Total Effects Analysis/Significance Level of Collect-Type HCM (Repeated Indicators Approach)
Posted: Tue Jan 22, 2019 9:10 am
Hi everyone,
I wonder about the significance level of the effect between an antecedent latent variable and the HCM.
Following Hair et al. 2018 (https://goo.gl/b5oeuE; pp. 52-53) I have modeled the antecedent latent variable to have relationships with the HOC and all LOCs.
The path value I can calculate by building the sum of multiplying the path value of the antecedent latent variable and the the respective LOC and the path value of the respective LOC and the HOC plus once the direct effect of the antecedent latent variable on the HOC.
Is there also an equivalent formula to calculate the significance level of the total effect between the antecedent latent variable and the HOC and other typically reported parameters (e.g. STDEV)?
Could there also be a weighting regarding the T-values and STDEV?
Removing the LOCs and only using the HOC itself shows a significant relationship in my model. Ideally this could also be calculated in a sound way within the total model with the LOCs.
Thanks for your help.
Warm regards,
Sebastian
I wonder about the significance level of the effect between an antecedent latent variable and the HCM.
Following Hair et al. 2018 (https://goo.gl/b5oeuE; pp. 52-53) I have modeled the antecedent latent variable to have relationships with the HOC and all LOCs.
The path value I can calculate by building the sum of multiplying the path value of the antecedent latent variable and the the respective LOC and the path value of the respective LOC and the HOC plus once the direct effect of the antecedent latent variable on the HOC.
Is there also an equivalent formula to calculate the significance level of the total effect between the antecedent latent variable and the HOC and other typically reported parameters (e.g. STDEV)?
Could there also be a weighting regarding the T-values and STDEV?
Removing the LOCs and only using the HOC itself shows a significant relationship in my model. Ideally this could also be calculated in a sound way within the total model with the LOCs.
Thanks for your help.
Warm regards,
Sebastian