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=3.17+52.35s. What are the slope and y-intercept of the regression line and their interpretation in the context of the problem? O The slope, 52.35, indicates that the distance increases by an average of 52.35 yards for every one mile per hour of speed. The y-intercept, 3.17, is the distance estimated by this model if the speed is zero miles per hour. O The slope, 3.17, indicates that the distance increases by an average of 3.17 yards for every one mile per hour of speed. The y-intercept, 52.35, is the distance estimated by this model if the speed is zero miles per hour. O The slope, 3.17, indicates that the distance decreases by an average of 3.17 yards for every one mile per hour of speed. The y-intercept, 52.35, is the distance estimated by this model if the speed is one mile per hour. O The slope, 52.35, indicates that the distance decreases by an average of 52.35 yards for every one mile per hour of speed. The y-intercept, 3.17, is the distance estimated by this model if the speed is one mile 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=3.17+52.35s. What are the slope and y-intercept of the regression line and their interpretation in the context of the problem? O The slope, 52.35, indicates that the distance increases by an average of 52.35 yards for every one mile per hour of speed. The y-intercept, 3.17, is the distance estimated by this model if the speed is zero miles per hour. O The slope, 3.17, indicates that the distance increases by an average of 3.17 yards for every one mile per hour of speed. The y-intercept, 52.35, is the distance estimated by this model if the speed is zero miles per hour. O The slope, 3.17, indicates that the distance decreases by an average of 3.17 yards for every one mile per hour of speed. The y-intercept, 52.35, is the distance estimated by this model if the speed is one mile per hour. O The slope, 52.35, indicates that the distance decreases by an average of 52.35 yards for every one mile per hour of speed. The y-intercept, 3.17, is the distance estimated by this model if the speed is one mile 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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