Math Help!!! How many x-intercepts does the graph of the function have?
List them out. How many complex zeros are there to the function?
List them out. Please explain both questions.

It can have however many x intercepts it wants,

BUT, to be a function it must pass the vertical line test.
this means you have to look at the graph and see if a vertical line drawn anywhere hits the graph more than once.
if it hits it more than once, it is NOT a function.

An example is a polynomial function to the infinite degree. That is
f(x) = lim (n --> infinity) [ x^n]
but only 1 y intercept (vertical line test remember)

nobrains nobrains · Answer 2 · 2016-11-19T01:34:28+01:00

If you are given a parabolic function you can algebraically determine the type of zeros of the function with the discriminant, which is [tex]b^2-4ac[/tex].

The discriminant is derived from the quadratic formula, [tex]x= \frac{-b+/- \sqrt{b^2-4ac} }{2a}[/tex].
The discriminant is what's inside the square root (the radicand).

If the radicand is negative, there will be 2 imaginary numbers (there are two because of the plus or minus before the square root)
If the radicand is positive, there will be 2 real numbers.
If the radicand is zero, the answer will be 0.

Therefore,
If discriminant is negative, there are 2 complex zeros.
If discriminant is positive, there are 2 real zeros.
If discriminant is zero, there is one real zero.

A zero is basically the x-intercept.

Math Help!!! How many x-intercepts does the graph of the function have? List them out. How many complex zeros are there to the function? List them out. Please explain both questions.

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Math Help!!! How many x-intercepts does the graph of the function have?
List them out. How many complex zeros are there to the function?
List them out. Please explain both questions.