Just a theory question on odd and even functions

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
19 replies · 3K views
flyingpig
Messages
2,574
Reaction score
1

Homework Statement



If a function is even or odd, what can one conclude about its inverse?

The Attempt at a Solution



Let f(x) = f(-x)

f-1(x) = f-1(-x)

Let g(x) = -g(x)

g-1(x) = -g-1(x)
 
Physics news on Phys.org
flyingpig said:

Homework Statement



If a function is even or odd, what can one conclude about its inverse?




The Attempt at a Solution



Let f(x) = f(-x)

f-1(x) = f-1(-x)

Let g(x) = -g(x)

g-1(x) = -g-1(x)

Let f(x) = x2, which is an even function. What can you conclude about its inverse?
 
[tex]\sqrt{x} \neq \sqrt{-x}[/tex]...

I am guessing in general, you can't make any conclusion at all can you lol?
 
Mark44 said:
Are you saying that if f(x) = x2, f-1(x) = [itex]\sqrt{x}[/itex]?

Plus or minus root x
 
Some questions you should be asking yourself are:
Can an even function have an inverse?
Can an odd function have an inverse?
What sorts of functions have inverses?
 
Well okay, odd functions can have an inverse, f(x) = x, f(y) = y

f(-x) = -f(x) = -x

f(-y) = -f(y) = -y

-y = -x

y = x
 
What about, say, y = x3?

Does it have an inverse? Is x3 its own inverse, like the very simple function you just picked?

If this function has an inverse, is the inverse even, odd, neither?
 
It is neither...

So the conclusion is that there are no relationships between odd and even functions and its inverse.
 
flyingpig said:
It is neither...

So the conclusion is that there are no relationships between odd and even functions and its inverse.
That's not the right conclusion. You can say this about even functions, because even functions aren't one-to-one, and don't have inverses. An odd function [STRIKE]does[/STRIKE] will have an inverse [STRIKE]because[/STRIKE] if it is one-to-one.

Limiting your focus to odd functions, can you say something about whether their inverses are even or odd?
 
Last edited:
No...y = x3. That example you showed me. y = x1/3 is neither an even nor odd function.
 
One second, I graphed y = x1/3 on Wolframalpha and it didn't look like it was "anti-symmetric" to me.

I graphed it on Maple and I can only see it on the first quadrant.
 
F(x) = x1/3

F(-x) = -x1/3

F(-x) = -F(x)

So its inverse is also odd?

But doesn't F(-x) = -F(x) for x1/3 also suggest x1/3 is symmetric about the x-axis and therefore not a function?
 
flyingpig said:
F(x) = x1/3

F(-x) = -x1/3

F(-x) = -F(x)

So its inverse is also odd?

But doesn't F(-x) = -F(x) for x1/3 also suggest x1/3 is symmetric about the x-axis and therefore not a function?

Not so. Rather, F(x)=F(-x) implies symmetry about the y-axis, and so if F(x)=F(-x), then F-1(x) is symmetric about the x-axis. But F(-x)=-F(x) only implies symmetry about the origin.
 
Yes, that's true- [itex]y= x^{1/3}[/itex] as Mark44 said.

In fact for any odd function, if y= f(x) then f(-x)= -f(x)= -y. That is, if (x, y) is a pair in the function (functions can always be thought of as a set of ordered pairs), then (-x, -y) is also a pair. Now what happens if you reverse the order to (y, x) (getting the set of pairs corresponding to [itex]f^{-1}[/itex])?