Let's dive into how to find a polynomial p (x) that not only has integer coefficients but also satisfies specific conditions Find all rational zeros of the polynomial, and then find the irrational zeros, if any We're on the hunt for a polynomial of degree 4 with zeros at x = 3 and x = 1/2.
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Write the factors of the polynomial using the given zeros
Multiply the factors to form the polynomial
Where $$a$$a is a constant Determine the value of $$a$$a using the constant coefficient Q (x) has degree 3 and zeros −7 and 1 + i Answer by edjones (8007) (show source):
Problem let be a polynomial with integer coefficients that satisfies and given that has two distinct integer solutions and find the product solution we define , noting that it has roots at and In particular, this means that Therefore, satisfy , where , , and are integers. To find a polynomial with integer coefficients that has degree 3 and zeros at 3 and 2i, we need to remember that complex roots always come in conjugate pairs
Find a polynomial with integer coefficients that satisfies the given conditions.q has degree 3 and zeros 5, 5i, and −5i
Your solution’s ready to go The polynomial can be found by multiplying the factors associated with each root: For the following, find the function p defined by a polynomial of degree 3 with real coefficients that satisfy the given conditions Two of the zeros are 4 and 1+i.
