Page 87 of Introduction to Set Theory

AI Thread Summary
Page 87 of "Introduction to Set Theory" by Karel Hrbacek and Thomas Jech is missing from an electronic version, replaced by page 105, which disrupts the understanding of "Complete Linear Orderings." The user seeks a scanned copy or alternative access to this crucial page. They mention obtaining the book from a website offering a .DJVU format but cannot recall the specific site. The discussion highlights the importance of this page for foundational mathematics. Assistance in locating the missing content is requested.
sujoykroy
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Page 87 of "Introduction to Set Theory"

Sorry, if this post doesn't fit into this forum, but i had no other choice.

I got a electronic version of "Introduction to Set Theory" by "Karel Hrbacek" and "Thomas Jech". It is a magnificent book which opens up every window of understandings of fundamental mathematics.

I was reading the book thoroughly until i completed page 86. The next page, page 87 is missing, it is replaced by page number 105. This page 87 is very important as it covers basic understanding of "Complete Linear Orderings". Can anybody provide a scanned/else copy of this page?
 
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Where'd you get the book that it has a missing page?
 


CRGreathouse said:
Where'd you get the book that it has a missing page?

I can't remember the website. It is a .DJVU version. I was searching for a good book on set theory and landed up with it.
 

Thread 'Formal derivation of statement from Peano Arithmetic system'

I was reading a Bachelor thesis on Peano Arithmetic (PA). PA has the following axioms (not including the induction schema): $$\begin{align} & (A1) ~~~~ \forall x \neg (x + 1 = 0) \nonumber \\ & (A2) ~~~~ \forall xy (x + 1 =y + 1 \to x = y) \nonumber \\ & (A3) ~~~~ \forall x (x + 0 = x) \nonumber \\ & (A4) ~~~~ \forall xy (x + (y +1) = (x + y ) + 1) \nonumber \\ & (A5) ~~~~ \forall x (x \cdot 0 = 0) \nonumber \\ & (A6) ~~~~ \forall xy (x \cdot (y + 1) = (x \cdot y) + x) \nonumber...
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