We have to evaluate cos(2θ), knowing that θ is in the first quadrant and in standard position P(u,v) = (3,4).
We can picture this as:
We can write the relation:
[tex]\tan \theta=\frac{4}{3}[/tex]We now look at the identities to find cos(2θ):
[tex]\cos (2\theta)=\frac{1-\tan^2(2\theta)}{1+\tan^2(2\theta)}[/tex]There are many identities for cos(2θ), but this is expressed in the information we already know, so we can solve as:
[tex]\begin{gathered} \cos (2\theta)=\frac{1-\tan^2(2\theta)}{1+\tan^2(2\theta)} \\ \cos (2\theta)=\frac{1-(\frac{4}{3})^2}{1+(\frac{4}{3})^2} \\ \cos (2\theta)=\frac{1-\frac{16}{9}}{1+\frac{16}{9}} \\ \cos (2\theta)=\frac{\frac{9-16}{9}}{\frac{9+16}{9}} \\ \cos (2\theta)=\frac{-7}{25} \end{gathered}[/tex]Answer: cos(2θ) = -7/25
