Set , Help

Stanley_Marsh · 2007-04-23 19:46:08

To question II , I did this .

Check it please.

Last edited by Stanley_Marsh (2007-04-23 20:06:02)

JaneFairfax · 2007-04-23 21:59:05

A partial ordering has to be (i) reflexive (ii) antisymmetric and (iii) transitive.

Therefore ~ is a partial order on A.

Also, since a ≤ b or b ≤ a for any negative real numbers a,b, we have (a,a)~(b,b) or (b,b)~(a,a) for any (a,a),(b,b) ∈ S, i.e. ~ is linear (total) on S.

Last edited by JaneFairfax (2007-04-23 22:38:12)

JaneFairfax · 2007-04-23 22:26:09

Cant think of another one, really.

Last edited by JaneFairfax (2007-04-24 00:11:16)

JaneFairfax · 2007-04-24 00:03:01

Okay, I found another one. Try

Then ~ is also linear on U (easily checked).

To prove its a maximal linearly ordered subset, consider any element (x,y) not in U.

Hence adding another element to U will make U no longer linearly ordered, i.e. U is a maximal linearly ordered set.

Last edited by JaneFairfax (2007-04-24 02:04:23)

JaneFairfax · 2007-04-24 02:15:25

Note that

also works.

In fact, it turns out that there are infinitely many maximal linearly ordered subsets containing S! Given any real number c ≥ 0, the set

is also a maximal linearly ordered subset containing S.

Last edited by JaneFairfax (2007-04-24 02:57:37)

Stanley_Marsh · 2007-04-24 09:21:36

I don't really understand what is maxiaml linearly ordered subsets , and the way to find it.
It says I need to use Hausdorff Maximality Principle , I have no idea.

Last edited by Stanley_Marsh (2007-04-24 09:22:39)

JaneFairfax · 2007-04-24 09:59:56

The Hausdorff Maximality Principle only tells you that a maximal linearly ordered subset must exist. It doesnt tell you how to find such a subset. You must find it yourself.

A maximal linearly ordered set is a linearly ordered set that is not a proper subset of any other linearly ordered set. In our example, S is linearly ordered set, but it is not maximal because it is a proper subset of T. On the other hand, T is maximal. For, suppose T is a proper subset of V. Then V contains an element not in T, i.e. an element (a,b) such that a ≠ b. If you set c = (a+b)⁄2, then (c,c) and (a,b) would be elements in V that are not comparable that is to say, V is not linearly ordered. Hence T is maximal, since it is not a proper subset of any linearly ordered set.

For the other maximal sets Ive found, it will help a great deal if you can visualize them in your head. That was what I did most of the time I rely heavily on intuitive visualizing when Im proving something.

Last edited by JaneFairfax (2007-04-24 10:00:50)

Stanley_Marsh · 2007-04-25 02:48:41

About question 2 , if it asks what are the equivalent classes .
Then , it's A={m-n=0(mod 3)} , B={s-t=1 (mod 3) }, C={a-b = 2 (mod 3) }, Since the union of A,B,C = Z , right???

Last edited by Stanley_Marsh (2007-04-25 02:50:18)

JaneFairfax · 2007-04-25 04:44:49

Yes, thats correct. The equivalence classes are

Stanley_Marsh · 2007-04-25 11:36:19

Thx ,Jane

Last edited by Stanley_Marsh (2007-04-25 11:37:31)

Math Is Fun Forum

#1 2007-04-23 19:46:08

Set , Help

#2 2007-04-23 21:59:05

Re: Set , Help

#3 2007-04-23 22:26:09

Re: Set , Help

#4 2007-04-24 00:03:01

Re: Set , Help

#5 2007-04-24 02:15:25

Re: Set , Help

#6 2007-04-24 09:21:36

Re: Set , Help

#7 2007-04-24 09:59:56

Re: Set , Help

#8 2007-04-25 02:48:41

Re: Set , Help

#9 2007-04-25 04:44:49

Re: Set , Help

#10 2007-04-25 11:36:19

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