Test a value from each interval to see if it satisfies the original inequality.
Step 1
We will start by solving the related equation.
- x^2+2x=- 10 ⇔ - 1x^2+ 2x+ 10=0We see above that a= - 1, b= 2, and c= 10. Let's substitute these values into the Quadratic Formula to solve the equation.
Now we can calculate the first root using the positive sign and the second root using the negative sign.
x=- 2±sqrt(44)/- 2
x=- 2 + sqrt(44)/- 2
x=- 2 - sqrt(44)/- 2
x=- 2/- 2+sqrt(44)/- 2
x=- 2/- 2-sqrt(44)/- 2
x=1-sqrt(44)/2
x=1+sqrt(44)/2
x≈ - 2.32
x≈ 4.32
Step 2
The solutions of the related equation are approximately - 2.32 and 4.32. Let's plot them on a number line. Since the original is not a strict inequality, the points will be closed.
Step 3
Finally, we must test a value from each interval to see if it satisfies the original inequality. Let's choose a value from the first interval, x ≤ - 2.32. For simplicity, we will choose x=- 4.
