Chapter 2, Problem 36RE

(a)

To determine

To find: The power function end behavior modelfor $f\left(x\right)=\frac{x^4-3x^2+x-1}{x^3-x+1}$ .

Answer to Problem 36RE

The power function end behavior model is $x$ .

Explanation of Solution

Given information:The function is $f\left(x\right)=\frac{x^4-3x^2+x-1}{x^3-x+1}$ .

Calculation:

The power function end behavior model of a polynomial function is the highest power term.

Consider the function.

  $f\left(x\right)=\frac{x^4-3x^2+x-1}{x^3-x+1}$

The highest power term of the numerator of the function is $x^4$ and the highest power term of denominator is $x^3$ . So, the power function end behavior model of the function is:

  $\frac{x^4}{x^3}=x$

Therefore, the power function end behavior modelis $x$ .

(b)

To determine

To find: The horizontal asymptote of the function $f\left(x\right)=\frac{x^4-3x^2+x-1}{x^3-x+1}$ .

Answer to Problem 36RE

There is no horizontal asymptote of the function as the end behavior model is quadratic.

Explanation of Solution

Given information:The function is $f\left(x\right)=\frac{x^4-3x^2+x-1}{x^3-x+1}$ .

Calculation:

The end behavior model for the function $f\left(x\right)=\frac{x^4-3x^2+x-1}{x^3-x+1}$ is $x$ .

To find the horizontal asymptote, apply limit to the end behavior model.

  $\begin{array}{l}\underset{x\to \infty }{\lim }x=\infty \\ \underset{x\to -\infty }{\lim }x=-\infty \end{array}$

Since there is no finite limit, so no horizontal asymptotes exist.

Therefore, there is no horizontal asymptote of the function as the end behavior model is quadratic.