Location: ** Hill 705**

Date & time: Monday, 24 October 2016 at 5:00PM - 5:11PM

Saharon Shelah, The Hebrew University of Jerusalem and Rutgers University: THIS IS THE LAST TALK IN THE SERIES.......This is based on paper [1077] We like to find a logic stronger than first order such that: on the one hand it satisfies the 0-1 law, e.g. for the random graph \(cG_{n,1~2}\) and on the other hand there is a formula \(varphi(x)\) such that for no first order \(psi(x)\) do we have: for every random enough \(G_{n,1~2}\) are the formulas \(varphi(x),psi(x)\) equivalent in it. We do it adding a quantifier on graph \(bQ_{old t}\), i.e. have a class of finite graphs closed under isomorphisms and being able to say that if \((varphi_0(x,ar c),varphi_1(x_0,x_1,ar c))\) a pair of formulas with parameter define a graph in \(cG_{n,1~2}\), hen , we can form a formula \(psi(ar y)\) such \(psi(ar c)\) says that the graph belongs \(K_{ar{old t}}\). Presently we do it for random enough \(ar{old t}\). In later versions we shall do it for \(K_{old t} = {H:H\) a non-2-weak graph with number of cliques with \(log log(|H|)\) nodes\(}\) is one of \(1,2,ldots lfloor sqrt{loglog(|H|)} floor\) modulo \(lfloor loglog(|H|) floor\).

Directions: map and driving directions. If you need information on public transportation, you may want to check the New Jersey Transit page.

*Unfortunately, cancellations do occur from time to time. Feel free to call our department: 848-445-6969 before embarking on your journey. Thank you.*

Department of Mathematics
Rutgers University Hill Center - Busch Campus 110 Frelinghuysen Road Piscataway, NJ 08854-8019, USA Phone: +1.848.445.2390 Fax: +1.732.445.5530 |