A car is traveling on a banked curve as shown in the figure below. The radius of curvature of the road is R, the banking angle is 0, and the coefficient of static friction is . V min V max n = μs= T (a) Determine the range of speeds the car can have without slipping up or down the road. (Use any variable or symbol stated above along with the following as necessary: g. Note that the subscript of μ is lowercase.) nx 0 n F (b) Find the minimum value for μ such that the minimum speed is zero. (Use the following as necessary: R, 0, and g.)

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A car is traveling on a banked curve as shown in the figure below. The radius of curvature of the road is R, the banking angle is 0,
and the coefficient of static friction is μ.
V min
V
max
n
=
Ms=
==J
(a) Determine the range of speeds the car can have without slipping up or down the road. (Use any variable or symbol stated
above along with the following as necessary: g. Note that the subscript of μ is lowercase.)
nx
0
n
F
(b) Find the minimum value for μ such that the minimum speed is zero. (Use the following as necessary: R, 0, and g.)
Transcribed Image Text:A car is traveling on a banked curve as shown in the figure below. The radius of curvature of the road is R, the banking angle is 0, and the coefficient of static friction is μ. V min V max n = Ms= ==J (a) Determine the range of speeds the car can have without slipping up or down the road. (Use any variable or symbol stated above along with the following as necessary: g. Note that the subscript of μ is lowercase.) nx 0 n F (b) Find the minimum value for μ such that the minimum speed is zero. (Use the following as necessary: R, 0, and g.)
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