Nildempotency Structure of Partial One-One Contraction 〖CI〗_n Transformation Semigroups
- February 24, 2021
- Posted by: RSIS
- Categories: IJRSI, Mathematics
International Journal of Research and Scientific Innovation (IJRSI) | Volume VIII, Issue I, January 2021 | ISSN 2321–2705
Nildempotency Structure of Partial One-One Contraction 〖CI〗_n Transformation Semigroups
S.A. Akinwunmi1, M.M. Mogbonju2, A.O. Adeniji3, D.O. Oyewola4, G. Yakubu5, G.R. Ibrahim6, and M.O. Fatai7
1, 4, & 5Department of Mathematics and Computer Science, Faculty of Science, Federal University of Kashere,
Gombe, Nigeria.
2 & 3Department of Mathematics, Faculty of Physical Science, University of Abuja, Abuja, Nigeria.
6Department of Statistics and Mathematical Science, Faculty of Science, Kwara State University Malete, Kwara, Nigeria
7Department of Mathematics, Faculty of Sciences, Federal University Oye-Ekiti , Ekiti, Nigeria.
Abstract: The principal objects of interest in the current research are the finite sets and the contraction 〖CI〗_n finite transformation semigroups and the characterization of nildempotent elements in 〖CI〗_n. Let M_n be a finite set, say M_n={m_1,m_2,…m_n}, where m_i is a non-negative integer then α∈〖CI〗_n for which for all q,k∈M_n, |αq-αk|≤|q-k| is a contraction mapping for all q,k∈D(α), provided that any element in D(α) is not assumed to be mapped to empty as a contraction. We show that α∈〖CI〗_n is nildempotent if there exist some minimal (nildempotent degree) m,k∈〖CI〗_n such that α^m=∅⟹α^k=α where |〖CI〗_n |=1 then α(S)=1=n(V)=∅ implies |I(α) |⊆|D(α)| where |〖NDCI〗_n |=1 for each n∈N. Then |〖ECI〗_n |=(█(2^k@(k-n)+1)) , n,k∈N for 1≥k≥n.
Key-phrases: contraction, nildempotency, degree, inverse, semigroup, characterization
Mathematics Subject Classification: 16W22, 10X2, 10X3, 19CLG1, 19CLG2, 06F05 & 10CLM
INTRODUCTION/ BACKGROUND
In a group theory, only the identity element is idempotent but the case is not similar in a semigroup theory in general there may be many idempotent transformation (element), in fact all the transformation may be idempotent which was referred to as band transformation semigroup.