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2 3 x(m) 3) A banked circular road with a diameter of 44.0 m is covered in a sheet of ice on a very cold morning (i.e. no friction). It is designed for cars to travel on it at precisely 40 km/h with no risk of sliding in or out, as illustrated in the figure on the next page. a) Compute the required bank angle 0 (from the horizontal) in degrees. b) Explain what would happen if the driver exceeds the design speed. c) Explain what would happen if the driver drives below the design speed.

2 3 x(m) 3) A banked circular road with a diameter of 44.0 m is covered in a sheet of ice on a very cold morning (i.e. no friction). It is designed for cars to travel on it at precisely 40 km/h with no risk of sliding in or out, as illustrated in the figure on the next page. a) Compute the required bank angle 0 (from the horizontal) in degrees. b) Explain what would happen if the driver exceeds the design speed. c) Explain what would happen if the driver drives below the design speed.

Classical Dynamics of Particles and Systems
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter1: Matrices, Vectors, And Vector Calculus
Section: Chapter Questions
Problem 1.15P
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3 X(m) 2 3) A banked circular road with a diameter of 44.0 m is covered in a sheet of ice on a very cold morning (i.e. no friction). It is designed for cars to travel on it at precisely 40 km/h with no risk of sliding in or out, as illustrated in the figure on the next page. a) Compute the required bank angle 0 (from the horizontal) in degrees. b) Explain what would happen if the driver exceeds the design speed. c) Explain what would happen if the driver drives below the design speed.
Transcribed Image Text:3 X(m) 2 3) A banked circular road with a diameter of 44.0 m is covered in a sheet of ice on a very cold morning (i.e. no friction). It is designed for cars to travel on it at precisely 40 km/h with no risk of sliding in or out, as illustrated in the figure on the next page. a) Compute the required bank angle 0 (from the horizontal) in degrees. b) Explain what would happen if the driver exceeds the design speed. c) Explain what would happen if the driver drives below the design speed.
Te R (a)
Transcribed Image Text:Te R (a)
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