Question

How do you solve `\frac { \tan \theta - \tan 27^ { \circ } } { 1+ \tan \theta \tan 27^ { \circ } } = 1`?

Answer 1

`\theta=72^circ+180^circ or \theta=(2pi)/5+n\pi` where `n inZZ`

Explanation:

`(tan\theta-tan27^circ)/(1+tan\theta*tan27^circ)=1`

Using the trig identity: `tan(A-B)=(tanA-tanB)/(1+tanAtanB)`, we can get:
`(tan\theta-tan27^circ)/(1+tan\theta*tan27^circ) = tan(\theta-27^circ)=1`

`arctan(tan(\theta-27^circ))=\theta-27^\circ`
`arctan(1)=45^circ`

`\theta-27^circ=45^circ`

`\theta=45^circ+27^circ=72^circ`

`\theta=72^circ+n180^circ or \theta=(2pi)/5+npi` where `n inZZ`

Answer 2

`\theta=72^\circ`

Explanation:

`(tan\theta-tan(27))/(1+tan\thetatan(27))=1`

`((tan\theta-tan(27))cancel((1+tan\thetatan(27))))/cancel(1+tan\thetatan(27))=1*(1+tan\thetatan(27))`

`tan\theta-tan(27)=1+tan\thetatan(27)`

`tan\theta-tan\thetatan(27)=1+tan(27)`

`tan\theta(1-tan(27))=(1+tan(27))`

`tan\theta=(1+tan(27))/(1-tan(27))`

`\theta=arctan((1+tan(27))/(1-tan(27)))~~arctan(3.08)~~72^\circ`

Answer 3

`theta=72^circ`

Explanation:

`(tan\theta-tan27^circ)/(1+tan\theta*tan27^circ)=1`

`tan\theta-tan27^circ=1+tan\theta*tan27^circ`

`tan\theta-tan\theta*tan27^circ=1+tan27^circ`

`tan\theta*(1-tan27^circ)=1+tan27^circ`

`tan\theta=(1+tan27^circ)/(1-tan27^circ)`

=`(cos27^circ+sin27^circ)/(cos27^circ-sin27^circ)`

=`(sin63^circ+sin27^circ)/(cos27^circ-cos63^circ)`

=`(2sin45^circ*cos18^circ)/(-2sin45^circ*sin(-18)^circ)`

=`cos18^circ/-(-sin18^circ)`

=`cot18^circ`

=`tan72^circ`

Hence `theta=72^circ`