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I used linearHypothesis function in order to test whether two regression coefficients are significantly different. Do you have any idea how to interpret these results?

Here is my output:

linearHypothesis(fit4.beta, "bfi2.e = bfi2.a") Linear hypothesis test

Hypothesis: bfi2.e - bfi2.a = 0

Model 1: restricted model
Model 2: mod.ipip.hexaco ~ bfi2.e + bfi2.n + bfi2.a + bfi2.o + bfi2.c

Res.Df    RSS Df Sum of Sq      F    Pr(>F)    
1    722 302.27                                  
2    721 264.06  1    38.214 104.34 < 2.2e-16 ***
---
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1
  • Pr(>F) is the p-value of the test, and this is the output of interest. You want the interpretation of every output ? – Stéphane Laurent Feb 11 at 12:40
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Aside from the t statistics, which test for the predictive power of each variable in the presence of all the others, another test which can be used is the F-test. (this is the F-test that you would get at the bottom of a linear model)

This tests the null hypothesis that all of the β’s are equal to zero against the alternative that allows them to take any values. If we reject this null hypothesis (which we do because the p-value is small), then this is the same as saying there is enough evidence to conclude that at least one of the covariates has predictive power in our linear model, i.e. that using a regression is predictively ‘better’ than just guessing the average.

So basically, you are testing whether all coefficients are different from zero or some other arbitrary linear hypothesis, as opposed to a t-test where you are testing individual coefficients.

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