The asymptotes to the considered function are given as:
- Option 1: [tex]x= -1[/tex] (vertical asymptote)
- Option 3: [tex]x= 3[/tex] (vertical asymptote)
- Option 5: [tex]y =0[/tex] (horizontal asymptote)
When do we get vertical asymptote for a function?
Suppose that we have the function f(x) such that it is continuous for all input values < a or > a and have got the values of f(x) going to infinity or -ve infinity (from either side of [tex]x = a[/tex]) as x goes near a , and being not defined at [tex]x = a[/tex], then at that point, there can be constructed a vertical line [tex]x = a[/tex] and it will be called as vertical asymptote for f(x) at [tex]x = a[/tex]
When do we get horizontal asymptote for a function?
The line [tex]y = a[/tex] is horizontal asymptote if the function f(x) tends to 'a' from upside of that line y = a, or from downside of that line.
For the given case, the line y = 0 is one of its horizontal asymptote.
If we make two straight lines at x = -1, and x = 3, we get two lines to which the graph of the function is going arbitrarily close, and going to +ve or -ve infinity.
Thus, they are its vertical asymptotes.
Therefore, the asymptotes to the considered function are given as:
- Option 1: [tex]x= -1[/tex] (vertical asymptote)
- Option 3: [tex]x= 3[/tex] (vertical asymptote)
- Option 5: [tex]y =0[/tex] (horizontal asymptote)
Learn more about asymptotes here:
https://brainly.com/question/7327714
