Position Vector: Homework Solution Needed

AI Thread Summary
The discussion revolves around solving a homework problem involving position vectors and trigonometry related to an airplane's flight path. The problem requires calculating Tracy's position vector relative to San Francisco International Airport after two legs of the journey. Participants emphasize the importance of accurately sketching the flight path and using the Law of Cosines for the calculation. One user shares their learning experience from office hours, confirming that the Law of Cosines is the correct approach. The conversation highlights the need for visual aids and a solid understanding of trigonometric principles to solve vector-related problems effectively.
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Homework Statement


The distance traveled by an airplane flying from San Francisco International airport (SFO) to San Jose International (SJC) is 30 nautical miles 36° south of east. Flying from SJC to Tracy, the plane's displacement is 36 nautical miles 52° east of north. What is Tracy's position vector in nautical miles relative to SFO?


Homework Equations



##a^2+b^2=c^2##


The Attempt at a Solution



I've tried to draw a triangle, but the positions are weird. I know I need to use trig, but I can figure out what formula to use, or where to start even. Someone help!
 
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What's weird about the positions? Have you checked your sketch with a map of California? After all, Google Maps has covered the globe.
 
SteamKing said:
What's weird about the positions? Have you checked your sketch with a map of California? After all, Google Maps has covered the globe.

Yeah I have, but I don't think I'm getting the angles correctly.

Here's a photo, SF at the top left, SJ south, Tracy east: http://imgur.com/LSEgciu

I'm also not entirely sure what sort of trig to use, only just learned what vectors were yesterday.
 
Well, we can't really provide any suggestions unless we see your work.
 
SteamKing said:
Well, we can't really provide any suggestions unless we see your work.

I went to office hours, and I learned that it was just the Law of Cosines.

such that:

c^2 = (30^2+36^2-2(30*36)cos(ab).
 

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