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Discrete Mathematics

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Discrete Mathematics

By S.K. Chakraborty, B. K. Sarkar

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Format: Paperback / softback, 552 pages
Other Information: 260 line drawings
Published In: United Kingdom, 10 February 2011
Discrete Mathematics is designed to serve as a textbook for undergraduate engineering students of computer science and postgraduate students of computer applications. The book would also prove useful to post graduate students of mathematics. The book seeks to provide a thorough understanding of the subject and present its practical applications to computer science. Beginning with an overview of basic concepts like Sets, Relation and Functions, and Matrices, the book delves into core concepts of discrete mathematics like Combinatorics, Logic and Truth Tables, Groups, Order Relation and Lattices, Boolean Algebra, Trees, and Graphs. Special emphasis is also laid on certain advanced topics like Complexity and Formal Language and Automata. Algorithms and programmes have been used wherever required to illustrate the applications. Written in a simple, student-friendly style, the book provides numerous solved examples and chapter end exercises to help students apply the mathematical tools to computer-related concepts.

Table of Contents

CHAPTER 1: SET RELATION FUNCTION ; 1.1 INTRODUCTION ; 1.2 SETS ; 1.2.1 Representation of a Set ; 1.2.2 Sets of Special Status ; 1.2.3 Universal Set and Empty Set ; 1.2.4 Subsets ; 1.2.5 Power set ; 1.2.6 Cardinality of a Set ; 1.3 ORDERED PAIRS ; 1.3.1 Cartesian Product of Sets ; 1.3.2 Properties of Cartesian Product ; 1.4 VENN DIAGRAMS ; 1.5 OPERATIONS ON SETS ; 1.5.1 Union of Sets ; 1.5.2 Intersections of Set ; 1.5.3 Complements ; 1.5.4 Symmetric Difference ; 1.6 COUNTABLE AND UNCOUNTABLE SETS ; 1.7 ALGEBRA OF SETS ; 1.8 MULTISET ; 1.8.1 Operations on Multisets ; 1.9 FUZZY SET ; 1.9.1 Operations on Fuzzy Set ; 1.10 GROWTH OF FUNCTION ; 1.11 COMPUTER REPRESENTATION OF SETS ; 1.12 INTRODUCTION ; 1.13 BINARY RELATION ; 1.14 CLASSIFICATION OF RELATIONS ; 1.14.1 Reflexive Relation ; 1.14.2 Symmetric Relation ; 1.14.3 Antisymmetric Relation ; 1.14.4 Transitive Relation ; 1.14.5 Equivalence Relation ; 1.14.6 Associative Relation ; 1.15 COMPOSITION OF RELATIONS ; 1.16 INVERSE OF A RELATION ; 1.17 REPRESENTATION OF RELATIONS ON A SET ; 1.18 CLOSURE OPERATION ON RELATIONS ; 1.18.1 Reflexive Closure ; 1.18.2 Symmetric Closure ; 1.19 MATRIX REPRESENTATION OF RELATION ; 1.20 DIGRAPHS ; 1.20.1 Transitive Closure ; 1.20.2 Warshall's Algorithm ; 1.21 PARTIAL ORDERING RELATION ; 1.22 n-ARY RELATIONS AND THEIR APPLICATIONS ; 1.23 RELATIONAL MODEL FOR DATABASES ; 1.24 INTRODUCTION ; 1.25 ADDITION AND MULTIPLICATION OF FUNCTIONS ; 1.26 CLASSIFICATION OF FUNCTIONS ; 1.26.1 One-to-one (Injective) Function ; 1.26.2 Onto (Surjective) Functions ; 1.26.3 One-to-one, Onto (Bijective) Function ; 1.26.4 Identity Function ; 1.26.5 Constant Function ; 1.27 COMPOSITION OF FUNCTION ; 1.27.1 Associativity of Composition of Functions ; 1.28 INVERSE FUNCTION ; 1.28.1 Invertible Function ; 1.28.2 Image of a Subset ; 1.29 HASH FUNCTION ; 1.30 RECURSIVELY DEFINED FUNCTIONS ; 1.31 SOME SPECIAL FUNCTIONS ; 1.31.1 Floor and Ceiling Functions ; 1.31.2 Integer and Absolute Value Functions ; 1.31.3 Remainder Function ; 1.32 FUNCTIONS OF COMPUTER SCIENCE ; 1.32.1 Partial and Total Functions ; 1.32.2 Primitive Recursive Function ; 1.32.3 Ackermann Function ; 1.33 THE INCLUSION-EXCLUSION PRINCIPLE ; 1.33.1 Applications of Inclusion - Exclusion Principle ; 1.34 SEQUENCE AND SUMMATION ; 1.34.1 Sequence ; 1.34.2 Summation ; SUMMARY ; EXERCISE 1 ; CHAPTER 2 COMBINATORICS ; 2.1 INTRODUCTION ; 2.2 BASIC PRINCIPLES OF COUNTING ; 2.2.1 Multiplication Principle (The Principles of Sequential Counting) ; 2.2.2 Addition Rule ( The Principle of Disjunctive Counting) ; 2.3 FACTORIAL NOTATION ; 2.4 BINOMIAL THEOREM ; 2.4.1 Pascal's Triangle ; 2.4.2 Multinomial Theorem ; 2.5 PERMUTATIONS (Arrangements of Objects) ; 2.5.1 Permutations with Repetitions ; 2.5.2 Circular Permutations ; 2.6 COMBINATIONS (Selection of Objects) ; 2.6.1 Combinations of n Different Objects ; 2.6.2 Combinations with Repetitions ; 2.7 DISCRETE PROBABILITY ; 2.7.1 Terminology (Basic Concepts) ; 2.8 FINITE PROBABILITY SPACES ; 2.9 PROBABILITY OF AN EVENT ; 2.9.1 Axioms of Probability ; 2.9.2 Odds in favour and Odds against an Event ; 2.9.3. Addition Principle ; 2.10 CONDITIONAL PROBABILITY ; 2.10.1 Multiplication Rule ; 2.11 INDEPENDENT REPEATED TRIALS, BINOMIAL DISTRIBUTION ; 2.11.1 Repeated Trials with Two Outcomes, Bernoulli Trials ; 2.12 RANDOM VARIABLES ; 2.12.1 Probability Distribution of a Random Variable ; 2.12.2 Expectation of a Random Variable ; 2.12.3 Variance and Standard Deviation of a Random Variable ; 2.12.4 Binomial Distribution ; 2.13 RECURSION ; 2.13.1 Recursively Defined Sequences ; 2.13.2 Recursive Definitions ; 2.13.3 Recursively Defined Sets ; 2.13.4 Recursively Defined Functions ; 2.14 RECURENCE RELATION ; 2.14.1 Order and Degree of Recurrence Relation ; 2.14.2 Linear Homogenous and Non-homogeneous Recurrence Relations ; 2.14.3 Solution of Linear Recurrence Relation with Constant Coefficients ; 2.14.4 Homogenous Solution ; 2.14.5 Particular Solution ; 2.15 GENERATING FUNCTIONS ; 2.16 COUNTING (COMBINATORIAL) METHOD ; 2.17 THE PIGEONHOLE PRINCPLE ; 2.17.1 Generalized Pigeonhole Principle ; SUMMARY ; EXERCISE 2 ; CHAPTER 3 MATHEMATICAL LOGIC ; 3.1 INTRODUCTION ; 3.2 STATEMENT (PROPOSITIONS) ; 3.3 LAWS OF FORMAL LOGIC ; 3.3.1 Law of Contradiction ; 3.3.2 Law of Intermediate Exclusion ; 3.4 BASIC SET OF LOGICAL OPERATORS /OPERATIONS ; 3.4.1 Conjunction (AND, ) ; 3.4.2 Disjunction (OR, ) ; 3.4.3 Negation (NOT, ~ ) ; 3.5 PROPOSITIONS AND TRUTH TABLES ; 3.5.1 Connectives ; 3.5.2 Compound Propositions ; 3.5.3 Conditional Statement ; 3.5.4 Converse, Contrapositive, and Inverse ; 3.5.5 Biconditional Statement ; 3.6 ALGEBRA OF PROPOSITIONS ; 3.7 PROPOSITIONAL FUNCTIONS ; 3.8 TAUTOLOGIES AND CONTRADICTIONS ; 3.9 LOGICAL EQUIVALENCE ; 3.9.1 De Morgan Laws ; 3.10 LOGICAL IMPLICATION ; 3.11 NORMAL FORMS ; 3.11.1 Disjunctive Normal Form (dnf) ; 3.11.2 Conjunctive Normal Form (cnf) ; 3.12 ARGUMENTS ; 3.13 RULES OF INFERENCE ; 3.13.1 Law of Detachment (or Modus Pones) ; 3.13.2 Law of Contraposition (Modus tollens) ; 3.13.3 Disjunctive Syllogism ; 3.13.4 Hypothetical Syllogism ; 3.14 WELL FORMED FORMULAE ; 3.15 PREDICATE CALCULUS ; 3.16 QUANTIFIER ; 3.16.1 Universal Quantifier ; 3.16.2 Existential Quantifier ; 3.17 INTRODUCTION TO PROOFS ; 3.17.1 Brief Status of Terminology ; 3.17.2 Methods of Proof ; 3.17.3 Direct Proof ; 3.17.4 Consistency ; 3.17.5 Method of Proof by Contraposition ; 3.17.6 Proof by Contradiction (reduction ad absurdum) ; 3.17.7 Proof by Mathematical Induction ; 3.17.8 Proof by Cases ; SUMMARY ; EXERCISE 3 ; CHAPTER 4 ALGEBRAIC STRUCTURE ; 4.1 INTRODUCTION ; 4.2 BINARY OPERATIONS ; 4.2.1 Properties of Binary Operations ; 4.3 GROUPS ; 4.3.1 Abelian Group ; 4.3.2 Properties of Groups ; 4.3.3 Products and Quotients of Groups ; 4.4 SEMIGROUPS ; 4.4.1 Isomorphism and Homomorphism ; 4.4.2 Products and Quotients of Semigroups ; 4.5 SUBGROUP ; 4.6 CYCLIC GROUP ; 4.7 PERMUTATION GROUPS ; 4.7.1 Equality of Permutations ; 4.7.2 Permutation Identity ; 4.7.3 Composition of Permutations (or, Product of Permutations) ; 4.7.4 Inverse Permutation ; 4.7.5 Cyclic Permutations ; 4.7.6 Transposition ; 4.7.7 Even and Odd Permutations ; 4.8 SYMMETRIC GROUP ; 4.9 COSETS ; 4.9.1 Properties of Cosets ; 4.10 NORMAL SUBGROUP ; 4.11 LAGRANGE'S THEOREM ; 4.12 GROUP CODES ; 4.12.1 Coding of Binary Information ; 4.12.2 Parity and Generator Matrices ; 4.12.3 Decoding and Error Correction ; 4.13 ALGEBRAIC SYSTEMS WITH TWO BINARY OPERATIONS ; 4.13.1 Rings ; 4.13.2 Elementary Properties of a Ring ; 4.13.3 Special kinds of Rings ; 4.13.4 Integral Domain ; 4.13.5 Field ; 4.14 SUBRING ; 4.14.1 Ideal ; 4.14.2 Quotient Ring ; 4.14.3 Morphisms of Rings ; 4.14.4 Properties of Homomorphism of Ring ; SUMMARY ; EXERCISE 4 ; CHAPTER 5 MATRIX ALGEBRA ; 5.1 INTRODUCTION ; 5.2 DEFINITION OF A MATRIX ; 5.3 TYPES OF MATRICES ; 5.3.1 Rectangular and Square Matrices ; 5.3.2 Row matrix or a row vector ; 5.3.3 Column matrix or a column vector ; 5.3.4 Zero or Null matrix ; 5.3.5 Diagonal elements of a matrix ; 5.3.6 Diagonal matrix ; 5.3.7 Scalar matrix ; 5.3.8 Unit Matrix or Identity Matrix ; 5.3.9 Comparable Matrices ; 5.3.10 Equal Matrices ; 5.3.11 Upper Triangular Matrix ; 5.3.12 Lower Triangular Matrix ; 5.4 OPERATIONS ON MATRICES ; 5.4.1 Addition of Matrices ; 5.4.2 Subtraction of Matrices ; 5.4.3 Scalar Multiple of a Matrix ; 5.4.4 Multiplication of Matrices ; 5.4.5 Properties of Matrix Multiplication ; 5.4.6 Positive Integral Powers of Matrices ; 5.4.7 Sub Matrix ; 5.4.8 Partition of Matrices ; 5.5 RELATED MATRICES ; 5.5.1 Transpose of a Matrix ; 5.5.2 Symmetric and Skew-Symmetric Matrix ; 5.5.3 Complex Matrices ; 5.5.4 Conjugate of a Matrix ; 5.5.5 Conjugate Transpose of a Matrix ; 5.5.6 Hermitian and Skew-Hermitian Matrices ; 5.6 DETERMINANT OF A MATRIX ; 5.6.1 Minor and Co-factor ; 5.6.2 Expansion of the determinant ( ) ; 5.6.3 Difference between a Matrix and a Determinant ; 5.7 TYPICAL SQUARE MATRICES ; 5.7.1 Orthogonal Matrix ; 5.7.2 Unitary Matrix ; 5.7.3 Involutory Matrix ; 5.7.4 Idempotent Matrix ; 5.7.5 Nilpotent Matrix ; 5.8 ADJOINT AND INVERSE OF A MATRIX ; 5.8.1 Singular and Non-singular Matrices ; 5.8.2 Adjoint of a Square Matrix ; 5.8.3 Properties of Adjoint of a Matrix ; 5.9 INVERSE OF A MATRIX ; 5.9.1 Properties of Inverse of a Matrix ; 5.10 RANK OF A MATRIX ; 5.10.1 Elementary transformations (operations) of a matrix ; 5.11 BOOLEAN MATRIX OR A ZERO-ONE MATRIX ; 5.11.1 Operations on Zero-one Matrices ; 5.11.2 Boolean product of matrices ; 5.11.3 Echelon Matrix (Row Reduced Echelon Form) ; 5.11.4 Normal form of a Matrix ; 5.11.5 Procedure of reduction of a matrix A to its normal form ; 5.12 SOLUTION OF LINEAR AL GEBRAIC EQUATIONS ; 5.12.1 Linear Homogenous Equations (Ax = 0) ; 5.12.2 Linear Non-homogenous Equations (Ax = b) ; 5.12.3 Consistent and Inconsistent Equations ; 5.13 EIGEN VALUES AND EIGEN VECTORS ; 5.13.1 Determination of Eigen values and Eigen vectors ; 5.13.2 Linear Transformations ; 5.13.3 Properties of Eigen values and Eigen vectors ; 5.14 CAYLEY - HAMILTON THOREM ; 5.14.1 Inverse of the Matrix ; SUMMARY ; EXERCISE 5 ; CHAPTER 6 ORDER RELATION AND LATTICE ; 6.1 INTRODUCTION ; 6.2 PARTIALLY ORDERED SET ; 6.2.1 Comparability of Elements ; 6.2.2 Linearly ordered set ; 6.3 HASSE DIAGRAM ; 6.3.1 Topological Sorting ; 6.3.2 Chain ; 6.3.3 Antichain ; 6.4 ISOMORPHISM ; 6.4.1 Isomorphic Ordered Sets ; 6.5 LEXICOGRAPHIC ORDERING ; 6.6 EXTREMAL ELEMENTS OF POSETS ; 6.6.1 Maximal Element ; 6.6.2 Minimal Element ; 6.6.3 Greatest and Least Elements ; 6.6.4 Upper and Lower Bounds ; 6.6.5 Least Upper Bound (Supremum) ; 6.6.6 Greatest Lower Bound (Infimum) ; 6.7 WELL-ORDERED SET ; 6.8 CONSISTENT ENUMERATIONS ; 6.9 LATTICES ; 6.9.1 Principle of Duality ; 6.9.2 Isotonocity Property ; 6.10 SUB LATTICES ; 6.11 DIRECT PRODUCT OF LATTICES ; 6.12 SOME SPECIAL CLASS OF LATTICES ; 6.12.1 Complete Lattice ; 6.12.2 Bounded Lattice ; 6.12.3 Properties of Bounded Lattice ; 6.12.4 Distributive Lattice ; 6.12.5 Modular Lattice ; 6.12.6 Complemented Lattices ; 6.12.7 Isomorphic Lattices ; 6.12.8 Join-irreducible ; 6.12.9 Meet-irreducible ; 6.13 LATTICE HOMOMORPHISM ; SUMMARY ; EXERCISE 6 ; CHAPTER-7 BOOLEAN ALGEBRA ; 7.1 INTRODUCTION ; 7.2 LAWS ON BOOLEAN ALGEBRA ; 7.3 TRUTH TABLES ON BOOLEAN OPERATIONS ; 7.4 UNIQUE FEATURES OF BOOLEAN ALGEBRA ; 7.5 MINTERM AND MAXTERM ; 7.5.1 Boolean Expression in Sum of Products(SOP) and Product of ; 7.5.2 Sums(POS) Form or Normal Form ; 7.6 BOOLEAN FUNCTION ; 7.7 SWITICHING NETWORK FROM BOOLEAN EXPRESSION USING LOGIC GATES ; 7.8 KARNAUGH MAP ; 7.8.1 Rules used by K-map for simplification ; 7.8.2 Labeling of K-map Squares ; SUMMARY ; EXERCISE 7 ; CHAPTER-8 COMPLEXITY ; 8.1 INTRODUCTION ; 8.2 ALGORITHM ; 8.2.1. Basic Criteria of Algorithm ; 8.3. DATA STRUCTURE ; 8.3.1. Operations on Data Structure ; 8.3.2. Categorizations of Data structure ; 8.3.2.1. Array as Non-primitive Data Structure ; 8.3.2.2 Structure as Non-primitive Data Structure ; 8.3.3 Abstract Data Type ; 8.3.4 Linear and Non-linear Data Structure ; 8.4. COMPLEXITY ; 8.4.1. Idea on Complexity Function of any Algorithm ; 8.4.2 Asymptote and Its Behavior ; 8.4.3. Why Asymptotic Notations to Express Inexact Running Time ? ; 8.4.4. Counting Strategy for Operations in Algorithm ; 8.4.5 Discussion on Order of Complexity ; 8.4.6 Mathematical Definitions of Some Useful Asymptotic Notations ; 8.4.6.1. Big oh ; 8.4.6.2. Big Omega ; 8.4.6.3 Theta ; 8.4.6.4. Little Oh and Little Omega ; 8.4.7. Standard Cases ; 8.4.8. Some Properties of Time Complexity Functions ; 8.4.9 Complexity of Recursive Procedures ; 8.4.10 Solving Recurrence Relation T(n) = aT(n/b) +f(n) , a ? 1 , b > 0 ; 8.4.11. Comparison of Complexity ; 8.5. SEARCHING AND SORTING ; 8.5.1. Searching ; 8.5.1.1 Linear Search ; 8.5.1.2. Binary Search ; 8.5.2. Sorting ; 8.5.2.1. Merge Sorting ; 8.5.2.2. Bubble Sorting ; SUMMARY ; EXERCISE 8 ; CHAPTER -9 GRAPH ; 9.1. INTRODUCTION ; 9.2 GRAPH AND BASIC TERMINOLOGIES ; 9.3. TYPES OF GRAPH ; 9.4 SUB-GRAPH AND ISOMORPHIC GRAPH ; 9.5 OPERATIONS ON GRAPH ; 9.6. REPRESENTATION OF GRAPH ; 9.6.1. Matrix Representation ; 9.6.2. Adjacency List Representation ; 9.6.3. Advantages and Disadvantages of Matrix and Linked list representations ; 9.6.4 Incidence Matrix Representation of Graph ; 9.7. GRAPH ALGORITHMS ; 9.7.1. BFS ; 9.7.2 DFS ; 9.7.3 Single Source Shortest Path Problem, Dijkstra's Algorithm ; 9.8 EULER GRAPH FLEURY'S ALGORITHM ; 9.8.1 Some Useful Results on Euler Graph ; 9.9 HAMILTONIAN GRAPH ; 9.9.1 Useful Hints on Hamiltonian circuit ; 9.10 PLANAR GRAPH ; 9.11 COLOURING OF GRAPH ; 9.12 COMPONENT ; 9.13. CUT VERTEX ; 9.14. FLOW NETWORK ; 9.14.1 Ford-Fulkerson Algorithm ; SUMMARY ; EXERCISE 9 ; CHAPTER -10 TREE ; 10.1. INTRODUCTION ; 10.2. TREE ; 10.2.1. Common Terminologies on Tree ; 10.2.2. Labeled Tree ; 10.2.3 Some Diagrams of Directed and Undirected Trees ; 10.2.4 Summary of the Basic Properties of Tree ; 10.2.5 m-ary Tree, Complete Binary Tree, Full Binary Tree ; 10.2.6. Why skewed tree are considered as binary tree? ; 10.3. SOME IMPORTANT RESULTS ON TREE ; 10.4. SEQUENTIAL REPRESENTATION OF BINARY TREE ; 10.5. OPERATIONS ON TREE ; 10.5.1. Tree Traversal ; 10.5.2 More Discussions on Tree Traversals ; 10.5.3 Construction of unique Binary Tree when Pre-order and In-order ; 10.5.4 Traversal Sequences are given ; 10.5.5. Algorithm to Construct Unique Binary Tree using Pre-order and In-order Sequences ; 10.6. BINARY SEARCH TREE (BST) ; 10.6.1 Linked List Representation of Binary Tree ; 10.6.2. Construction of Binary Search Tree ; 10.7. RECURSIVE PROCEDURE FOR BINARY TREE TRAVERSAL ; 10.7.1. Analysis of Time Complexities for Some Operations on Binary Tree ; 10.8. PREDECESSOR AND SUCCESSOR NODE ; 10.9. EXPRESSION TREE ; 10.10. AVL TREE ; 10.11. SPANNING TREE ; 10.11.1 Minimum Spanning Tree(MST), Prim's and Kruskal's algorithm ; 10.12. GENERAL TREE ; 10.12.1. Conversion of General Tree to Binary Tree ; 10.12.2. Pre- order Traversal for General Tree ; 10.13. SOME IMPORTANT APPLICATIONS OF TREE ; SUMMARY ; EXERCISE 10 ; CHAPTER-11 FORMAL LANGUAGE AND AUTOMATA ; 11.1 INTRODUCTION ; 11. 2 MATHEMATICAL PRELIMINARIES ; 11. 3 AUTOMATA ; 11.3.1 Basic Categories of Automata ; 11.3.1.1. State Transition Graph ; 11.3.2 Finite Automaton and Its Types ; 11.3.2.1 Deterministic Finite Automaton(DFA) ; 11.3.2.2 Non-deterministic Finite Automaton(NDFA) ; 11.3.3 Importance of NDFA ; 11.3.4 Graphical Notations Used in this Chapter in Drawing Finite Automata ; 11.3.5 Discussion on Designing of Some Basic FA's ; 11.3.6 Some Basic Tips to Design FA ; 11.3.7 Conversion Strategy from NDFA to DFA ; 11.3.8 Finite Automaton with Output ; 11.3.8.1 Transformation of Moore m/c to Mealy m/c ; 11.3.8.2 Transformation of Mealy m/c to Moore m/c ; 11.4 REGULAR EXPRESSION ; 11.4.1 Minimization of FA ; 11.4.2 Brief Discussion to Derive R.Es ; 11.4.3 Solved Problems on R.E. ; 11. 4. 4 The Identities on Regular Expression ; 11. 4. 5 Rules for Constructing NDFA from Regular Expression ; 11. 4. 6 Tips to Get Quick Answer of Some Special Problems on FA and R.E. ; 11.4.7 Pumping Lemma for Regular Language ; 11. 4. 8 Applications of Finite Automata and Regular Expression ; 11.5 GRAMMAR ; 11. 5. 1 Formal Defination of Grammar ; 11. 5. 2 The Chomsky Hierarchy ; 11. 5. 3 Derivation(Parsing) ; 11. 5. 4 Parsing Techniques ; 11. 5. 5 Ambiguous Grammar ; 11. 5. 5.1 Demerits of Ambiguous Grammar ; 11. 5. 5.2 Making Disambiguous Grammar ; 11. 6 PUSHDOWN AUTOMATON (PDA) ; 11.6.1 Types of PDA ; 11. 7 TURING MACHINE (TM) ; 11.7.1 Improvement in TM ; 11.7.2 Variations of TMs ; 11.7.3 Halting Problem ; 11.7.4 Turing Acceptable Language ; 11.7.5 Properties of Recursive and Recursively Enumerable Languages ; 11.7.6 Church Thesis ; 11.8 POST CORRESPONDENCE PROBLEM(PCP) ; 11.9 CLASSES OF PROBLEMS ; 11.10 WHAT IS CELLULAR AUTOMATA ? ; 11.11 FUZZY SETS AND LOGIC ; 11.12 RUSSELL'S PARADOX ; 11.12.1 History of the paradox ; SUMMARY ; EXERCISE 11 ; APPENDIX 1 ; REFERENCES

About the Author

S.K. Chakraborty is currently Reader at the Department of Mathematics, BIT, Mesra, Ranchi. He holds a PhD in Applied Mathematics from Uppsala University, Sweden, and has over 15 years of academic experience. He has published several research papers in various journals of national and international repute. He is also a member of Indian Society for Theoretical and Applied Mechanics, and Indian National Science Congress Association. B.K. Sarkar is currently a Senior Lecturer at the Department of Information Technology and MCA, BIT, Mesra, Ranchi. He has around 9 years of teaching experience and is a life member of Indian Society for Technical Education.

EAN: 9780198065432
ISBN: 0198065434
Publisher: Oxford University Press
Dimensions: 23.88 x 18.29 x 2.54 centimetres (0.81 kg)
Age Range: 15+ years
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