How Can You Find the Missing Vector in a Sailor's Journey?

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Homework Help Overview

The problem involves a sailor's journey with multiple legs, where the final position is known, but the last leg's distance and direction are unknown. The subject area pertains to vector addition and navigation, specifically in the context of two-dimensional motion.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss converting polar coordinates to Cartesian coordinates to analyze the vectors involved. There are suggestions to draw the situation and label distances, as well as questions about how to find the lengths of sides in a triangle formed by the vectors.

Discussion Status

The discussion is ongoing, with some participants providing guidance on vector conversion techniques and others expressing uncertainty about how to begin solving the problem. There is no explicit consensus on the approach yet.

Contextual Notes

Participants note a lack of initial attempts at solving the problem and question the understanding of vector components and their relationships. The original poster has not yet engaged with the problem-solving process.

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Homework Statement



A sailor in a small sailboat encounters shifting winds. She sails 2.00 km east, then 3.50 km southwest, and then an additional distance in an unknown direction. Her final position is 5.80 km directly east of the starting point. Find the magnitude and direction of the third leg of her journey.


Homework Equations





The Attempt at a Solution

 
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Have you done any work on the problem? Try drawing it out and labeling the distances, do you know how to find the length of the sides of an isosceles (two sides same length) triangle?
 
No, I haven't done anything yet. I don't know what to do. Nor solve for those sides.
 
Try to turn these vectors from polar coordinates to Cartesian coordinates(normal vectors).

For example, (2 km,east)=(2 km,0o). Changing that into Cartesian gives <2cos 0o km,2 cos 0o km> =<2(1) km,2(0)km>=<2km,0km>

Then do that for all of them and add their components.

You may want to see this: http://www.delphiforfun.org/programs/math_topics/polar-cartesian.htmEDIT: Also, http://www.1728.com/vectutor.htm
 
Pinu7 said:
Try to turn these vectors from polar coordinates to Cartesian coordinates(normal vectors).

For example, (2 km,east)=(2 km,0o). Changing that into Cartesian gives <2cos 0o km,2 cos 0o km> =<2(1) km,2(0)km>=<2km,0km>

Then do that for all of them and add their components.

You may want to see this: http://www.delphiforfun.org/programs/math_topics/polar-cartesian.htm


EDIT: Also, http://www.1728.com/vectutor.htm


Can I get the magnitude and direction of the missing vector with that?
 

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