Question
USING R SOFTWARE JUST DO PROBLEM TWO PLEASE - THIS IS THE SECOND POST FOR THIS QUESTION Problem 1. Use the data contained in the
USING R SOFTWARE
JUST DO PROBLEM TWO PLEASE - THIS IS THE SECOND POST FOR THIS QUESTION
Problem 1. Use the data contained in the
file http://www.utdallas.edu/~ammann/stat3355scripts/TrackRecords.csv
This data represents the national record times for males in track races. The first column gives records for the 100 meter race, etc.
a) Find the means, medians, and standard deviations for each race.
b) Which countries are more than 2 sd's below the mean for the 100 meter race? Which are more than 2 sd's above the mean for the 400 meter race? c) Which countries are in the lowest 10% of record times for the 800 meter race? Which are in the highest 10% for the Marathon?
d) Plot 400 meter record times versus 100 meter record times and add an informative title. Use filled circles colored red for USA and black for other countries. Find and interpret the correlation between these times. Obtain the least squares regression line to predict 400 meter record times based on 100 meter times and superimpose this line on the plot (see documentation for the R function abline()). Add text below your main title that reports r-squared for these variables.
Problem 2. Use the data contained in the file
http://www.utdallas.edu/~ammann/stat3355scripts/Sleep.data
A description of this data is given in
http://www.utdallas.edu/~ammann/stat3355scripts/Sleep.txt The Species column should be used as row names.
a) Construct histograms of each variable and put them on the same graphics page.
b) The strong asymmetry for all variables except Sleep indicates that a log transformation is appropriate for those variables. Construct a new data frame that contains Sleep, replaces BodyWgt, BrainWgt, LifeSpan by their log-transformed values, and then construct histograms of each variable in this new data frame.
c) Plot LifeSpan vs BrainWgt with LifeSpan on the y-axis and include an informative title. Repeat but use the log-transformed variables instead. Superimpose lines corresponding to the respective means of the variables for each plot.
d) What proportion of species are within 2 s.d.'s of mean LifeSpan? What proportion are with 2 s.d.'s of mean BrainWgt? Answer these for the original variables and for the log-transformed variables.
e) Obtain and interpret the correlation between LifeSpan and BrainWgt. Repeat for log(LifeSpan) and log(BrainWgt).
f) Obtain the least squares regression line to predict LifeSpan based on BrainWgt. Repeat to predict log(LifeSpan) based on log(BrainWgt). Predict LifeSpan of Homo sapiens based on each of these regression lines. Which would you expect to have the best overall accuracy? Which prediction is closest to the actual LifeSpan of Homo sapiens?
Note: if X is the name of a data frame in R that contains two variables, say $x1, x2$ and you would like to create a new data frame with log-transformed values of the variables in X, then you can create a new object, named for example Xl, that is assigned the value X and then log-transform variables in this new data frame.
Kl = X names(X1) = paste("logx",1:2,sep="") X1$logx1 = log(X$x1) X1$logx2 = log(X$x2)
Step by Step Solution
There are 3 Steps involved in it
Step: 1
Get Instant Access to Expert-Tailored Solutions
See step-by-step solutions with expert insights and AI powered tools for academic success
Step: 2
Step: 3
Ace Your Homework with AI
Get the answers you need in no time with our AI-driven, step-by-step assistance
Get Started