Lösung 4.4:5b

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Let's first investigate when the equality


\displaystyle \tan u=\tan v


is satisfied. Because \displaystyle u can be interpreted as the slope (gradient) of the line which makes an angle \displaystyle u with the positive \displaystyle x -axis, we see that for a fixed value of tan u, there are two angles \displaystyle v in the unit circle with this slope:


\displaystyle v=u and \displaystyle v=u+\pi


slope \displaystyle =\text{ tan }u slope \displaystyle =\text{ tan }u


The angle \displaystyle v has the same slope after every half turn, so if we add multiples of \displaystyle \pi \text{ } to \displaystyle u, we will obtain all the angles \displaystyle v which satisfy the equality


\displaystyle v=u+n\pi


where \displaystyle n is an arbitrary integer.

If we apply this result to the equation


\displaystyle \tan x=\tan 4x


we see that the solutions are given by


\displaystyle 4x=x+n\pi ( \displaystyle n an arbitrary integer),

and solving for \displaystyle x gives


\displaystyle x=\frac{1}{3}n\pi ( \displaystyle n an arbitrary integer).