Assignment 8

library(readr)

hr <- read_csv('https://raw.githubusercontent.com/aiplanethub/Datasets/refs/heads/master/HR_comma_sep.csv')

## Rows: 14999 Columns: 10
## ── Column specification ────────────────────────────────────────────────────────
## Delimiter: ","
## chr (2): Department, salary
## dbl (8): satisfaction_level, last_evaluation, number_project, average_montly...
## 
## ℹ Use `spec()` to retrieve the full column specification for this data.
## ℹ Specify the column types or set `show_col_types = FALSE` to quiet this message.

library(dplyr)

## 
## Attaching package: 'dplyr'
## 
## The following objects are masked from 'package:stats':
## 
##     filter, lag
## 
## The following objects are masked from 'package:base':
## 
##     intersect, setdiff, setequal, union

library(plotly)

## Loading required package: ggplot2
## 
## Attaching package: 'plotly'
## 
## The following object is masked from 'package:ggplot2':
## 
##     last_plot
## 
## The following object is masked from 'package:stats':
## 
##     filter
## 
## The following object is masked from 'package:graphics':
## 
##     layout

hr1 <- hr %>% 
  mutate(Employee_Status = (ifelse(left == 0 , 'Stayed' , 'Left')))

install.packages(“plotly”) #1.Perform the t-test (.5 point) Choose any two appropriate variables from the data and perform the t-test, displaying the results.

t.test(hr1$average_montly_hours ~ hr1$Employee_Status)

## 
##  Welch Two Sample t-test
## 
## data:  hr1$average_montly_hours by hr1$Employee_Status
## t = 7.5323, df = 4875.1, p-value = 5.907e-14
## alternative hypothesis: true difference in means between group Left and group Stayed is not equal to 0
## 95 percent confidence interval:
##   6.183384 10.534631
## sample estimates:
##   mean in group Left mean in group Stayed 
##             207.4192             199.0602

#2.Interpret the results in technical terms (.5 point) For each t-test, explain what the test’s p-value means (significance). #There is a significant difference between means, where employees that left worked at least 6 hours or more.

#3.Interpret the results in non-technical terms (1 point) For each t-test, what do the results mean in non-techical terms. #Employees that left, on average, work more hours, at least 3% more.

#4.Create a plot that helps visualize the t-test (.5 point) For each t-test, create a graph to help visualize the difference between means, if any. The title must be the non-technical interpretation.

plot_ly(hr1,
        x = ~Employee_Status ,
        y = ~average_montly_hours , 
        type = 'box' ,
        color = ~Employee_Status, 
        colors = c('#1a1aff' , '#ff3333'))%>%
  layout(title = 'Employees that left, on average, work more hours, at least 3% more')            

t.test(hr1$satisfaction_level ~ hr1$Employee_Status)

## 
##  Welch Two Sample t-test
## 
## data:  hr1$satisfaction_level by hr1$Employee_Status
## t = -46.636, df = 5167, p-value < 2.2e-16
## alternative hypothesis: true difference in means between group Left and group Stayed is not equal to 0
## 95 percent confidence interval:
##  -0.2362417 -0.2171815
## sample estimates:
##   mean in group Left mean in group Stayed 
##            0.4400980            0.6668096

#1.Perform the t-test (.5 point) Choose any two appropriate variables from the data and perform the t-test, displaying the results.

t.test(hr1$number_project ~ hr1$Employee_Status)

## 
##  Welch Two Sample t-test
## 
## data:  hr1$number_project by hr1$Employee_Status
## t = 2.1663, df = 4236.5, p-value = 0.03034
## alternative hypothesis: true difference in means between group Left and group Stayed is not equal to 0
## 95 percent confidence interval:
##  0.006540119 0.131136535
## sample estimates:
##   mean in group Left mean in group Stayed 
##             3.855503             3.786664

#2.Interpret the results in technical terms (.5 point) For each t-test, explain what the test’s p-value means (significance). #The p-value is large, so there is a non-significant difference between means where employees that left had a similar average number of projects to employees who stayed.

#3.Interpret the results in non-technical terms (1 point) For each t-test, what do the results mean in non-techical terms. #Employees that left, on average, worked on more projects, about 2% more.

#4.Create a plot that helps visualize the t-test (.5 point) For each t-test, create a graph to help visualize the difference between means, if any. The title must be the non-technical interpretation.

plot_ly(hr1,
        x = ~Employee_Status ,
        y = ~number_project , 
        type = 'box' ,
        color = ~Employee_Status, 
        colors = c('#1a1aff' , '#ff3333'))%>%
  layout(title = 'Employees that left, on average, worked on more projects, about 2% more')

#1.Perform the t-test (.5 point) Choose any two appropriate variables from the data and perform the t-test, displaying the results.

t.test(hr1$last_evaluation ~ hr1$Employee_Status)

## 
##  Welch Two Sample t-test
## 
## data:  hr1$last_evaluation by hr1$Employee_Status
## t = 0.72534, df = 5154.9, p-value = 0.4683
## alternative hypothesis: true difference in means between group Left and group Stayed is not equal to 0
## 95 percent confidence interval:
##  -0.004493874  0.009772224
## sample estimates:
##   mean in group Left mean in group Stayed 
##            0.7181126            0.7154734

#2.Interpret the results in technical terms (.5 point) For each t-test, explain what the test’s p-value means (significance). #There is no significance between the last evaluation of an employee and their employee status.

#3.Interpret the results in non-technical terms (1 point) For each t-test, what do the results mean in non-techical terms. #The last evaluation had no effect on whether or not employees would leave.

#4.Create a plot that helps visualize the t-test (.5 point) For each t-test, create a graph to help visualize the difference between means, if any. The title must be the non-technical interpretation.

plot_ly(hr1,
        x = ~Employee_Status ,
        y = ~last_evaluation , 
        type = 'box' ,
        color = ~Employee_Status, 
        colors = c('#1a1aff' , '#ff3333'))%>%
  layout(title = 'Employees that left were not affected by their last evaluation')

#1.Perform the t-test (.5 point) Choose any two appropriate variables from the data and perform the t-test, displaying the results.

t.test(hr1$promotion_last_5years ~ hr1$Employee_Status)

## 
##  Welch Two Sample t-test
## 
## data:  hr1$promotion_last_5years by hr1$Employee_Status
## t = -10.853, df = 13132, p-value < 2.2e-16
## alternative hypothesis: true difference in means between group Left and group Stayed is not equal to 0
## 95 percent confidence interval:
##  -0.02471098 -0.01715037
## sample estimates:
##   mean in group Left mean in group Stayed 
##          0.005320638          0.026251313

#2.Interpret the results in technical terms (.5 point) For each t-test, explain what the test’s p-value means (significance). #There is a significant difference between the mean of employees staying or leaving and whether or not they got a promotion in the last 5 years.

#3.Interpret the results in non-technical terms (1 point) For each t-test, what do the results mean in non-techical terms. #On average, employees that received a promotion within the last five years stayed, but employees that didn’t receive a promotion left.

#4.Create a plot that helps visualize the t-test (.5 point) For each t-test, create a graph to help visualize the difference between means, if any. The title must be the non-technical interpretation.

plot_ly(hr1,
        x = ~Employee_Status ,
        y = ~promotion_last_5years , 
        type = 'box' ,
        color = ~Employee_Status, 
        colors = c('#1a1aff' , '#ff3333'))%>%
  layout(title = 'Employees that left, on average, did not recieve a promotion within the last 5 years')