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Dec 03, 2024
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MTH 260 - Discrete MathematicsCredits: 3 Instructional Contact Hours: 3
Introduces discrete mathematics topics for applied mathematics and computer science. Includes Boolean algebra, predicate logic, sets, relations, induction and recursion, counting theory, graphs and trees.
Prerequisite(s): MTH 161 with grade of “C” or higher Corequisite(s): None Lecture Hours: 45 Lab Hours: 0 Meets MTA Requirement: Math Pass/NoCredit: Yes
Outcomes and Objectives
- The student will learn the fundamental terms and vocabulary of mathematical discourse.
- Use functions, sequences and summations.
- Use the fundamental properties of the integers.
- Use matrices in a variety of contexts.
- Use the basic principles of mathematical logic.
- Define, identify, and apply sets and set operations.
- Use the concepts of algorithm, recursion, and iteration.
- Use the concept of mathematical induction.
- The student will learn the fundamental principles of counting.
- Set-up and solve problems related to permutations and combinations.
- Use generalized permutations and combinations.
- Apply the basic rules of probability in solving problems.
- Define, identify, and apply recurrence relations.
- Use the principle of inclusion-exclusion.
- The student will learn about relations and their representations.
- Identify several fundamental properties of relations.
- Use tables, graphs, and matrices.
- Identify and define constructions of fundamental closures of relations.
- Define and identify equivalence relation and partition.
- Use various examples of partial orderings.
- The student will learn the fundamental properties and applications of graphs and trees.
- Use fundamental graph and tree terminology.
- Identify several graphs.
- Define, identify, and apply Euler and Hamilton paths.
- Define, identify, and apply weighted graphs and shortest path problems.
- Define and solve problems related to homeomorphism and isomorphism of graphs.
- Define and solve problems related to tree traversal, spanning trees and minimal spanning trees.
- The student will learn the fundamental properties and applications of Boolean algebra.
- Define and represent Boolean functions.
- Recognize various examples of Boolean algebras.
- Identify and define logic gates and combinatorial circuits.
- Apply algorithms for minimization of circuits.
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