1 Loading Libraries

# install any packages you have not previously used, then comment them back out.

#install.packages("car")
#install.packages("effsize")

library(psych)# for the describe() command
library(car) # for the leveneTest() command

## Loading required package: carData

## 
## Attaching package: 'car'

## The following object is masked from 'package:psych':
## 
##     logit

library(effsize) # for the cohen.d() command

## 
## Attaching package: 'effsize'

## The following object is masked from 'package:psych':
## 
##     cohen.d

2 Importing Data

d <- read.csv(file="Data/projectdata.csv", header=T)

# For the HW, you will import the project dataset you cleaned previously
# This will be the dataset you'll use for HWs throughout the rest of the semester

3 State Your Hypothesis

We predict there will be a significant difference in participant’s narcissism scores by their political party, more specifically Democrat and Republican.

[Remember to revise the above hypothesis in you HW assignment.]

4 Check Your Variables

# you **only** need to check the variables you're using in the current analysis

## Checking the Categorical variable (IV)

str(d)

## 'data.frame':    3137 obs. of  7 variables:
##  $ ResponseID: chr  "R_BJN3bQqi1zUMid3" "R_2TGbiBXmAtxywsD" "R_12G7bIqN2wB2N65" "R_39pldNoon8CePfP" ...
##  $ edu       : chr  "2 Currently in college" "5 Completed Bachelors Degree" "2 Currently in college" "2 Currently in college" ...
##  $ party_rc  : chr  "democrat" "independent" "apolitical" "apolitical" ...
##  $ swb       : num  4.33 4.17 1.83 5.17 3.67 ...
##  $ belong    : num  2.8 4.2 3.6 4 3.4 4.2 3.9 3.6 2.9 2.5 ...
##  $ usdream   : chr  "american dream is important and achievable for me" "american dream is important and achievable for me" "american dream is not important and maybe not achievable for me" "american dream is not important and maybe not achievable for me" ...
##  $ npi       : num  0.6923 0.1538 0.0769 0.0769 0.7692 ...

# if the categorical variable you're using is showing as a "chr" (character), you must change it to be a ** factor ** -- using the next line of code (as.factor)

d$party_rc <- as.factor(d$party_rc)

str(d)

## 'data.frame':    3137 obs. of  7 variables:
##  $ ResponseID: chr  "R_BJN3bQqi1zUMid3" "R_2TGbiBXmAtxywsD" "R_12G7bIqN2wB2N65" "R_39pldNoon8CePfP" ...
##  $ edu       : chr  "2 Currently in college" "5 Completed Bachelors Degree" "2 Currently in college" "2 Currently in college" ...
##  $ party_rc  : Factor w/ 4 levels "apolitical","democrat",..: 2 3 1 1 1 1 3 2 2 1 ...
##  $ swb       : num  4.33 4.17 1.83 5.17 3.67 ...
##  $ belong    : num  2.8 4.2 3.6 4 3.4 4.2 3.9 3.6 2.9 2.5 ...
##  $ usdream   : chr  "american dream is important and achievable for me" "american dream is important and achievable for me" "american dream is not important and maybe not achievable for me" "american dream is not important and maybe not achievable for me" ...
##  $ npi       : num  0.6923 0.1538 0.0769 0.0769 0.7692 ...

table(d$party_rc, useNA = "always")

## 
##  apolitical    democrat independent  republican        <NA> 
##         436        1594         325         782           0

## Checking the Continuous variable (DV)

# you can use the describe() command on an entire dataframe (d) or just on a single variable within your dataframe -- which we will do here

describe(d$npi)

##    vars    n mean   sd median trimmed  mad min max range skew kurtosis   se
## X1    1 3137 0.28 0.31   0.15    0.24 0.23   0   1     1 0.94    -0.68 0.01

# also use a histogram to visualize your continuous variable

hist(d$npi)

# use the describeBy() command to view the means and standard deviations by group
# it's very similar to the describe() command but splits the dataframe according to the 'group' variable

describeBy(d$npi, group=d$party_rc)

## 
##  Descriptive statistics by group 
## group: apolitical
##    vars   n mean   sd median trimmed  mad min max range skew kurtosis   se
## X1    1 436 0.28 0.32   0.15    0.24 0.23   0   1     1 0.87    -0.84 0.02
## ------------------------------------------------------------ 
## group: democrat
##    vars    n mean  sd median trimmed  mad min max range skew kurtosis   se
## X1    1 1594 0.27 0.3   0.15    0.23 0.23   0   1     1 1.01    -0.54 0.01
## ------------------------------------------------------------ 
## group: independent
##    vars   n mean   sd median trimmed  mad min max range skew kurtosis   se
## X1    1 325 0.33 0.32   0.15     0.3 0.23   0   1     1 0.63    -1.21 0.02
## ------------------------------------------------------------ 
## group: republican
##    vars   n mean   sd median trimmed  mad min max range skew kurtosis   se
## X1    1 782 0.28 0.31   0.15    0.23 0.23   0   1     1 0.99    -0.61 0.01

# lastly, use a boxplot to examine your chosen continuous and categorical variables together

boxplot(d$npi~d$party_rc)

5 Check Your Assumptions

5.1 T-test Assumptions

IV must have 2 levels
Data values must be independent (independent t-test only)
Data obtained via a random sample
Dependent variable must be normally distributed
Variances of the two groups are approximately equal

# If the IV has more than 2 levels, you must DROP any additional levels in order to meet the first assumption of a t-test.

## NOTE: This is a FOUR STEP process!

d <- subset(d,  party_rc != "apolitical") # use subset() to remove all participants from the additional level

table(d$party_rc, useNA = "always") # verify that now there are ZERO participants in the additional level

## 
##  apolitical    democrat independent  republican        <NA> 
##           0        1594         325         782           0

 d$party_rc<- droplevels(d$party_rc) # use droplevels() to drop the empty factor

table(d$party_rc, useNA = "always") # verify that now the entire factor level is removed

## 
##    democrat independent  republican        <NA> 
##        1594         325         782           0

d <- subset(d,  party_rc != "independent") # use subset() to remove all participants from the additional level

table(d$party_rc, useNA = "always") # verify that now there are ZERO participants in the additional level

## 
##    democrat independent  republican        <NA> 
##        1594           0         782           0

 d$party_rc<- droplevels(d$party_rc) # use droplevels() to drop the empty factor

table(d$party_rc, useNA = "always") # verify that now the entire factor level is removed

## 
##   democrat republican       <NA> 
##       1594        782          0

## Repeat ALL THE STEPS ABOVE if your IV has more levels that need to be DROPPED. Copy the 4 lines of code, and replace the level name in the subset() command.

5.2 Testing Homogeneity of Variance with Levene’s Test

We can test whether the variances of our two groups are equal using Levene’s test. The NULL hypothesis is that the variance between the two groups is equal, which is the result we WANT. So when running Levene’s test we’re hoping for a NON-SIGNIFICANT result!

# use the leveneTest() command from the car package to test homogeneity of variance
# it uses the same 'formula' setup that we'll use for our t-test: formula is y~x, where y is our DV and x is our IV

leveneTest(npi~party_rc, data = d)

## Levene's Test for Homogeneity of Variance (center = median)
##         Df F value Pr(>F)
## group    1   1.313  0.252
##       2374

Levene’s test revealed that our data has no significant different variances between the two comparison groups, Democrat and Republican, on their levels of narcissism.

When running a t-test, we can account for heterogeneity in our variance by using the Welch’s t-test, which does not have the same assumption about variance as the Student’s t-test (the general default type of t-test in statistics). R defaults to using Welch’s t-test so this doesn’t require any changes on our part! Even if your data has no issues with homogeneity of variance, you’ll still use Welch’s t-test – it handles the potential issues around variance well and there are no real downsides. We’re using Levene’s test here to get into the habit of checking the homogeneity of our variance, even if we already have the solution for any potential problems.

5.3 Issues with My Data

My independent variable has more than two levels . To proceed with this analysis, I will drop the apolitical and independent participants from my sample. I will make a note to discuss this issue in my methods section write-up and in my discussion section as a limitation of my study.

My data did not have an issue regarding homogeneity of variance, as Levene’s test was not significant. I will use Welch’s t-test instead of Student’s t-test in my analysis.

6 Run a T-test

# Very simple! we use the same formula of y~x, where y is our DV and x is our IV

t_output <- t.test(d$npi~d$party_rc)  # t_output will now show in your Global Environment

7 View Test Output

t_output

## 
##  Welch Two Sample t-test
## 
## data:  d$npi by d$party_rc
## t = -0.52181, df = 1482, p-value = 0.6019
## alternative hypothesis: true difference in means between group democrat and group republican is not equal to 0
## 95 percent confidence interval:
##  -0.03347652  0.01940817
## sample estimates:
##   mean in group democrat mean in group republican 
##                0.2692790                0.2763132

8 Calculate Cohen’s d - Effect Size

# once again, we use the same formula, y~x, to calculate cohen's d

# We **only** calculate effect size if the test is SIG!

d_output <- cohen.d(d$npi~d$party_rc)  # d_output will now show in your Global Environment

9 View Effect Size

d_output

## 
## Cohen's d
## 
## d estimate: -0.02319148 (negligible)
## 95 percent confidence interval:
##       lower       upper 
## -0.10880811  0.06242515

## Remember to always take the ABSOLAUTE VALUE of the effect size value (i.e., it will never be negative)

10 Write Up Results

To test our hypothesis that republican and democrats in our sample would report significantly different levels of narcissism, we used an independent samples t-test . This required us to drop our apolitical participants from our sample and independent participants, as we are limited to a two-group comparison when using this test. We tested the homogeneity of variance with Levene’s test and did not find signs of heterogeneity of variance (p < .001). Our data met all other assumptions of an independent samples t-test.

My hypothesis was not supported. We found that democrats (M = 0.27, SD = 0.30) and republicans (M= 0.28, SD= 0.31) reported similar levels of narcissism; t(1482) = -0.522 , p < .001 (see Figure 1). The effect size was not calculated using Cohen’s d, because it was not significant.

References

Cohen J. (1988). Statistical Power Analysis for the Behavioral Sciences. New York, NY: Routledge Academic.

Running a T-test

Joryn Burns

2025-03-26