Question

How do you find a polynomial function f with real coefficients of the indicated degree that possesses the given zeros: degree 2; 4+3i?

Answer 1

`f(x) = x^2 - 8x + 25`

Explanation:

We know that the function is a degree-2 polynomial, so the function has two solutions, one of which is given as `4 + 3i`.

Know that if one imaginary species is a solution to a polynomial equation, its conjugate is also a solution.

Therefore, the other solution to this equation is the conjugate of `4 + 3i`, which is `color(blue)(4-3i`.

Now that we know the solutions to the polynomial equation, let's derive a function, by setting them equal to zero like so:

`(x - (4 +3i))(x - (4 -3i)) = 0`

which is the same as

`(x - 4 - 3i)(x - 4 + 3i) = 0`

Factoring out the polynomial gives us

`x^2 - 4x + 3x i - 4x + 16 - 12i - 3x i + 12i - 9i^2 = 0`

Combining like terms..

`x^2 - 8x + 16 - 9i^2`

`i^2 = -1`:

`x^2 - 8x + 25`

The equation of the function with zeros `4 +- 3i` is thus

`color(blue)(f(x) = x^2 - 8x + 25`

Answer 2

`x^2-8x+25= 0`

Explanation:

Complex roots of real valued polynomials always appear in conjugate pairs, so if one root of `f(x)=0` is:

`alpha = 4+3i`

Then another root is:

`beta = 4-3i`

Se we are looking for a polynomial of degree `2`, ie a quadratic with roots `alpha` and `beta`.

So then:

Sum `=alpha+beta`
`" " = (4+3i) + (4-3i)`
`" " = 8`

Product `=alphabeta`
`" " = (4+3i)(4-3i)`
`" " = 16-9i^2`
`" " = 25`

And so the required equation is:

`x^2-("sum of roots")x + ("product of roots") = 0`
`:. x^2-8x+25= 0`