Answered

For all your questions, big or small, IDNLearn.com has the answers you need. Explore thousands of verified answers from experts and find the solutions you need, no matter the topic.

Let [tex]$y = 8x^3 + \frac{6x^4}{x^{-6}} - 7x^5 + 1$[/tex].

(a) What power function does the function above resemble?
(Enter the entire power function, not just the degree of the power function.)

(b) Describe the long-run behavior of the polynomial. Enter INFINITY or -INFINITY to denote [tex]$\infty$[/tex] or [tex][tex]$-\infty$[/tex][/tex].
- [tex]$y$[/tex] goes to [tex]$\square$[/tex] as [tex]$x \rightarrow \infty$[/tex].
- [tex][tex]$y$[/tex][/tex] goes to [tex]$\square$[/tex] as [tex]$x \rightarrow -\infty$[/tex].

Sagot :

GinnyAnsweridn
Certainly! Let's solve the given problem step-by-step:

Given the function:

[tex]\[ y = 8 x^3 + \frac{6 x^4}{x^{-6}} - 7 x^5 + 1 \][/tex]

### Step (a): Simplify the function to identify the dominant term
First, we need to simplify the expression [tex]\(\frac{6 x^4}{x^{-6}}\)[/tex]:

[tex]\[ \frac{6 x^4}{x^{-6}} = 6 x^4 \cdot x^6 = 6 x^{4+6} = 6 x^{10} \][/tex]

Now, substitute this back into the original function:

[tex]\[ y = 8 x^3 + 6 x^{10} - 7 x^5 + 1 \][/tex]

To determine the power function that the polynomial resembles, we look for the term with the highest degree:

[tex]\[ 6 x^{10} \][/tex]

Therefore, the power function that this polynomial resembles is:

[tex]\[ 6 x^{10} \][/tex]

### Step (b): Describe the long-run behavior of the polynomial

To describe the long-run behavior, we need to analyze the behavior of the polynomial as [tex]\(x\)[/tex] approaches positive and negative infinity.

#### As [tex]\( x \rightarrow \infty \)[/tex]:

The highest degree term in the polynomial is [tex]\(6 x^{10}\)[/tex]. As [tex]\( x \)[/tex] becomes very large, this term will dominate all the others. Since [tex]\(6 x^{10}\)[/tex] grows without bound as [tex]\( x \rightarrow \infty \)[/tex], we have:

[tex]\[ y \rightarrow \infty \text{ as } x \rightarrow \infty \][/tex]

#### As [tex]\( x \rightarrow -\infty \)[/tex]:

Similarly, when [tex]\(x\)[/tex] becomes very large in the negative direction, the term [tex]\(6 x^{10}\)[/tex] also dominates all the others. Notably, since [tex]\(10\)[/tex] is an even power, [tex]\( x^{10} \)[/tex] will be positive even when [tex]\( x \)[/tex] is negative. Thus:

[tex]\[ y \rightarrow \infty \text{ as } x \rightarrow -\infty \][/tex]

Therefore, the long-run behavior of the polynomial is:

[tex]\[ y \rightarrow \infty \text{ as } x \rightarrow \infty \][/tex]
[tex]\[ y \rightarrow \infty \text{ as } x \rightarrow -\infty \][/tex]

### Final Answers:

(a) The power function the polynomial resembles is:

[tex]\[ 6 x^{10} \][/tex]

(b) The long-run behavior is:

[tex]\[ y \rightarrow \infty \text{ as } x \rightarrow \infty \][/tex]
[tex]\[ y \rightarrow \infty \text{ as } x \rightarrow -\infty \][/tex]
Thank you for using this platform to share and learn. Keep asking and answering. We appreciate every contribution you make. Thank you for trusting IDNLearn.com with your questions. Visit us again for clear, concise, and accurate answers.