$\"\"$

The polynomial function is $\"\"$ .

The maximum number of real zeros of a polynomial function is equal to the degree of that polynomial function.

So the maximum number of real zeros of $\"\"$ is $\"\"$ .

$\"\"$

Descartes $\"\"$ rule of signs is useful for finding the maximum number of real zeros of the polynomial function.

Descartes $\"\"$ sign rule :

The possible number of positive zeros of polynomial function $\"\"$ is the number of sign changes of the coefficients of $\"\"$ or that number positive even number.

$\"\"$ .

Since there are $\"\"$ sign changes in the $\"\"$ the possible number of positive zeros of polynomial function $\"\"$ is $\"\"$ .

$\"\"$

Since there are $\"\"$ sign changes in the $\"\"$ the possible number of negative zeros of polynomial function $\"\"$ is $\"\"$ .

Hence, by Descartes $\"\"$ sign rule, the maximum number of zeros is $\"\"$ .

$\"\"$

Make a table of a possible combinations of real and imaginary zeros.

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

\ Number of postive real zeros \	\ Number of negative zeros \	\ Number of imaginary zeros \	\ Total number of zeros \
\ $\"\"$ \	\ $\"\"$ \	\ $\"\"$ \	\ $\"\"$ \
\ $\"\"$ \	\ $\"\"$ \	\ $\"\"$ \	\ $\"\"$ \

$\"\"$

The maximum number of real zeros of $\"\"$ is $\"\"$ .