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By Philip R. Kesten and David L. Tauck

ISBN-10: 1429289821

ISBN-13: 9781429289825

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68 s  17 m hr 3600 s 1 km 42 Chapter 2 Linear Motion REFLECT The impaired driver travels an extra distance of over 55 ft before applying the brakes. 52 SET UP A jet travels 4100 km from San Francisco to Montreal. It waits 1 hr and then flies back to San Francisco. 867 hr. 8 hr) longer than the eastbound trip. We’ll call the duration of the westbound trip tWB and the duration of the eastbound trip tEB. 867 hr. Now we have two equations and two unknowns and can solve for the duration of each leg.

81 SET UP Figure 2-9 Problem 81 Mary is planning on dropping an apple out of her 17-m-high window to Bill. Bill is walking at a velocity of 2 m/s toward Mary’s building and starts 120 m from directly below her window. Mary wants Bill to catch the apple, which means Bill and the apple need to be at the same location at the same time. 75 m (presumably, Bill’s height). Assume the apple has an initial velocity of zero. We can compare this to the time it takes Bill to walk 120 m in order to determine how long Mary should wait to drop the apple.

43 SET UP A list of speeds is given in various units. We need to convert between common units of speed. Some of the units (for example, m/s, km/hr, mi/hr) are more common units of speed than others (for example, mi/min). 61 km and 1 mi  5280 ft will be useful. 2. This will help build intuition when working with speeds in SI units. 7 cm. 5 s for it to move from x1 to x2. The average velocity of the ball is equal to the displacement of the ball divided by the time interval. The displacement is the (final position) – (initial position).

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Instructor's Solution Manuals to University Physics for the Physical and Life Sciences by Philip R. Kesten and David L. Tauck

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