Problems

Show that if \(\, \cos(x - \alpha) = \cos \beta \,\) then either \(\, \tan x = \tan ( \alpha + \beta)\,\) or \(\; \tan x = \tan ( \alpha - \beta)\,\). By choosing suitable values of \(x\), \(\alpha\) and \(\beta\,\), give an example to show that if \(\,\tan x = \tan ( \alpha + \beta)\,\), then \(\,\cos(x - \alpha) \, \) need not equal \( \cos \beta \,\). Let \(\omega\) be the acute angle such that \(\tan \omega = \frac 43\,\).

1. For \(0 \le x \le 2 \pi\), solve the equation \[ \cos x -7 \sin x = 5 \] giving both solutions in terms of \(\omega\,\).
2. For \(0 \le x \le 2 \pi\), solve the equation \[ 2\cos x + 11 \sin x = 10 \] showing that one solution is twice the other and giving both in terms of \(\omega\,\).

1. Show that \( 2\sin(\frac12\theta)=\sin \theta\) if and only if \(\sin(\frac12\theta)=0\,\).
2. Solve the equation \(2\tan (\frac12\theta) = \tan\theta\,\).
3. Show that \(2\cos(\frac12\theta)=\cos \theta\) if and only if \(\theta=(4n+2)\pi\pm 2\phi\) where \(\phi\) is defined by \(\cos \phi=\frac12(\sqrt 3-1)\;\), \(0\le \phi\le \frac{1}{2}\pi\), and \(n\) is any integer.

Show that, if \(\,\tan^2\phi=2\tan\phi+1\), then \(\tan2\phi=-1\). Find all solutions of the equation $$\tan\theta=2+\tan3\theta$$ which satisfy \(0<\theta< 2\pi\), expressing your answers as rational multiples of \(\pi\). Find all solutions of the equation the equation $$\cot\theta=2+\cot3\theta$$ which satisfy $$-\frac{3\pi}{2}<\theta<\frac{\pi}{2}.$$