Why this function has an inverse function

Click For Summary

Homework Help Overview

The discussion revolves around understanding why the function fr(x) = 1.5/sin(x) has an inverse function. Participants are exploring the concepts of domain and range, particularly in relation to the function's behavior and characteristics.

Discussion Character

  • Conceptual clarification, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the one-to-one nature of the function and the intervals where it is strictly increasing or decreasing. There are inquiries about determining the domain and range for the inverse function, as well as the implications of the function's graph.

Discussion Status

The discussion is active, with participants providing insights into the function's characteristics and suggesting the use of graphs to better understand the one-to-one nature. Some have offered guidance on selecting appropriate intervals for analysis, while others are seeking further clarification on how to proceed.

Contextual Notes

There are mentions of specific intervals for the domain and range, with some participants questioning the initial assumptions about the function's domain. The need for a more comprehensive graph to analyze the function's behavior is highlighted.

Tevion
Messages
21
Reaction score
0
Ok, i need to explain why this function has an inverse function. fr^-1

[math]fr(x) = 1.5/sinx[/math]

and state its image set & domain.

Is that (0,1/2Pi]

Thanks :)
 
Physics news on Phys.org


You realize that 1.5/sin(x) = 1.5csc(x), right?

On what interval(s) is 1.5 csc(x) one-to-one? There are a bunch, so pick one. If you haven't already graphed y = 1.5 csc(x), you should do that now, since it will give you a good start on determining domain and range for the inverse.
 


here we are plotted:

so how do we get the image set and domain
 

Attachments

  • iii.jpg
    iii.jpg
    10.5 KB · Views: 440


how does this explain that is has an inverse function
 


You should increase the size of the interval to, say, -pi to pi. You're getting only a small part of the graph of y = 1.5 cscx.

When you find an interval for which the graph is one-to-one, then the domain for your inverse will be the range of y = 1.5 csc x, and the range for the inverse will be the domain for y = 1.5 csc x.
 


Tevion said:
how does this explain that is has an inverse function
If you have a function that is strictly increasing or strictly decreasing, it is one-to-one. Every one-to-one function has an inverse.

What you're trying to do is to find an interval for which y = 1.5 csc(x) is one-to-one, and on which there is an inverse for this function.
 


ok Thanks - so how do i go about do that? basically from my attachment, i need to explain why fr has fr^-1, stating the domain and image set a hand would be great with it please
 


I'll say it again:
If you have a function that is strictly increasing or strictly decreasing, it is one-to-one. Every one-to-one function has an inverse.

What you're trying to do is to find an interval for which y = 1.5 csc(x) is one-to-one, and on which there is an inverse for this function.
 


i hear what you're saying bud, but any advice how to take that further? I don't have a clue :(
 
  • #10


You have a graph of y = 1.5 csc x. See post #5 and what I said about using a larger interval. Can you look at a graph and tell whether a function is one-to-one, either overall or over some part of its domain?
 
  • #11


You were told in your problem that the domain of fr is [itex](0, \pi/2][/itex]. Do you see why 0 is not included? For x arbitrarily close to 0, fr(x) is arbitrarily large. What is [itex]fr(\pi/2)[/itex]? What is the range of fr?

Taking the inverse of a function "swaps" domain and range.
 
  • #12


the range is the function is 0 < x < 1/2pi

Thanks for helping
 
  • #13


The principal domain of fr(x) = 1.5*csc(x) is [-pi/2, 0) U (0, pi/2]. The range of this function is (-infinity, -1.5) U (1.5, infinity). In the original post of this thread, you guessed that the domain of fr was (0, pi/2], but the domain is actually quite a bit larger.
 
  • #14


so do we make it?

for the inverse the image set (range)

(0,1/2pi]

for the domain

(1.5, infinity)
 
Last edited:
  • #15


Yes, but those domain/range sets are only half of the story. The inverse function is defined at, for example, -2.

Did you ever get a better graph of y = 1.5csc(x)? The one you had in post #3 was too limited.
 

Similar threads

State the domain and range for a given function
  • · Replies 7 ·
Replies
7
Views
2K
Composite and Inverse Functions Problem
  • · Replies 3 ·
Replies
3
Views
2K
To find the range of a given ##\sin## function
  • · Replies 15 ·
Replies
15
Views
2K
Domain and Range of a Function and Its Inverse- Polynomials
  • · Replies 9 ·
Replies
9
Views
2K
Range of a function involving trigonometric functions
  • · Replies 11 ·
Replies
11
Views
3K
If the inverse image of the image of a set via some function is equal....
  • · Replies 10 ·
Replies
10
Views
2K
Find the function that matches the equation
  • · Replies 9 ·
Replies
9
Views
2K
Finding the inverse of ##y=2^{x}##
  • · Replies 19 ·
Replies
19
Views
3K
Is ##f(x)=2^{x}-1## considered an exponential function?
  • · Replies 12 ·
Replies
12
Views
3K
Shouldn't f(t) = V have inverse f^{-1} (V) not f^{-1} (t)?
  • · Replies 7 ·
Replies
7
Views
3K