Abstract
Discrete mathematics explores finite mathematic objects such as the integers, graphs and logical statements which assume distinct and separated values. The importance of discrete mathematics has greatly increased with the development of digital computers which themselves operate in discrete steps and store data in discrete units (bits). Students will learn … For more content click the Read More button below.
Syllabus
Sets: operations on sets, algebra of sets and venn diagrams.Logic: truth tables, propositional calculus and types of proof.Number systems: binary and hexadecimal system, and principles of counting.Discrete probability functions, expected value and variance, conditional probability and independence.Binomial and poisson distributions, bi-variate distributions and random numbers.Graphs: types of graphs, traversibility, planarity, … For more content click the Read More button below.
Learning outcomes
Upon successful completion of this subject, students should:
1.
be able to recognise and use mathematical notation and operations to simplify expressions and prove properties of sets, formal logic and computer circuits and other discrete objects;
2.
be able to follow and apply simple mathematical statements and proofs;
3.
be able to understand that numbers can be represented in several bases, and be able to reason in non-decimal bases such as binary and hexadecimal;
4.
be able to work with discrete probabilities, and the related statistics such as expectations and variances;
5.
be able to understand the basic algorithms for analysing graphs, apply them to examples, and to estimate running times;
6.
be able to analyse growth rates in terms of recursions and recurrence equations;
Assumed knowledge
Nil