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#1 2010-10-23 12:29:12
- xsw001
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- Registered: 2010-10-23
- Posts: 7
prove that f(a) < f(c) < f(b)
Let f:[a,b]->R be continuous and one-to-one such that f(a)<f(b).
Let a<c<b. Prove that f(a)<f(c)<f(b)
My first instinct is to apply intermediate value theorem. Let me know whether my proof makes sense or not.
Proof:
Since f: f:[a,b]->R is continuous and one-to-one.
Therefore f is strictly increasing function.
Suppose a<c<b
According to Intermediate Value Theorem
There exists f(c) such that f(a)<f(c)<f(b)
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#2 2010-10-24 04:03:58
- Bob
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- Registered: 2010-06-20
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Re: prove that f(a) < f(c) < f(b)
Hi xsw001,
If you're happy that you've proved it's an increasing function then for all x in the range f(a) < f(x) and f(x) < f(b) because that's what increasing means so put x = c and it's done.
Or assume, to the contary that a<c<b but f(b) < f(c)
Consider the interval [c,b]. f(c) < f(b) makes a contradiction. Similarly, if f(c) < f(a).
Does that make sense? I hate these 'proofs' where common sense tells you it's obvious. I feel like the proof is just so many grains of sand that are slipping through my fingers.
Bob
Children are not defined by school ...........The Fonz
You cannot teach a man anything; you can only help him find it within himself..........Galileo Galilei
Sometimes I deliberately make mistakes, just to test you! …………….Bob 
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#3 2010-10-24 05:01:36
- xsw001
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- Registered: 2010-10-23
- Posts: 7
Re: prove that f(a) < f(c) < f(b)
I know, I agree with you Bob. It is so obvious for any given continuous injective function, it is strictly monotone, either strictly increasing or decreasing, with the given domain [a,b], then it has to be strictly increasing instead of strictly decreasing, or else the domain would have stated [b,a], isn't it?
Here is the sketch of the proof.
Assume by contradiction that a<c<b, and case 1) f(a)<f(b)<f(c) or case 2) f(c)<f(a)<f(b)
Since the function is one-to-one, therefore the graph of the continuous function can't oscillate, so it is strictly monotone, either strictly increasing or decresing.
case 1) if a<c<b but f(a)<f(b)<f(c)
then f(a)<f(b)<f(c) => a<b<c if it is strictly increasing which is a contradiction.
also f(a)<f(b)<f(c) => c<b<a if it is striclty decreasing which is also a contradiction.
case 2) if if a<c<b but f(c)<f(a)<f(b)
then f(c)<f(a)<f(b) => c<a<b if it is strictly increasing which is a contradiction.
also f(c)<f(a)<f(b) => b<a<c if it is striclty decreasing which is also a contradiction.
Hence if a<c<b, then f(a)<f(c)<f(b), and the function is strictly increasing.
Is it about right?
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#4 2010-10-25 07:48:13
- Bob
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- Registered: 2010-06-20
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Re: prove that f(a) < f(c) < f(b)
hi xsw001
Looks good to me but , I confess, it's years since I did this sort of thing. Was it you who posted a request to find functions with given domains and ranges? I put one idea back but haven't thought about the other two since.
Bob
Children are not defined by school ...........The Fonz
You cannot teach a man anything; you can only help him find it within himself..........Galileo Galilei
Sometimes I deliberately make mistakes, just to test you! …………….Bob
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