5.5 Zeros of polynomial functions (Page 6/14)

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There is a similar relationship between the number of sign changes in $f (- x)$ and the number of negative real zeros.

The function, f(-x)=(-x)^4+(-x)^3+(-x)^2+(-x)-1=+ x^4-x^3+x^2-x-1, has three sign changes between x^4 and x^3, x^3 and x^2, and x^2 and x.`

In this case, $f (- x)$ has 3 sign changes. This tells us that $f (x)$ could have 3 or 1 negative real zeros.

A General Note

Descartes’ rule of signs

According to Descartes’ Rule of Signs , if we let $f (x) = a_{n} x^{n} + a_{n - 1} x^{n - 1} + ... + a_{1} x + a_{0}$ be a polynomial function with real coefficients:

The number of positive real zeros is either equal to the number of sign changes of $f (x)$ or is less than the number of sign changes by an even integer.
The number of negative real zeros is either equal to the number of sign changes of $f (- x)$ or is less than the number of sign changes by an even integer.

Using descartes’ rule of signs

Use Descartes’ Rule of Signs to determine the possible numbers of positive and negative real zeros for $f (x) = - x^{4} - 3 x^{3} + 6 x^{2} - 4 x - 12.$

Begin by determining the number of sign changes.

There are two sign changes, so there are either 2 or 0 positive real roots. Next, we examine $f (- x)$ to determine the number of negative real roots.

\begin{matrix} f (- x) & = & - {(- x)}^{4} - 3 {(- x)}^{3} + 6 {(- x)}^{2} - 4 (- x) - 12 \\ f (- x) & = & - x^{4} + 3 x^{3} + 6 x^{2} + 4 x - 12 \end{matrix}

Again, there are two sign changes, so there are either 2 or 0 negative real roots.

There are four possibilities, as we can see in [link] .


Positive Real Zeros	Negative Real Zeros	Complex Zeros	Total Zeros
2	2	0	4
2	0	2	4
0	2	2	4
0	0	4	4

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Try It

Use Descartes’ Rule of Signs to determine the maximum possible numbers of positive and negative real zeros for $f (x) = 2 x^{4} - 10 x^{3} + 11 x^{2} - 15 x + 12.$ Use a graph to verify the numbers of positive and negative real zeros for the function.

There must be 4, 2, or 0 positive real roots and 0 negative real roots. The graph shows that there are 2 positive real zeros and 0 negative real zeros.

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Solving real-world applications

We have now introduced a variety of tools for solving polynomial equations. Let’s use these tools to solve the bakery problem from the beginning of the section.

Solving polynomial equations

A new bakery offers decorated sheet cakes for children’s birthday parties and other special occasions. The bakery wants the volume of a small cake to be 351 cubic inches. The cake is in the shape of a rectangular solid. They want the length of the cake to be four inches longer than the width of the cake and the height of the cake to be one-third of the width. What should the dimensions of the cake pan be?

Begin by writing an equation for the volume of the cake. The volume of a rectangular solid is given by $V = l w h .$ We were given that the length must be four inches longer than the width, so we can express the length of the cake as $l = w + 4.$ We were given that the height of the cake is one-third of the width, so we can express the height of the cake as $h = \frac{1}{3} w .$ Let’s write the volume of the cake in terms of width of the cake.

\begin{matrix} V & = & (w + 4) (w) (\frac{1}{3} w) \\ V & = & \frac{1}{3} w^{3} + \frac{4}{3} w^{2} \end{matrix}

Substitute the given volume into this equation.

\begin{matrix} 351 & = & \frac{1}{3} w^{3} + \frac{4}{3} w^{2} & Substitute 351 for V . \\ 1053 & = & w^{3} + 4 w^{2} & Multiply both sides by 3 . \\ 0 & = & w^{3} + 7 w^{2} - 1053 & Subtract 1053 from both sides . \end{matrix}

Descartes' rule of signs tells us there is one positive solution. The Rational Zero Theorem tells us that the possible rational zeros are $\pm 1, \pm 3, \pm 9, \pm 13, \pm 27, \pm 39, \pm 81, \pm 117, \pm 351,$ and $\pm 1053.$ We can use synthetic division to test these possible zeros. Only positive numbers make sense as dimensions for a cake, so we need not test any negative values. Let’s begin by testing values that make the most sense as dimensions for a small sheet cake. Use synthetic division to check $x = 1.$

Since 1 is not a solution, we will check $x = 3.$

Since 3 is not a solution either, we will test $x = 9.$

Synthetic division gives a remainder of 0, so 9 is a solution to the equation. We can use the relationships between the width and the other dimensions to determine the length and height of the sheet cake pan.

l = w + 4 = 9 + 4 = 13 and h = \frac{1}{3} w = \frac{1}{3} (9) = 3

The sheet cake pan should have dimensions 13 inches by 9 inches by 3 inches.

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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