Physics for Scientists and Engineers 10th Edition Β· Conservation of Energy Β· Problem 32
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Serway & Jewett β Conservation of Energy: Problem 32
As it plows a parking lot, a snowplow pushes an ever-growing pile of snow in front of it. Suppose a car moving through the air is similarly modeled as a cylinder of area \( A \) pushing a growing disk of air in front of it. The originally stationary air is set into motion at the constant speed \( v \) of the cylinder as shown in Figure P8.32. In a time interval \( \Delta t \), a new disk of air of mass \( \Delta m \) must be moved a distance \( v \Delta t \) and hence must be given a kinetic energy \( \frac{1}{2}(\Delta m)v^2 \). Using this model, show that the car's power loss owing to air resistance is \( \frac{1}{2}\rho Av^3 \) and that the resistive force acting on the car is \( \frac{1}{2}\rho Av^2 \), where \( \rho \) is the density of air. Compare this result with the empirical expression \( \frac{1}{2}D\rho Av^2 \) for the resistive force.
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Given: , a, 8.32. In
This problem covers key concepts in Conservation of Energy from Physics for Scientists and Engineers 10th Edition by Serway & Jewett. 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 Β· 10th Edition
Author: Serway & Jewett
Publisher: Cengage
Chapter: Conservation of Energy