Ask Question
27 May, 22:31

A plane is flying east at 135 m/s. The wind accelerates it at 2.18 m/s^2 directly northeast. After 18 s, what is the magnitude of the displacement of the plane?

+2
Answers (1)
  1. 27 May, 22:45
    0
    When we say directly northeast that is equivalent to 45˚ north of east.

    First let us determine the north and east components of the acceleration using cos and sin functions:

    North = 2.18 * sin 45

    East = 2.18 * cos 45

    Then we set to determine the east component of the plane’s displacement by calculating using the formula:

    d = vi * t + ½ * a * t^2

    d = 135 * 18 + ½ * 2.18 * cos 45 * 18^2

    d = 2430 + 353.16 * cos 45 = 2679.72 m

    Calculating for the north component:

    North = ½ * 2.18 * sin 45 * 18^2

    North = 249.72 m

    Hence magnitude is:

    Magnitude = sqrt (2679.72^2 + 249.72^2)

    Magnitude = 2,691. 33 m

    Calculating for angle:

    Tan θ = North : East

    Tan θ = 249.72 m : 2679.72 m

    θ = 5.32°

    So the plane was flying at 2,691. 33 m at 5.32 °
Know the Answer?
Not Sure About the Answer?
Find an answer to your question 👍 “A plane is flying east at 135 m/s. The wind accelerates it at 2.18 m/s^2 directly northeast. After 18 s, what is the magnitude of the ...” in 📗 Physics if the answers seem to be not correct or there’s no answer. Try a smart search to find answers to similar questions.
Search for Other Answers