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25 June, 10:03

A helicopter is ascending vertically with a speed of 5.52 m/s. At a height of 125 m above the Earth, a package is dropped from the helicopter. How much time does it take for the package to reach the ground?

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  1. 25 June, 13:58
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    This is a perfect application for the general formula for the height of an object in gravity at any time:

    Height = (original height)

    + (original velocity x time)

    - (1/2 x gravity x time²)

    H = H₀ + v₀T - 1/2 G T²

    In this helicopter problem:

    H₀ = 125 m

    v₀ = 5.52 m/s

    G = 9.8 m/s²

    and we want to find 'T' when the package hits the ground.

    That's the time when H=0.

    H₀ + v₀T - 1/2 G T² = 0

    125 + 5.52T - 4.9T² = 0

    Using the quadratic formula:

    T = - 5.52 ± √[5.52² + (4 x 4.9 x 125) ] all over (-9.8)

    = - 5.52 ± √2480.47 all over (-9.8)

    = 0.563 ± 5.082

    T = - 4.52

    T = 5.65

    In a real-world situation, we ignore the negative solution.

    The package hits the ground 5.65 seconds after being released.

    I hope there was nothing fragile inside.
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