- I - ) Let r(x) : 12 + 4x + 3 a) Describe the long-run behavior or r(x), and give any horizontal asymptotes of r(x). Enter NONE in the blanks provided if there are no horizontal asymptotes. OA. As z goes to both positive and negative infinity, r(x) goes to 1 B. As a goes to both positive and negative infinity, r(x) goes to positive infinity OC. As a goes to both positive and negative infinity, r(x) goes to 0 D. As a goes to both positive and negative infinity, r(x) goes to negative infinity OE. As z goes to positive infinity, r(x) goes to positive infinity, and as a goes to negative infinity, r(x) goes to negative infinity b) What are the zeros of r(x)? Enter NONE in any remaining blanks. Determine whether r(x) has vertical asymptotes. List them. Enter NONE in any remaining blanks. ? d) Does r(x) have a hole in its graph? If so, find the coordinates of the hole. Otherwise, enter NONE in the blanks provided.

- I - ) Let r(x) : 12 + 4x + 3 a) Describe the long-run behavior or r(x), and give any horizontal asymptotes of r(x). Enter NONE in the blanks provided if there are no horizontal asymptotes. OA. As z goes to both positive and negative infinity, r(x) goes to 1 B. As a goes to both positive and negative infinity, r(x) goes to positive infinity OC. As a goes to both positive and negative infinity, r(x) goes to 0 D. As a goes to both positive and negative infinity, r(x) goes to negative infinity OE. As z goes to positive infinity, r(x) goes to positive infinity, and as a goes to negative infinity, r(x) goes to negative infinity b) What are the zeros of r(x)? Enter NONE in any remaining blanks. Determine whether r(x) has vertical asymptotes. List them. Enter NONE in any remaining blanks. ? d) Does r(x) have a hole in its graph? If so, find the coordinates of the hole. Otherwise, enter NONE in the blanks provided.

Algebra and Trigonometry (6th Edition)

6th Edition

ISBN:9780134463216

Author:Robert F. Blitzer

Publisher:Robert F. Blitzer

ChapterP: Prerequisites: Fundamental Concepts Of Algebra

Section: Chapter Questions

Problem 1MCCP: In Exercises 1-25, simplify the given expression or perform the indicated operation (and simplify,...

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Question

- I -
) Let r(x) :
12 + 4x + 3
a) Describe the long-run behavior or r(x), and give any horizontal asymptotes of r(x). Enter NONE in the blanks provided if there are no horizontal asymptotes.
OA. As z goes to both positive and negative infinity, r(x) goes to 1
B. As a goes to both positive and negative infinity, r(x) goes to positive infinity
OC. As a goes to both positive and negative infinity, r(x) goes to 0
D. As a goes to both positive and negative infinity, r(x) goes to negative infinity
OE. As z goes to positive infinity, r(x) goes to positive infinity, and as a goes to negative infinity, r(x) goes to negative infinity
b) What are the zeros of r(x)? Enter NONE in any remaining blanks.
Determine whether r(x) has vertical asymptotes. List them. Enter NONE in any remaining blanks.
?
d) Does r(x) have a hole in its graph? If so, find the coordinates of the hole. Otherwise, enter NONE in the blanks provided.

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