On distributions, partitions and derangements (with computer program)

On distributions, partitions and derangements (with computer program)

This thesis presents a detailed discussion of three important topics in combinatorial mathematics, namely, distributions, partitions and derangements. In the basic distribution model, there is a collection of objects that are distibuted to a group of possible recipients which are called boxes. The b...

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Main Authors: Jimenez, Maritess J., Gutierrez, Jeffrey John M.
Format: text
Language:English
Published: Animo Repository 1993
Subjects:
Partitions (Mathematics)
Set theory
Programming (Mathematics)
Functions
Online Access:https://animorepository.dlsu.edu.ph/etd_bachelors/16128
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Institution: De La Salle University
Language: English
id oai:animorepository.dlsu.edu.ph:etd_bachelors-16641
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spelling oai:animorepository.dlsu.edu.ph:etd_bachelors-166412022-01-28T04:29:41Z On distributions, partitions and derangements (with computer program) Jimenez, Maritess J. Gutierrez, Jeffrey John M. This thesis presents a detailed discussion of three important topics in combinatorial mathematics, namely, distributions, partitions and derangements. In the basic distribution model, there is a collection of objects that are distibuted to a group of possible recipients which are called boxes. The basic distribution model may take the following variations: (a) distribtution of distinct objects into identical boxes (b) distribution of identical objects into distinct boxes and (c) distribution of distinct objects into identical boxes. Since each object goes to exactly one box, the number of distributions of distinct objects into distinct boxes can be derived by counting the number of arbitrary functions from a set of objects to a set of boxes.Sometimes, the number of objects inside the boxes is specified. In the case where each box must hold at most one object, the number of distributions can be derived by counting the number of injections from a set of distinct objects to a set of distinct boxes. Likewise, the number of distributions of distinct objects into distinct boxes where each box holds at least one object can be derived by counting the number of surjections from a set of distinct objects to a set of distinct boxes.In deriving the number of distributions of identical objects into distinct boxes, and the number of distributions of distinct objects into identical boxes, an application of the Corespondence Principle is needed. Likewise, the Corespondence Principle is required in counting the total number of partitions of a given set. All of the formulas used for the derangement problem are results given by Hanson et al. in their article Matchings, Derangements, Rencontres. The rest of the formulas came from C. Chuan-Chong and K. Khee-Meng in their book entitled Principles and Techniques in Combinatorics and B.W. Jackson and D. Thoro in their Applied Combinatorics with Problem Solving. The researchers simplified the proofs and devised a computer program to solve the different problems presented in this problem as well as other similar problems. 1993-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_bachelors/16128 Bachelor's Theses English Animo Repository Partitions (Mathematics) Set theory Programming (Mathematics) Functions
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
topic Partitions (Mathematics)
Set theory
Programming (Mathematics)
Functions
spellingShingle Partitions (Mathematics)
Set theory
Programming (Mathematics)
Functions
Jimenez, Maritess J.
Gutierrez, Jeffrey John M.
On distributions, partitions and derangements (with computer program)
description This thesis presents a detailed discussion of three important topics in combinatorial mathematics, namely, distributions, partitions and derangements. In the basic distribution model, there is a collection of objects that are distibuted to a group of possible recipients which are called boxes. The basic distribution model may take the following variations: (a) distribtution of distinct objects into identical boxes (b) distribution of identical objects into distinct boxes and (c) distribution of distinct objects into identical boxes. Since each object goes to exactly one box, the number of distributions of distinct objects into distinct boxes can be derived by counting the number of arbitrary functions from a set of objects to a set of boxes.Sometimes, the number of objects inside the boxes is specified. In the case where each box must hold at most one object, the number of distributions can be derived by counting the number of injections from a set of distinct objects to a set of distinct boxes. Likewise, the number of distributions of distinct objects into distinct boxes where each box holds at least one object can be derived by counting the number of surjections from a set of distinct objects to a set of distinct boxes.In deriving the number of distributions of identical objects into distinct boxes, and the number of distributions of distinct objects into identical boxes, an application of the Corespondence Principle is needed. Likewise, the Corespondence Principle is required in counting the total number of partitions of a given set. All of the formulas used for the derangement problem are results given by Hanson et al. in their article Matchings, Derangements, Rencontres. The rest of the formulas came from C. Chuan-Chong and K. Khee-Meng in their book entitled Principles and Techniques in Combinatorics and B.W. Jackson and D. Thoro in their Applied Combinatorics with Problem Solving. The researchers simplified the proofs and devised a computer program to solve the different problems presented in this problem as well as other similar problems.
format text
author Jimenez, Maritess J.
Gutierrez, Jeffrey John M.
author_facet Jimenez, Maritess J.
Gutierrez, Jeffrey John M.
author_sort Jimenez, Maritess J.
title On distributions, partitions and derangements (with computer program)
title_short On distributions, partitions and derangements (with computer program)
title_full On distributions, partitions and derangements (with computer program)
title_fullStr On distributions, partitions and derangements (with computer program)
title_full_unstemmed On distributions, partitions and derangements (with computer program)
title_sort on distributions, partitions and derangements (with computer program)
publisher Animo Repository
publishDate 1993
url https://animorepository.dlsu.edu.ph/etd_bachelors/16128
_version_ 1772835000068079616

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