Data were collected on the distance a frisbee will travel when thrown at a certain speed. The speed, s, is measured in miles per hour, and distance, y, is measured in yards. The regression line is given by y = 3.47 +47.92s. What are the slope and y-intercept of the regression line and their interpretation in the context of the problem? The slope, 3.47, indicates that the distance decreases by an average of 3.47 yards for every one mile per hour of speed. The y-intercept, 47.92, is the distance estimated by this model if the speed is one mile per hour. The slope, 47.92, indicates that the distance decreases by an average of 47.92 yards for every one mile per hour of speed. The y-intercept, 3.47, is the distance estimated by this model if the speed is one mile per hour. The slope, 47.92, indicates that the distance increases by an average of 47.92 yards for every one mile per hour of speed. The y-intercept, 3.47, is the distance estimated by this model if the speed is zero miles per hour. The slope, 3.47, indicates that the distance increases by an average of 3.47 yards for every one mile per hour of speed. The y-intercept, 47.92, is the distance estimated by this model if the speed is zero miles per hour.
Data were collected on the distance a frisbee will travel when thrown at a certain speed. The speed, s, is measured in miles per hour, and distance, y, is measured in yards. The regression line is given by y = 3.47 +47.92s. What are the slope and y-intercept of the regression line and their interpretation in the context of the problem? The slope, 3.47, indicates that the distance decreases by an average of 3.47 yards for every one mile per hour of speed. The y-intercept, 47.92, is the distance estimated by this model if the speed is one mile per hour. The slope, 47.92, indicates that the distance decreases by an average of 47.92 yards for every one mile per hour of speed. The y-intercept, 3.47, is the distance estimated by this model if the speed is one mile per hour. The slope, 47.92, indicates that the distance increases by an average of 47.92 yards for every one mile per hour of speed. The y-intercept, 3.47, is the distance estimated by this model if the speed is zero miles per hour. The slope, 3.47, indicates that the distance increases by an average of 3.47 yards for every one mile per hour of speed. The y-intercept, 47.92, is the distance estimated by this model if the speed is zero miles per hour.
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter7: Analytic Trigonometry
Section7.6: The Inverse Trigonometric Functions
Problem 94E
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