Finding the resultant of two vector of an oblique triangle

AI Thread Summary
To find the resultant displacement of a car traveling 20 km north and 35 km at 60° west of north, the problem requires breaking the vectors into components. The correct approach involves using trigonometric functions to resolve each vector into its x (east-west) and y (north-south) components. The resultant vector is then calculated by summing these components and applying the Pythagorean theorem to find the magnitude. The angle of the resultant can be determined using trigonometric ratios based on the components. Understanding vector components is crucial for solving this type of physics problem effectively.
ElizabethC7
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Homework Statement



A car travels 20.0 km due north and then 35.0 km in a direction 60.0° west of north. Using a graph, find the magnitude and direction of a single vector that gives the net effect of the car's trip. This vector is called the car's resultant displacement.

I am studying for a physics test, and this is a problem out of my textbook. The author gives the answer of the resultant to be 48 km, and the angle β, the angle between vector A and the resultant, to be 39° west of north.

Homework Equations



From the book, because I missed class the day we went over this, I have learned that to find the resultant one simply adds vector A to vector B.

R= A + B

Also, from different physics web sites, some people have suggested the pythagorean theorem; however, I believe that only works with right triangles, not oblique.

R2= A2 + B2

Lastly, I came across this equation.

c2= a2 + b2 - 2abcos(c)

The Attempt at a Solution



I have tried all 3 equations.

1) R= 20 + 35= 55

2) R2=202 +352
R2= 1625
R= (sqrt 1625)
R= 40.3112887

3) R2= 202 + 352 - 2(20)(35)cos(60)
R2= 1625-1400cos(60)
R2=1625-933.71
R2= 691.29
R= 26.2923943


Obviously, none of these solutions match the one given by the author. How am I supposed to work this problem to find the right solution? As far as finding angle β, I have no idea where to start
 
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Add vectors by adding their components. The result is the components of, you guessed it, the resultant! So first break down your given vectors into their components.

The two components of your resultant will be at right angles to each other, just as in a Pythagorean triangle. So use the appropriate formula to find the magnitude of that vector from its components.

Also, look at your graph of the setup to determine how you might find the requested angle of the resultant.
 
Thank you for your help, but could you explain how I am to find vector components?
 
ElizabethC7 said:
Thank you for your help, but could you explain how I am to find vector components?

Draw a diagram of a vector on a set of Cartesian coordinates. The components of the vector are the perpendicular projections of the vector on the coordinate axes.

If the vector projects from the origin to a point (x,y), then x and y are also the magnitudes of the components. Clearly, then, given a vector of length R that makes some angle θ with the x-axis, the components can be found using the basic trig formulas for a right triangle.
 

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