Number theoretic density and logical limit laws
Author(s)
Bibliographic Information
Number theoretic density and logical limit laws
(Mathematical surveys and monographs, v. 86)
American Mathematical Society, c2001
Available at / 43 libraries
-
Hokkaido University, Library, Graduate School of Science, Faculty of Science and School of Science研究室
511.62/B9442070525095
-
No Libraries matched.
- Remove all filters.
Note
Includes bibliographical references (p. 281-283) and indexes
Description and Table of Contents
Description
This book shows how a study of generating series (power series in the additive case and Dirichlet series in the multiplicative case), combined with structure theorems for the finite models of a sentence, lead to general and powerful results on limit laws, including $0 - 1$ laws. The book is unique in its approach to giving a combined treatment of topics from additive as well as from multiplicative number theory, in the setting of abstract number systems, emphasizing the remarkable parallels in the two subjects.Much evidence is collected to support the thesis that local results in additive systems lift to global results in multiplicative systems. All necessary material is given to understand thoroughly the method of Compton for proving logical limit laws, including a full treatment of Ehrenfeucht-Fraisse games, the Feferman-Vaught Theorem, and Skolem's quantifier elimination for finite Boolean algebras. An intriguing aspect of the book is to see so many interesting tools from elementary mathematics pull together to answer the question: What is the probability that a randomly chosen structure has a given property? Prerequisites are undergraduate analysis and some exposure to abstract systems.
Table of Contents
Additive number systems: Background from analysis Counting functions, fundamental identities Density and partition sets The case $\rho = 1$ The case $0 < \rho < 1$ Monadic second-order limit laws Multiplicative number systems: Background from analysis Counting functions and fundamental identities Density and partition sets The case $\alpha = 0$ The case $0 < \alpha < \infty$ First-order limit laws Appendix A. Formal power series Appendix B. Refined counting Appendix C. Consequences of $\delta(\mathsf P) = 0$ Appendix D. On the monotonicity of $a(n)$ when $p(n) \leq 1$ Appendix E. Results of Woods Bibliography Symbol index Subject index.
by "Nielsen BookData"