1
2
3
4
5
#

Name:

Description:

About the Fuel Economy Data - Scientific models suggest that increased buildup of greenhouse gases in the atmosphere will raise the earth's temperature and change the earth's climate.  The buildup is largely due to the release of carbon dioxide (CO2) upon burning fossil fuels, such as coal and oil, to power industries and transportation.  CO2 levels in the atmosphere have fluctuated significantly before the advent of human industrialization; nonetheless, data suggest that the current buildup of CO2 is happening much faster than at any time in the past 10,000 years.  Such a rapid change is likely to produce more extreme weather, rising sea levels that erode coastal areas and contaminate freshwater supplies, threats to agriculture and wildlife, and public health risks from infectious disease and heat deaths.

     In the US economy, the transportation sector accounts for 32.6% of all CO2 emissions. (The production from other sectors is as follows:  commercial: 16.0%, Industrial: 32.2%, and residential: 19.2%.)   The US Department of Energy claims that every gallon of gasoline your vehicle burns puts 20 pounds of carbon dioxide into the atmosphere and that choosing a vehicle that gets 25 rather than 20 miles per gallon will prevent 10 tons of carbon dioxide from being released over the lifetime of your vehicle.  Consequently, consumers can greatly influence the amount of CO2 emissions by making smart choices about the automobiles they drive.

    This data set suggests that there is a relationship between engine size and fuel economy, thus one might expect a relationship between engine size and CO2 emissions.  Note that the gasoline-powered cars selected in this data set are of several classes,   subcompact, minicompact and compact, so there is some variability in their size and weight.  Because data on engine size and gas mileage are not for the same vehicle, it is difficult to conclude that a given change in engine size for any one vehicle will result in a specific increase or decrease in highway mileage.  In general, though, driving a vehicle with a smaller engine will more likely consume less gasoline and produce fewer emissions.  Students can fit a curve (trendline) through the data with software such as Excel or Minitab and determine a mathematical relationship between engine size and highway mileage; a power law regression model has an R2 of about 0.7.

    In addition to reducing CO2 emissions, the purchase of higher mileage vehicles will reduce oil imports, conserve fossil fuel resources for future generations, reduce other harmful emissions such as CO, NO, and NO2 , and save consumers money in gasoline costs.

Variables:

class- class of vehicle 

make_and_model- make and model of vehicle

engine_size- engine size in liters

mileage- highway mileage in mpg

Link To Google Sheets:

Rows:

Columns:

License Type:

References/Notes/Attributions:

Reference for data:   Model Year 1999 Fuel Economy Guide, United States Department of Energy.   www.fueleconomy.gov

Langkamp, G. and Hull, J., 2022. QELP Data Set 036. [online] Seattlecentral.edu. Available at: <https://seattlecentral.edu/qelp/sets/036/036.html> [Accessed 27 July 2022].

R Dataset Upload:

Use the following R code to directly access this dataset in R.

d <- read.csv("https://www.key2stats.com/Gas_Mileage_vs_Engine_Size_1665.csv")

R Coding Interface:


Datasets Tag Questions & Instructional Blocks

NumberContentType
No results found.