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#1 2008-02-26 08:03:29
- clooneyisagenius
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- Registered: 2007-03-25
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Simple question on using contrapositive as a proof.
Question from book:
"Prove that if F is continuous on [a,b] and differentiable on (a,b) and if F'(x) is not zero for any x strictly between a and b, then
My question:
So I know that I have to prove this using the contrapositive. I also know that for (if p then q) the contrapositive is (if not q then not p). So for my question I want to assume if F(b)=f(a) then ____________________________.
I don't know what to fill the ______ in with though?
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#2 2008-02-26 10:46:21
- JaneFairfax
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- Registered: 2007-02-23
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Re: Simple question on using contrapositive as a proof.
The questionn itself is the contrapositive of Rolles theorem so if you take its contrapositive, you should get Rolles theorem. Thats just about it, I think.
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#3 2008-02-26 12:52:06
- clooneyisagenius
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- Registered: 2007-03-25
- Posts: 56
Re: Simple question on using contrapositive as a proof.
Really? I guess I'm not seeing it.
Rolle's says, "Let f be a function that is continuous on [a,b] and differentiable on (a,b) AND for which f(a)=f(b)=0. There exists at least one c, a<c<b for which f'(c)=0."
So i see that I'm assuming f(a)=f(b) but they dont necessarily have to equal 0?
This proof is killing me.
I also kind of feel like using the Intermediate Value Theorem... but that's not in this section of the book.
( what is: Generalized Mean Value Theorem, Cauchy's Remainder Theorem, L'Hospital's Rule
and Darboux's Theorem.)
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#4 2008-02-26 13:42:34
- clooneyisagenius
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- Registered: 2007-03-25
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Re: Simple question on using contrapositive as a proof.
Could I possible say...
The mean value theorem states "Given a function f that is differentiable at all points strictly between a and x and continuous at all points on the closed interval from a to x, there
exists a real number c strictly between a and x such that [f(x)-f(a)]/x-a = f'(c)."
Thus we can prove the question by the contrapositive. Assume f(b)=f(a) and show that there must be an f'(x)=0. By the mean value theorem we have:
[f(b)-f(a)]/b-a = 0/(b-a) = 0 = f'(x) for x strictly between a and b.
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#5 2008-02-26 16:04:48
- Ricky
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Re: Simple question on using contrapositive as a proof.
Historically, you shouldn't be using either.
Rolle's theorem typically isn't stated that f(a) = f(b) = 0, but f(a) = f(b)
"In the real world, this would be a problem. But in mathematics, we can just define a place where this problem doesn't exist. So we'll go ahead and do that now..."
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#6 2008-02-27 02:42:53
- JaneFairfax
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- Registered: 2007-02-23
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Re: Simple question on using contrapositive as a proof.
Rolle's says, "Let f be a function that is continuous on [a,b] and differentiable on (a,b) AND for which f(a)=f(b)=0. There exists at least one c, a<c<b for which f'(c)=0."
In that case, use
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