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The concept of variable banking for racetrack turns is shown in the figure. If the two radii of curvature are pÃ= 265 ft and PB = 284 ft for cars A and B, respectively, determine the maximum speed for each car. The coefficient of static friction is us = 0.83 for both cars. B 22° Answers: VA VB = H. 29° f f

The concept of variable banking for racetrack turns is shown in the figure. If the two radii of curvature are pÃ= 265 ft and PB = 284 ft for cars A and B, respectively, determine the maximum speed for each car. The coefficient of static friction is us = 0.83 for both cars. B 22° Answers: VA VB = H. 29° f f

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The concept of variable banking for racetrack turns is shown in the figure. If the two radii of curvature are pà = 265 ft and PB = 284 ft for cars A and B, respectively, determine the maximum speed for each car. The coefficient of static friction is μ = 0.83 for both cars. B A Answers: VA = VB= IN 22 29° f f
Transcribed Image Text:The concept of variable banking for racetrack turns is shown in the figure. If the two radii of curvature are pà = 265 ft and PB = 284 ft for cars A and B, respectively, determine the maximum speed for each car. The coefficient of static friction is μ = 0.83 for both cars. B A Answers: VA = VB= IN 22 29° f f
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