Question

How do you solve `4sin^2x=2cosx+1` and find all solutions in the interval `[0,2pi)`?

Answer 1

There are two solutions, `cos^-1((sqrt(13)-1)/4)`, and `2pi-cos^-1((sqrt(13)-1)/4)`

Explanation:

Use the Pythagorean Theorem to replace `sin^2x` with `1-cos^2x`.

`4(1-cos^2x)=2cosx+1`

Use the distributive property

`4-4cos^2x=2cosx+1`

Put this "quadratic" equation in standard form.

`4cos^2x+2cosx-3=0`

Use the quadratic formula to solve for `cosx`.

`cosx=(-2+-sqrt(2^2-4*4*3))/(2*4)=(-2+-sqrt(52))/(2*4)=(-1+-sqrt(13))/(4)`

We can throw out `(-1-sqrt(13))/4` as a real root because it is less than -1, and `cosx` cannot be less than -1 if `x` is real.

Therefore we need only find angles between 0 and `2pi` whose cosine are `(sqrt(13)-1)/4`. These angle would be

`x=cos^-1((sqrt(13)-1)/4)` and `x=2pi-cos^-1((sqrt(13)-1)/4)`.