Use your data collected for the first ten exoplanets to match each exoplanet with the corresponding Earth Radius (measured in RE).
1. GJ 667C c
1.3
2. Kepler-62 e
1.5
3. Kepler-442 b
1.6
4. GJ 832 c
1.7
Use your data collected for the first ten exoplanets to match each exoplanet with the corresponding Earth Mass (measured in ME).
1. K2-3 d
3.7
2. Kepler-296 e
7.0
3. tau Cet e
3.3
4. Kepler-283 c
4.3
Use technology to create a scatter plot of the data collected for the first ten exoplanets in Part 1. In two or more complete sentences describe the trend in the data values displayed by the scatterplot. In your description, include what type of technology was used to create the scatterplot. Upload your scatter plot and summary in the box below.
Create a regression model for the data collected in Part 1. In two or more complete sentences communicate the process that you followed to create the regression model for the first ten exoplanets. In your explanation, include the regression model and what type of technology was used to create the model. Upload your regression model and summary in the box below.
Use the information provided in the list of 31 potentially habitable exoplanets for Kepler-186 f to prove that the linear regression model created in Part 3 is an accurate representation of the data collected.
A. Reference the list of 31 potentially habitable exoplanets. What is the documented Earth Radius (RE) measurement of Kepler-186 f?
B. Use the linear regression model created in Part 2 and the documented Earth Radius of Kepler-186 f to calculate the exoplanetâs corresponding Earth Mass (ME) measurement. If necessary, round calculated values to the nearest ten-thousandth of a unit.
Use the information provided in the list of 31 potentially habitable exoplanets for Kepler-186 f to prove that the linear regression model created in Part 3 is an accurate representation of the data collected.
A. Reference the list of 31 potentially habitable exoplanets. What is the documented Earth Mass (ME) measurement of Kepler-186 f?
B. Compare the documented Earth Mass measurement of Kepler-186 f with your calculated Earth Mass measurement of Kepler-186 f.
Use complete sentences to discuss whether or not the calculated Earth Mass measurement proves the linear regression model to be an accurate representation of the data collected.
Use the linear regression model created in Part 2 to make the following predictions. In your final answer, include all of your calculations. If necessary, round calculated values to the nearest ten-thousandth of a unit.
A. Predict the Earth Mass (ME) of an exoplanet with an Earth Radius measure of 3.2 RE.
B. Predict the Earth Radius (ME) of an exoplanet with an Earth Radius measure of 4.7 RE.
Answers: 3
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