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28 February, 21:27

To maintain a constant speed, the force provided by a car's engine must equal the drag force plus the force of friction of the road (the rolling resistance). what are the drag forces at 50 km/h and 80 km/h for a toyota camry? (drag area is 0.67 m2.)

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  1. 28 February, 21:42
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    Given:

    A = 0.67 m², the area perpendicular to the direction of motion

    v = 50 km/h and 80 km/h, traveling speeds

    The drag force is

    F = (1/2) CρAv²

    where

    C = 0.4, the drag coefficient (a low number for efficiently designed Camry)

    ρ = 1.225 kg/m³, density of air

    Note that 1 km/h ≈ 0.2778 m/s.

    Therefore,

    50 km/h = 13.89 m/s

    80 km/h = 22.224 m/s

    At 50 km/h, the drag force is

    F₅₀ = 0.5*0.4 * (1.225 kg/m³) * (0.67 m²) * (13.89 m/s) ² = 31.67 N

    At 80 km/h, the drag force is

    F₈₀ = 0.5*0.4*1.225*0.67*22.224² = 81.075 N

    Answers:

    31.7 N at 50 km/h

    81.1 N at 80 km/h
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