Student Workbook for College Physics: A Strategic Approach Volume 1 (Chs. 1-16)
3rd Edition
ISBN: 9780321908865
Author: Randall D. Knight (Professor Emeritus), Brian Jones, Stuart Field
Publisher: PEARSON
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Textbook Question
Chapter 11, Problem 70MSPP
MCAT-Style Passage Problems
Kangaroo Locomotion
Kangaroos have very stout tendons in their legs that can be used to store energy. When a kangaroo lands on its feet, the tendons stretch, transforming kinetic energy of motion to elastic potential energy. Much of this energy can be transformed back into kinetic energy as the kangaroo takes another hop. The kangaroo’s peculiar hopping gait is not very efficient at low speeds but is quite efficient at high speeds.
Figure P11.68 shows the energy cost of human and kangaroo locomotion. The graph shows oxygen uptake (in mL/s) per kg of body mass, allowing a direct comparison between the two species.
Figure P11.68 Oxygen uptake (a measure of energy use per second) for a running human and a hopping kangaroo.
For humans, the energy used per second (i.e., power) is proportional to the speed. That is, the human curve nearly passes through the origin, so running twice as fast takes approximately twice as much power. For a hopping kangaroo, the graph of energy use has only a very small slope. In other words, the energy used per second changes very little with speed. Going faster requires very little additional power. Treadmill tests on kangaroos and observations in the wild have shown that they do not become winded at any speed at which they are able to hop. No matter how fast they hop, the necessary power is approximately the same.
At a speed of 4 m/s,
A. A running human is more efficient than an equal-mass hopping kangaroo.
B. A running human is less efficient than an equal-mass hopping kangaroo.
C. A running human and an equal-mass hopping kangaroo have about the same efficiency.
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Chapter 11 Solutions
Student Workbook for College Physics: A Strategic Approach Volume 1 (Chs. 1-16)
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