Learning Goal: I’m working on a aerospace engineering presentation and need an e

Learning Goal: I’m working on a aerospace engineering presentation and need an explanation and answer to help me learn.
For this activity, you will assume the role of a human resources manager for an airline or airport. As the human resources manager, you are responsible for recruiting and hiring a qualified workforce. For this assignment, you will prepare a briefing identifying and supporting the necessary qualifications, certifications, and attributes of one of the following aviation positions:
pilot
maintenance technician
avionics
dispatcher
air traffic control
Your presentation must include a minimum of five slides but no more than eight, not including the title slide or reference slide. It must have embedded audio and include speaker notes.
Keep in mind that as a minimum your presentation must:
Identify the job description for the position.
Explain the criteria needed for the position.
Explain the privileges of certification in this position.
Defend the importance of minimum qualification and certification standards for the position.
Include a reference slide.

Learning Goal: I’m working on a aerospace engineering question and need an expla

Learning Goal: I’m working on a aerospace engineering question and need an explanation and answer to help me learn.
Consider formation flight. Assume the airplanes fly side by side with their
wake vortices separated by distance b/2, as shown below. Here, b is the span of the
wing. For (i) 2 airplanes (I did this in class), (ii) 3 airplanes, (iii) 5 airplanes. Determine
the percentage reduction in induced drag for each of the airplanes flying in formation
compared to the induced drag for an airplane flying by itself. For case (ii) and (iii) do
the airplanes flying on the inside of the formation have more or less induced drag than
the airplanes flying on the outside edge of the formation? Determine the average of
the percentage reduction in induced drag and tabulate this as a function of the number
of airplanes in the formation.(In working this problem assume the lift for each plane
stays the same, since the weight does not change. Hint: Evaluate the downwash at the
wing root of each plane).