A fugutive is resting by a tree when a train passes him, traveling at a constant 6.3 m/s. The fugitive immediately begins running, accelerating at 4.5 m/s² until he reaches his maximum velocity of 7.1 m/s. He continues running at that speed until he catches the train. How long did it take him to catch the train? (Assume the clock started at the instant he began to accelerate.) t = unit How far did he have to run to catch up to the train? Δx = unit
A fugutive is resting by a tree when a train passes him, traveling at a constant 6.3 m/s. The fugitive immediately begins running, accelerating at 4.5 m/s² until he reaches his maximum velocity of 7.1 m/s. He continues running at that speed until he catches the train. How long did it take him to catch the train? (Assume the clock started at the instant he began to accelerate.) t = unit How far did he have to run to catch up to the train? Δx = unit
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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A fugutive is resting by a tree when a train passes him, traveling at a constant 6.3 m/s. The fugitive immediately begins running, accelerating at 4.5 m/s² until he reaches his maximum velocity of 7.1 m/s. He continues running at that speed until he catches the train.
How long did it take him to catch the train? (Assume the clock started at the instant he began to accelerate.) t = unit
How far did he have to run to catch up to the train? Δx = unit
How long did it take him to catch the train? (Assume the clock started at the instant he began to accelerate.) t = unit
How far did he have to run to catch up to the train? Δx = unit
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