## ----setup, include=FALSE----------------------------------------------------- knitr::opts_chunk$set(echo = TRUE,comment=NA,fig.width=7,fig.height=5) library(interpretCI) library(glue) ## ----echo=FALSE,message=FALSE------------------------------------------------- x=meanCI(n1=100,n2=100,m1=200,s1=40,m2=190,s2=20,mu=7,alpha=0.05,alternative="greater") two.sided<-greater<-less<-FALSE if(x$result$alternative=="two.sided") two.sided=TRUE if(x$result$alternative=="less") less=TRUE if(x$result$alternative=="greater") greater=TRUE twoS="The null hypothesis will be rejected if the difference between sample means is too big or if it is too small." lessS="The null hypothesis will be rejected if the difference between sample means is too small." greaterS="The null hypothesis will be rejected if the difference between sample means is too big." ## ----echo=FALSE--------------------------------------------------------------- call=paste0(deparse(x$call),collapse="") x1=paste0("library(interpretCI)\nx=",call,"\ninterpret(x)") textBox(x1,italic=TRUE,bg="grey95",lcolor="grey50") ## ----echo=FALSE--------------------------------------------------------------- library(glue) library(interpretCI) if(two.sided){ if(x$result$mu==0) { claim= "Test the hypothesis that men and women spend equally on refreshment" } else { claim= paste0("The team owner claims that the difference in spending money between men and women is equal to ", x$result$mu) } } else{ if(x$result$mu==0) { claim= paste0("Test the hypothesis that men spend", ifelse(greater,"more","less")," than women on refreshment") } else { claim= paste0("The team owner claims that men spend at least $", x$result$mu, ifelse(greater," more"," less")," than women") } } ## ----echo=FALSE--------------------------------------------------------------- string=glue("The local baseball team conducts a study to find the amount spent on refreshments at the ball park. Over the course of the season they gather simple random samples of {x$result$n1} men and {x$result$n2} women. For men, the average expenditure was ${x$result$m1}, with a standard deviation of ${x$result$s1}. For women, it was ${x$result$m2}, with a standard deviation of ${x$result$s2}. {claim}. Assume that the two populations are independent and normally distributed.") textBox(string) ## ----------------------------------------------------------------------------- plot(x) ## ----------------------------------------------------------------------------- draw_t(DF=round(x$result$DF,2),t=x$result$t,alternative=x$result$alternative) ## ----echo=FALSE--------------------------------------------------------------- print(x)