Apply the Fundamental Theorem of Algebra to determine how many imaginary roots g(x)=12x−3x2+13x3−9 will have, if you know it has one x-intercept.(1 point) Responses one imaginary root one imaginary root two imaginary roots two imaginary roots three imaginary roots three imaginary roots no imaginary roots

Question

Apply the Fundamental Theorem of Algebra to determine how many imaginary roots g(x)=12x−3x2+13x3−9 will have, if you know it has one x-intercept.(1 point) Responses one imaginary root one imaginary root two imaginary roots two imaginary roots three imaginary roots three imaginary roots no imaginary roots

Answer 1

The Fundamental Theorem of Algebra states that a polynomial of degree n has exactly n complex roots, including both real and imaginary roots.

In this case, we know that the polynomial g(x) has one x-intercept, which means it has one real root. Since g(x) is a polynomial of degree 3 (the highest power of x is 3), the Fundamental Theorem of Algebra tells us that g(x) has a total of 3 complex roots.

Therefore, g(x) will have two imaginary roots.