$\"\"$

Leading term test for polynomial end behavior :

The end behavior of any non-constant polynomial function $\"\"$ can be described in one of the following four ways, as determined by the degree $\"\"$ of the polynomial and its leading coefficient .

For $\"\"$ odd and $\"\"$ positive :

$\"\"$ and $\"\"$ .

For $\"\"$ odd and $\"\"$ negative :

$\"\"$ and $\"\"$ .

For $\"\"$ even and $\"\"$ positive :

$\"\"$ and $\"\"$ .

For $\"\"$ even and $\"\"$ negative :

$\"\"$ and $\"\"$ .

A polynomial function $\"\"$ of degree $\"\"$ has at most $\"\"$ distinct real zeros and at most $\"\"$ turning points.

Multiplicity :

How many times a particular number is a zero for a given polynomial is known as multiplicity.

$\"\"$

(a)

The polynomial function is $\"\"$ .

The leading term is $\"\"$ .

The degree is $\"\"$ and the leading coefficient is $\"\"$ .

Since the degree is $\"\"$ (odd) and the leading coefficient is $\"\"$ (positive), the end behavior of the graph of $\"\"$ is $\"\"$ and $\"\"$ .

$\"\"$

(b)

The function is $\"\"$ .

The degree of the function is $\"\"$ .

Since the degree of the function is $\"\"$ ( $\"\"$ ), the function $\"\"$ has at most $\"\"$ ( $\"\"$ ) distinct real zeros.

Find the real zeros by equating $\"\"$ to zero.

Solve the equation $\"\"$ .

$\"\"$

Apply zero product property.

$\"\"$

Thus, the function $\"\"$ has three distinct real zeros at $\"\"$ and $\"\"$ .

And the multiplicity is zero.

$\"\"$

(c)

The function is $\"\"$ .

Make the table of values to find ordered pairs that satisfy the function.

Choose values for $\"\"$ that fall in the intervals determined by the zeros of the function.

\ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \

Interval	*$\"\"$* value in the interval	$\"\"$	$\"\"$
$\"\"$	$\"\"$	$\"\"$	$\"\"$
$\"\"$	$\"\"$	$\"\"$	$\"\"$
$\"\"$	$\"\"$	$\"\"$	$\"\"$
$\"\"$	$\"\"$	$\"\"$	$\"\"$