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3 April, 13:43

A wind turbine is initially spinning at a constant angular speed. As the wind's strength gradually increases, the turbine experiences a constant angular acceleration 0.179 rad/s2. After making 2870 revolutions, its angular speed is 140 rad/s.

(a) What is the initial angular velocity of the turbine?

(b) How much time elapses while the turbine is speeding up?

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  1. 3 April, 13:46
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    (a) 114.6 rad/s

    (b) 142 second

    Explanation:

    angular acceleration, α = 0.179 rad/s^2

    angular displacement,θ = 2 x π x 2870 rad = 18023.6 rad

    ω = 140 rad/s

    Let the initial angular velocity is ωo.

    (a) use third equation of motion

    ω² = ωo² + 2αθ

    140 x 140 = ωo² + 2 x 0.179 x 18023.6

    19600 = ωo² + 6452.45

    ωo = 114.6 rad/s

    (b) Let t be the time elapsed.

    use first equation of motion

    ω = ωo + αt

    140 = 114.6 + 0.179 x t

    25.4 = 0.179 t

    t = 141.9 second

    t = 142 second
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