Physics for Scientists and Engineers: A Strategic Approach 5th Edition Β· Dynamics II: Motion in a Plane Β· Problem 56
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Randall D. Knight β Dynamics II: Motion in a Plane: Problem 56
An airplane feels a lift force \(\vec{L}\) perpendicular to its wings. In level flight, the lift force points straight up and is equal in magnitude to the gravitational force on the plane. When an airplane turns, it banks by tilting its wings, as seen from behind, by an angle \(\theta\) from horizontal. This causes the lift to have a radial component, similar to a car on a banked curve. If the lift had constant magnitude, the vertical component of \(\vec{L}\) would now be smaller than the gravitational force, and the plane would lose altitude while turning. However, you can assume that the pilot uses small adjustments to the plane's control surfaces so that the vertical component of \(\vec{L}\) continues to balance the gravitational force throughout the turn. a. Find an expression for the banking angle \(\theta\) needed to turn in a circle of radius \(r\) while flying at constant speed \(v\). b. An 80,000 kg commercial jet flies at 850 km/h. The standard rate of turning requires 60 s to complete a 90Β° turn. What is the proper banking angle for this turn?
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Given: . In, . a, 80,000 kg, 850 km
This problem covers key concepts in Dynamics II: Motion in a Plane 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: Dynamics II: Motion in a Plane