reviews the approach taken in problems such as this one. A bird watcher meanders through the woods, walking 0.916 km due east, 0.918 km due south, and 3.52 km in a direction 49.7 ° north of west. The time required for this trip is 1.750 h. Determine the magnitudes of the bird watcher's (a) displacement and (b) average velocity.

Let's represent displacement by the letter S and the displacement in direction 49.7° as A. Displaement is a vector, so we need to decompose all the bird's displacement into their X-Y compoments. Let's go one by one:

0.916 km due east is an horizontal direction and cane be seen as direction towards the negative side of X-axis.

0.928 km due south is a vertical direction and can be seen as a direction towards the negative side of Y-axis.
3.52 km in a direction of 49.7° has components on X and Y axes. It is necessary to break it down using trigonometry,

First of all. We need to sum all the X components and all the Y componets.

∑[tex]Sx = Ax -0.916[/tex] ⇒ ∑[tex]Sx = [tex]3.52cos(49.7) - 0.916[/tex]

∑[tex]Sx = 1.361 km[/tex]

∑[tex]Sy = Ay - 0.918[/tex] ⇒ ∑[tex]Sy = 3.52sin(49.7) - 0.918[/tex]

∑[tex]Sy = 1.767[/tex]

The total displacement is calculated using Pythagoeran therorem:

[tex]S_{total} =\sqrt{Sx^{2}+ Sy^{2} }[/tex] ⇒

[tex]S_{total} = 2.230 km[/tex]

With displacement calculated, we can find the average speed as follows:

[tex]V = S/t[/tex] ⇒ [tex]V = \frac{2.230}{1.750}[/tex]

[tex]V = 1.274\frac{km}{h}[/tex]