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27 October, 22:12

You are the design engineer in charge of the crashworthiness of new automobile models. Cars are tested by smashing them into fixed, massive barriers at 50 km/h. A new model of mass 1500 kg takes 0.15 s from the time of impact until it is brought to rest. Calculate the average force exerted on the car by the barrier. Calculate the average deceleration of the car.

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  1. 28 October, 01:23
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    F = - 138889 N

    a = - 92.59 m/s²

    Explanation:

    If

    vi = 50 Km/h = (50 Km/h) (1000 m / 1 Km) (1 h / 3600 s) = 13.88 m/s

    m = 1500 Kg

    Δt = 0.15 s

    vf = 0 Km/h

    F = ?

    a = ?

    We can apply the Impulse-Momentum Theorem as follows:

    F*Δt = m*Δv ⇒ F*Δt = m * (vf - vi) ⇒ F = m * (vf - vi) / Δt

    ⇒ F = (1500 Kg) * (0 m/s - 13.88 m/s) / (0.15 s)

    ⇒ F = - 138889 N

    Then, we use Newton's 2nd Law:

    F = m*a ⇒ a = F / m = ( - 138889 N) / (1500 Kg)

    ⇒ a = - 92.59 m/s²
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