Physics for Scientists and Engineers: A Strategic Approach 5th Edition Β· Work and Kinetic Energy Β· Problem 62
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Randall D. Knight β Work and Kinetic Energy: Problem 62
When you ride a bicycle at constant speed, nearly all the energy you expend goes into the work you do against the drag force of the air. Model a cyclist as having cross-section area \( 0.45 \text{ m}^2 \) and, because the human body is not aerodynamically shaped, a drag coefficient of \( 0.90 \). Use \( 1.2 \text{ kg/m}^3 \) as the density of air at room temperature. (a) What is the cyclist's power output while riding at a steady \( 7.3 \text{ m/s} \) (\( 16 \text{ mph} \))? (b) Metabolic power is the rate at which your body "burns" fuel to power your activities. For many activities, your body is roughly \( 25\% \) efficient at converting the chemical energy of food into mechanical energy. What is the cyclist's metabolic power while cycling at \( 7.3 \text{ m/s} \)? (c) The food calorie is equivalent to \( 4190 \text{ J} \). How many calories does the cyclist burn if he rides over level ground at \( 7.3 \text{ m/s} \) for \( 1 \text{ h} \)?
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Given: , a
Find: (a) What is the cyclist's power output while riding at a steady; (b) Metabolic power is the rate at which your body "burns" fuel; (c) The food calorie is equivalent to \
This problem covers key concepts in Work and Kinetic Energy from Physics for Scientists and Engineers: A Strategic Approach 5th Edition by Randall D. Knight. The step-by-step solution involves applying fundamental principles and systematic analysis to arrive at the correct answer. Full solution available with a Solution Pass.
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Physics for Scientists and Engineers: A Strategic Approach Β· 5th Edition
Author: Randall D. Knight
Publisher: Pearson
Chapter: Work and Kinetic Energy