Exercise 40 Page 163

Let's now identify the increasing and decreasing intervals. We are told that the graph decreases for values of x greater than - 1 and less than 1. We also know that the graph increases when x is less than - 1 or greater than 1.

Notice that now we can tell where the zeros, minimum, and maximum values of our function will be.

• Zeros at - 1.5, 0, and 1.5 — at this points the function is changing sign of the values, this tells us the location of three of the real zeros.
• Minimum at x=1 — at this point the function is changing from decreasing to increasing, this tells us that no other nearby points can have a lower y-coordinate.
• Maximum at x=- 1 — at this point the function is changing from increasing to decreasing, this tells us that no other nearby points can have a greater y-coordinate.

We will sketch the graph of the function with only three real zeros. We will plot them on the graph and then draw a curve that passes through those points. Also, be sure to remember that the graph has a minimum at x=1, and a maximum at x=- 1.

Note that this is only one of the infinitely many graphs with the given characteristics. Any graph with three zeros at - 1.5, 0, and 1.5, which is decreasing and increasing in the given intervals, will be correct.

Degree and Leading Coefficient of f

From the graph we can tell that f(x) approaches negative infinity as x approaches negative infinity and f(x) approaches positive infinity as x approaches positive infinity. f(x) → - ∞ as x → - ∞ f(x) → + ∞ as x → + ∞ From the down-up end behavior of the graph we know, that our polynomial function has an odd degree and positive leading coefficient.