If F a b is Continuous and One to one Then F is Strictly Monotone
Connection between Monotone and One-to-one Functions
- Thread starter hadron23
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I was curious about the following point. I know that if a function is monotone, then it is one to one (meaning for x1 != x2, then f(x1) != f(x2) ).
But what about the converse? I can't seem to think of a counter-example.
Answers and Replies
[tex]f(x) = \left\{ \begin{array}{ll}
1/x & x \neq 0 \\
0 & x = 0
\end{array} \right.[/tex]
It's injective, but not monotone (because it's not continuous ;) ).
So, is that to say, that any injective, continuous function is strictly monotone?
Thanks!So, is that to say, that any injective, continuous function is strictly monotone?
If f is bijective and monotone with both its range and domain being a closed and bounded interval...then what can we say about the continuity of f ?
If f is bijective and monotone with both its range and domain being a closed and bounded interval...then what can we say about the continuity of f ?
This thread is 2 years old. I guess the OP already found it by now.
This thread is 2 years old. I guess the OP already found it by now.
Hello, Micromass
Thanks for your reply.
If f is injective and continuous then it is strictly monotone...that is clear
My question is : If f is montone then is f continuous ?
[tex]f:\mathbb{R}\rightarrow\mathbb{R}:x\rightarrow \left\{\begin{array}{c} x~\text{if}~x\leq 0\\ x+1~\text{if}~x>0\\ \end{array}\right.[/tex]
This is injective and strictly increasing, but not continuous. If f is required to be surjective however, then it will be continuous.
Hint: next time you may get a faster reply if you just start a new topic about it! 
No, there are a lot of counterexamples, for example[tex]f:\mathbb{R}\rightarrow\mathbb{R}:x\rightarrow \left\{\begin{array}{c} x~\text{if}~x\leq 0\\ x+1~\text{if}~x>0\\ \end{array}\right.[/tex]
This is injective and strictly increasing, but not continuous. If f is required to be surjective however, then it will be continuous.
Hint: next time you may get a faster reply if you just start a new topic about it!
Thanks for your help with an example. I appreciate it.
Thanks for yesterday's reply too.
Regards,
Bhatia
If however f : A --> B is injective and continuous, A and B are totally ordered topological spaces and A is connected, then f will be monotonic. The key here is that R itself in the standard topology is connected, and so continuous injective functions f : R --> R will be monotonic.
A function which is injective and continuous need not be monotonic. E.g. f : R-{0} --> R defined by f(x) = 1/x is continuous and injective, but not monotonic.If however f : A --> B is injective and continuous, A and B are totally ordered topological spaces and A is connected, then f will be monotonic. The key here is that R itself in the standard topology is connected, and so continuous injective functions f : R --> R will be monotonic.
Thanks for the insight. I get what you mean now.
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Source: https://www.physicsforums.com/threads/connection-between-monotone-and-one-to-one-functions.342654/
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