ntw+content = 256, Mtw+content = 1.941, SD tw+content = 1.567 USE ALL. FILTER BY filter_Include. EXECUTE. UNIANOVA Att_Avoid BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condtw) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondTW*CondEssay. *9.2.2.2. Monitoring attention* *Cohen's D calculated between conditions using thie wesbite: https://memory.psych.mun.ca/models/stats/effect_size.shtml* *Ncontrol = 227, Mcontrol = 5.084, SD control = 2.471 *Ntw = 225, Mtw=5.967, SDtw=2.504 *Ntw+content = 256, Mtw+content = 6.293 SD tw+content = 2.242 UNIANOVA Att_Monitor BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condtw) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondTW*CondEssay. *9.2.3 Experienced affect *Cohen's D calculated between conditions using thie wesbite: https://memory.psych.mun.ca/models/stats/effect_size.shtml* *Ncontrol = 259, Mcontrol = 10.71, SD control = 13.12 *Ntw = 262, Mtw=8.72, SDtw=10.18 *Ntw+content = 278, Mtw+content = 8.78 SD tw+content = 10.84 UNIANOVA Comp BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condtw) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondTW*CondEssay. *9.2.3 Experienced affect moderated by beliefs *Cohen's D calculated between conditions using thie wesbite: *http://www.campbellcollaboration.org/escalc/html/EffectSizeCalculator-SMD8.php *which allowed Ds to be estimate using SE. *Ns in formula were derived from TW conditions (*Ncontrol = 223, *Ntw = 223) and Means and SEs were derived from estimated marginal means and standard errors in output at a given level of ZCodPro UNIANOVA Comp BY CondTW CondEssay WITH ZCodPro /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=-1) COMPARE (CondTW) ADJ(LSD) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=0) COMPARE (CondTW) ADJ(LSD) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=1) COMPARE (CondTW) ADJ(LSD) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondEssay CondTW ZCodPro CondEssay*CondTW CondEssay*ZCodPro CondTW*ZCodPro CondEssay*CondTW*ZCodPro. UNIANOVA Comp BY CondTW WITH ZCodPro /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(CondTW) WITH(ZCodPro=-1) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=1) COMPARE ADJ(LSD) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW ZCodPro CondTW*ZCodPro. UNIANOVA Comp BY CondEssay CondTW WITH ZCodPro /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(CondEssay*CondTW) WITH(ZCodPro=-1) compare (condtw) /EMMEANS=TABLES(CondEssay*CondTW) WITH(ZCodPro=0) compare (condtw) /EMMEANS=TABLES(CondEssay*CondTW) WITH(ZCodPro=1) compare (condtw) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondEssay CondTW ZCodPro CondEssay*CondTW CondEssay*ZCodPro CondTW*ZCodPro CondEssay*CondTW*ZCodPro. UNIANOVA Comp BY CondEssay CondTW WITH ZTriggered_exp /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(CondEssay) WITH(ZTriggered_exp=-1) compare (CondEssay) /EMMEANS=TABLES(CondEssay) WITH(ZTriggered_exp=0) compare (CondEssay) /EMMEANS=TABLES(CondEssay) WITH(ZTriggered_exp=1) compare (CondEssay) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondEssay CondTW ZTriggered_exp CondEssay*CondTW CondEssay*ZTriggered_exp CondTW*ZTriggered_exp CondEssay*CondTW*ZTriggered_exp. UNIANOVA ZCodPro BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condtw) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondTW*CondEssay. UNIANOVA Comp BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condtw) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondTW*CondEssay. UNIANOVA ZAtt_Avoid BY CondTW CondEssay WITH ZCodPro ZAntComp /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(ZCodPro=MEAN ZAntComp=MEAN) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=MEAN ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) WITH(ZCodPro=MEAN ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) WITH(ZCodPro=MEAN ZAntComp=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay ZCodPro ZAntComp CondEssay*CondTW CondEssay*ZCodPro CondTW*ZCodPro CondEssay*CondTW*ZCodPro. UNIANOVA ZAtt_Avoid BY CondTW CondEssay WITH ZCodPro /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(ZCodPro=MEAN) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) WITH(ZCodPro=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) WITH(ZCodPro=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay ZCodPro CondEssay*CondTW CondEssay*ZCodPro CondTW*ZCodPro CondEssay*CondTW*ZCodPro. UNIANOVA ZAtt_Avoid BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /POSTHOC=CondTW(LSD) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondEssay*CondTW. UNIANOVA ZAtt_Avoid BY CondTW CondEssay WITH ZAntComp /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(ZAntComp=MEAN) /EMMEANS=TABLES(CondTW) WITH(ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) WITH(ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) WITH(ZAntComp=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondEssay*CondTW ZAntComp. UNIANOVA ZAtt_Monitor BY CondTW CondEssay WITH ZCodPro ZAntComp /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(ZCodPro=MEAN ZAntComp=MEAN) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=MEAN ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) WITH(ZCodPro=MEAN ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) WITH(ZCodPro=MEAN ZAntComp=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay ZCodPro ZAntComp CondEssay*CondTW CondEssay*ZCodPro CondTW*ZCodPro CondEssay*CondTW*ZCodPro. UNIANOVA ZAtt_Monitor BY CondTW CondEssay WITH ZCodPro /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(ZCodPro=MEAN) /EMMEANS=TABLES(CondTW) WITH(ZCodPro=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) WITH(ZCodPro=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) WITH(ZCodPro=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay ZCodPro CondEssay*CondTW CondEssay*ZCodPro CondTW*ZCodPro CondEssay*CondTW*ZCodPro. UNIANOVA ZAtt_Monitor BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /POSTHOC=CondTW(LSD) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondEssay*CondTW. UNIANOVA ZAtt_MOnitor BY CondTW CondEssay WITH ZAntComp /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /EMMEANS=TABLES(OVERALL) WITH(ZAntComp=MEAN) /EMMEANS=TABLES(CondTW) WITH(ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) WITH(ZAntComp=MEAN) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) WITH(ZAntComp=MEAN) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondEssay*CondTW ZAntComp. UNIANOVA CodPro BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /POSTHOC=CondTW(LSD) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condTW) /EMMEANS=TABLES(CondTW*CondEssay) compare (condessay) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondEssay*CondTW. UNIANOVA Attitude BY CondTW CondEssay /METHOD=SSTYPE(3) /INTERCEPT=INCLUDE /POSTHOC=CondTW(LSD) /EMMEANS=TABLES(OVERALL) /EMMEANS=TABLES(CondTW) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondEssay) COMPARE ADJ(LSD) /EMMEANS=TABLES(CondTW*CondEssay) compare (condTW) /EMMEANS=TABLES(CondTW*CondEssay) compare (condessay) /PRINT=ETASQ DESCRIPTIVE /CRITERIA=ALPHA(.05) /DESIGN=CondTW CondEssay CondEssay*CondTW.