A car travels at a constant speed of 70 miles per hour. The distance the car travels in miles is a function of time, t, in hours given by d(t) = 70t. Find the inverse function by expressing the time of travel in terms of the distance traveled. Call this function t(d). t(d) = Preview Find t(160). Round to the nearest tenth. t(160) = [ Interpret the meaning: O When the car travels 160 miles, it takes t(160) hours. O When the car travels for 160 hours, it travels t(160) miles.
A car travels at a constant speed of 70 miles per hour. The distance the car travels in miles is a function of time, t, in hours given by d(t) = 70t. Find the inverse function by expressing the time of travel in terms of the distance traveled. Call this function t(d). t(d) = Preview Find t(160). Round to the nearest tenth. t(160) = [ Interpret the meaning: O When the car travels 160 miles, it takes t(160) hours. O When the car travels for 160 hours, it travels t(160) miles.
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter6: Some Methods In The Calculus Of Variations
Section: Chapter Questions
Problem 6.10P
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