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--- 183_notes:examples:relativemotion [2014/07/11 12:55] – [Solution] caballero
+++ 183_notes:examples:relativemotion [2014/11/16 08:05] (current) – pwirving
@@ Line 26: / Line 26: @@
   * The velocities of the plane relative to the air, the air relative to the ground, and the plane relative to the ground are represented in the following diagram.
-<WRAP todo>Add vector addition diagram</WRAP>
+{{ 183_notes:planerelativemotion.png?350 }}
   * The relative velocity equation for three objects is: $\vec{v}_{A/C} = \vec{v}_{A/B} + \vec{v}_{B/C}$ where $\vec{v}_{A/C}$ is the velocity of object A with respect to object C, etc.
 ==== Solution ====
@@ Line 53: / Line 52: @@
 $$\left(-\dfrac{|v_{p/g}|}{|v_{p/a}|}\right)^2+\left(\dfrac{|v_{a/g}|}{|v_{p/a}|}\right)^2= 1$$
 $${|v_{p/g}|}^2+{|v_{a/g}|}^2= {|v_{p/a}|}^2$$
+So, the speed that the plane has with respect to the ground is slower than its air speed, which agrees with the representation above.
+$${|v_{p/g}|}= \sqrt({|v_{p/a}|}^2-{|v_{a/g}|}^2) = \sqrt{(255 \dfrac{m}{s})^2 - (10 \dfrac{m}{s})^2} = 225 \dfrac{m}{s}$$
+The angle the compass should read can be determined from the above representation. The tangent of the angle (as measured from the negative $x$-axis is given by,
+$$\tan \theta = \dfrac{|v_{a/g}|}{|v_{p/g}|}$$
+Hence,
+$$\theta = \tan^{-1} \left(\dfrac{|v_{a/g}|}{|v_{p/g}|}\right) = \tan^{-1} \left(\dfrac{10 \dfrac{m}{s}}{225 \dfrac{m}{s}}\right) = 2.5^{\circ}$$
+which is 2.5$^{\circ}$ north of west or 177.5$^{\circ}$ from east measured counterclockwise.