Dragonfall
New member
- Joined
- Apr 25, 2008
- Messages
- 1
First some definitions:
Given similarity structures N and M, we say that "M is elementarily equivalent to N" if for any sentence S in the lanauge of M and N, "M models S iff N models S".
An "elementary embedding" f:|N| -> |M| between the underlying sets of N and M is such that for any formula F(x) and some tuple a of M, "M models F(a) implies N models F(f(a))".
So, assume that M is elementarily equivalent to N, prove that there is an ultrafilter U=(I,U) and an elementary embedding g: N->M^U, where M^U is an ultrapower.
I don't know how to do this. I don't even fully comprehend what it says.
Given similarity structures N and M, we say that "M is elementarily equivalent to N" if for any sentence S in the lanauge of M and N, "M models S iff N models S".
An "elementary embedding" f:|N| -> |M| between the underlying sets of N and M is such that for any formula F(x) and some tuple a of M, "M models F(a) implies N models F(f(a))".
So, assume that M is elementarily equivalent to N, prove that there is an ultrafilter U=(I,U) and an elementary embedding g: N->M^U, where M^U is an ultrapower.
I don't know how to do this. I don't even fully comprehend what it says.