Equivalence of 8 properties in Real Analysis

In summary, the conversation discusses the properties of Dedekind completeness, LUB property, line connectedness, Heine-Borel theorem, archimedean property, cauchy sequence, nested interval property, Bolzano-Wierstrass theorem, and monotonic sequence property. The speaker has drawn a diagram to connect these properties but is struggling to prove all the implications. They are advised to check a real analysis book for existing proofs and then determine what else needs to be done.
  • #1
itspixiejem
6
0
Please help me prove that the following properties are equivalent Nested Interval Property
Bolzano-Wierstrass theorem
Monotonic sequence property
LUB property
Heine-Borel theorem
archimedean property and cauchy sequence
line connectedness
dedekind completeness

Please help! Thanks!
 
Physics news on Phys.org
  • #2
What have you tried already?
 
  • #3
I have already drawn the diagram to connect these properties.

Dedekind completeness ---> LUB property --> line connectedness ---> Dedekind completeness

LUB property --> Heine-Borel Theorem --> Nested Interval property

Nested interval --> Bolzano Weierstrass --> Cauchy sequence

Bolzano-Weierstrass --> Monotonic Sequence --> LUB Property --> Monotonic Sequence

LUB Property --> Archimedian property+Cauchy sequences --> Monotonic Sequence

Just connect them all to make one diagram. I do not know how to attach picture here.

I am still trying to prove some implications... =(
 
  • #4
But you have all the implications already!
What do you think you're missing?
 
  • #5
I need to prove all those implications. =(
 
  • #6
But you already did!

What implication do you think you miss?
 
  • #7
micromass, where did he show any proof at all?

itspixiejem, those are all difficult proofs. Some are given in texts- for example most Calculus texts show that LUB implies monotone convergence. And it is not to difficult to show that monotone convergence implies that every bounded sequence has a convergent subsequence (Bolzano-Weierstrasse). And from that, you can show that every Cauchy sequence converges by showing that a Cauchy sequence must be bounded.
 
  • #8
I haven't proven any of those applications yet. I've just drawn the diagram.
 
  • #9
Thanks HallsofIvy. I'll try to decipher what you've written. I think I still have to read more... By the way, I am a SHE... =))
 
  • #10
Oh, I'm so sorry! :frown: I thought the diagram meant what you already proved. :frown:

The best thing to do now is check your real analysis book to see which proofs they already have. This will fill in some gaps. Afterwards, we'll see what remains to be done...
 

1. What are the 8 properties in Real Analysis that are considered equivalent?

The 8 properties that are considered equivalent in Real Analysis are completeness, boundedness, monotonicity, continuity, differentiability, integrability, uniform continuity, and uniform convergence.

2. Why are these properties considered equivalent?

These properties are considered equivalent because they all involve the behavior and characteristics of functions and sequences in the real number system. They are all interconnected and can be derived from one another.

3. How are these properties used in Real Analysis?

These properties are used in Real Analysis to analyze and understand the behavior of functions and sequences in the real number system. They are essential in proving theorems and solving problems in calculus, differential equations, and other branches of mathematics.

4. Can you give an example of how these properties are applied in a real-world scenario?

One example is in economics, where the concept of boundedness is used to analyze the production possibilities of a company. A company's production is bounded by its resources and capabilities, and this can be represented by a function. The other properties, such as differentiability and integrability, can then be used to optimize the production and maximize profits.

5. Are there any other properties that are considered equivalent in Real Analysis?

Yes, there are other properties that are considered equivalent in Real Analysis, such as the inverse function theorem, the mean value theorem, and the intermediate value theorem. These properties are also interconnected and can be derived from the 8 properties mentioned earlier.

Similar threads

Calculus Looking for an English language calculus textbook for this syllabus
    • Science and Math Textbooks
Replies
3
Views
782
Ordering on the Set of Real Numbers .... Sohrab, Ex. 2.1(1)
    • Calculus and Beyond Homework Help
Replies
2
Views
1K
I On limit of convolution of function with a summability kernel
    • Topology and Analysis
Replies
2
Views
376
Courses Which version of Real Analysis to take?
    • STEM Academic Advising
Replies
11
Views
2K
Analysis Books for somewhat more advanced real analysis/metric spaces
    • Science and Math Textbooks
Replies
24
Views
3K
B How can hyperreal numbers make infinitesimals logically sound in calculus?
    • Calculus
Replies
24
Views
3K
I Supremum Property, Archimedean Property, Nested Intervals
    • Topology and Analysis
Replies
4
Views
3K
Proof: Every convergent sequence is Cauchy
    • Calculus and Beyond Homework Help
Replies
14
Views
4K
I Supremum Property (AoC) .... etc .... Another question/Issue
    • Topology and Analysis
Replies
2
Views
2K
Equivalent Metrics From Clopen Sets
    • Calculus and Beyond Homework Help
Replies
10
Views
2K

Hot Threads

Recent Insights

Back
Top