Question 7.6.3: Solving a Trigonometric Equation (Zero-Factor Property) Solv...
Solving a Trigonometric Equation (Zero-Factor Property)
Solve \tan² x + \tan x – 2 = 0 over the interval [0, 2π).
\tan² x + \tan x – 2 = 0 This equation is quadratic in form.
(\tan x – 1)(\tan x + 2) = 0 Factor.
\tan x – 1 = 0 \text{or} \tan x + 2 = 0 Zero-factor property
\tan x = 1 \text{or} \tan x = -2 Solve each equation.
The solutions for \tan x = 1 over the interval [0, 2π) are x = \frac{π}{4} and x = \frac{5π}{4} .
To solve \tan x = -2 over that interval, we use a calculator set in radian mode. We find that \tan^{-1}(-2) ≈ -1.1071487. This is a quadrant IV number, based on the range of the inverse tangent function. However, because we want solutions over the interval [0, 2π), we must first add π to -1.1071487, and then add 2π.
See Figure 32.
x ≈ -1.1071487 + π ≈ 2.0344439
x ≈ -1.1071487 + 2π ≈ 5.1760366
The solutions over the required interval form the following solution set.
\left\{ \underbrace{ \frac{\pi }{4}, \frac{5}{4} , }_{\begin{matrix} \text{Exact }\\ \text{values }\end{matrix} } \underbrace{2.0344, 5.1760 }_{\begin{matrix} \text{Approximate values to} \\ \text{four decimal places} \end{matrix} } \right\}
