Bonus questions help for Real Analysis.

dchilow · 2008-02-17 12:56:14

1) Prove that every decimal expansion represents a real number.

2) Let A and B be nonempty sets that are both bounded above. Define a set C by C={a+b:a∈A,b∈B}. Prove that C is bounded above and supC=supA+supB.

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Prove that the supremum and infimum of the open interval (a,b) are b and a, respectively.

Don't even know how to start.

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Prove that the set S={x∈R: (x^2)-25x>0} is unbounded.

I know that a set S is unbounded if for each number M there is a point x∈S such that |x|>M.

I just don't know what to do from here. I am not sure if I am supposed to prove by contradiction or directly. I tried to do it by contradiction, but I don't know how to set it up. Please help me on this, thanks.

Ricky · 2008-02-17 13:13:51

dchilow, if you have multiple related questions, please post them in the same topic.

1. Think about what a decimal representation really means. You should be able to construct sequence of rational numbers which approaches your "decimal representation" which is Cauchy.

2. If you know what a diameter is, use it. If not, it may be more natural to assume that sup C > sup A + sup B, and then assume sup C < sup A + sup B, reaching a contradiction in each case. Just remember, "sup" means within arbitrary distance (epsilon).

3. This one should be really straightforward. First show that there is no number less than a and greater than b in (a, b). Now show that any number in (a, b) falls in between a and b. Writing out (a, b) = {x in R : a < x < b} may help.

4. Factor it. x^2 - 25x = x(x - 25). When is this greater than 0?

Math Is Fun Forum

#1 2008-02-17 12:56:14

Bonus questions help for Real Analysis.

#2 2008-02-17 13:13:51

Re: Bonus questions help for Real Analysis.

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