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20 January, 14:33

A highway curves to the left with radius of curvature of 42 m and is banked at 20 ◦ so that cars can take this curve at higher speeds. Consider a car of mass 1869 kg whose tires have a static friction coefficient 0.51 against the pavement.

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  1. 20 January, 14:51
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    The maximum speed the car can attain is 14 m/s

    Explanation:

    Assuming that the velocity is to be calculated.

    Here, the centripetal force of car must equal the frictional force, in order to take the turn without skidding.

    Therefore,

    Centripetal Force = Frictional force

    mv²/r = f

    where,

    f = frictional force

    m = mass of car = 1896 kg

    r = radius of curvature = 42 m

    v = speed of car

    Now,

    f = μR

    where,

    μ = coefficient of friction = 0.51

    R = Normal Reaction = Normal component of the weight of the car

    R = W Cos θ = mg Cos θ

    Therefore,

    f = μmg Cos θ

    Therefore,

    mv²/r = μmg Cos θ

    v² = rμg Cos θ

    v = √rμg Cos θ

    v = √ (42 m) (0.51) (9.8 m/s²) Cos (20°)

    v = 14 m/s
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