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10 July, 05:16

A race car starts from rest on a circular track. The car increases its speed at a constant rate at as it goes 4.25 times around the track. Find the angle that the total acceleration of the car makes with the radius connecting the center of the track and the car at the moment the car completes its trip of 4.25 times around the circle.

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  1. 10 July, 06:52
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    Angle = 1.07°

    Explanation:

    Total acceleration consists of translational acceleration (a) which is tangential and centripetal acceleration which is (radial).

    Now, Tangential and radial acceleration are always perpendicular to each other. Thus, in a triangle system they are opposite and adjacent sides. From trigonometric ratios,

    Opposite/Adjacent = tanθ

    Now centripetal acceleration is given as v²/r

    Thus, the angle to the radial is given as;

    tanθ = translational acceleration/centripetal acceleration

    So, tanθ = a / (v²/r) = ar/v²

    Thus, θ = tan^ (-1) (ar/v²)

    Now, Distance of one round of circular motion of 'r' radius

    = circumference of circle = 2πr

    N = number of trips car makes around the circle

    Thus,

    total distance = 2πrN

    Now, from equation of motion, we know that v² = u² + 2as

    Where s is total distance and u is initial velocity which is zero in this case.

    Thus, v² = 0² + 2as

    Making s the subject;

    s = v²/2a

    Thus,

    2πrN = v²/2a

    So let's simplify to bring out ar/v² which is what we will use to calculate the angle. So,

    2πrN x 2a = v²

    4πN (ar) = v²

    Thus, ar/v² = 1 / (4πN)

    From the question, N = 4.25

    Thus,

    ar/v² = 1 / (4π x 4.25) = 0.0187

    From earlier, we saw that the angle is given by;

    θ = tan^ (-1) (ar/v²)

    Thus, θ = tan^ (-1) (0.0187)

    θ = 1.07°
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