Handbook Public View

This page displays current curriculum information. For staff view, please login

Unit (2020)

Information on this page, including unit offerings, is from the 2020 academic year.

Mathematical Modelling (MAS221)

Organisational Unit Information Technology, Mathematics and Statistics
Credit Points 3
Availability MURDOCH: S2-internal, S2-external
Teaching Timetables Murdoch S2
Description This unit considers mathematical models, their uses and limitations. Case studies involving relatively simple mathematical ideas will demonstrate that models range from simple tools for answering 'what if' questions to quite accurate descriptions that allow useful predictions to be made. Topics include the: modelling of chemical, biological and physical systems (using first order ordinary differential equations); modelling of steady state systems (using matrix algebra); dynamical models (using ordinary differential equations); and modelling of diffusive processes (using partial differential equations).
Unit Learning Outcomes On successful completion of the unit you should be able to:
1. Construct and understand basic mathematical models of simple biological, environmental and other systems.
2. Carry out mathematical analyses using a variety of mathematical methods, including some numerical methods. In particular, students should be able to:
a. Solve certain classes of first order ordinary differential equations (ODEs)
b. Find general solutions to second order ODEs (including special cases of inhomogeneous ODEs)
c. Find numerical solutions to first and second order initial value problems (IVPs) using Taylor's theorem,
d. Use Laplace transforms to analyse IVPs, particularly with discontinuous forcing,
e. Use and analyse systems of linear first order ODEs as models of systems with interactions
f. Classify 2nd order partial differential equations (PDEs) and numerically solve parabolic PDEs using finite differences.
3. Interpret the results of a mathematical model.
Timetabled Learning Activities Lectures: 3 x 1 hour per week; tutorials: 1 x 1 hour per week.
Unit Learning Experiences Ideas are presented and illustrated in lectures with examples and motivation. Problems are derived from scratch to illustrate the thought process of modelling. These ideas are re-inforced in the tutorial/workshop setting with experienced practitioners guiding study. Self-directed learning and working together is emphasised in the assignments and worksheet components of the unit.
Assessment Your ability to solve relevant mathematical problems will be assessed at regular intervals during the semester via assignments and a mid-semester test (internal only). These assessments are designed to allow you to demonstrate your ability in each of the content areas of the unit and to give you regular feedback on your progress, helping you to identify your areas of strength or weakness during the semester. Assignment solutions and results will be posted progressively on the Learning Management System.
The weightings for assessment items are as follows:
Internal Mode:
Assignments (4) - 20%
Mid-Semester Test - 15%
Final Examination - 65%
External Mode:
Assignments (4) - 30%
Final Examination - 70%
Prerequisites MAS182 Applied Mathematics or MAS161 Calculus and Matrix Algebra or equivalent.
Exclusions Students may not enrol in this unit and MAS164 Fundamentals of Mathematics concurrently.
Appears in these Courses/Majors:
see individual structures for context
Advanced Mathematics Major Teaching Area (BEd(Sec)) [New in 2019]
Animal Health (BSc) [New in 2015]
Animal Science (BSc) [New in 2014]
Bachelor of Engineering Technology (BEngTech)
Biological Sciences (BSc) [New in 2014]
Chemistry (BSc) [New in 2014]
Conservation and Wildlife Biology (BSc) [New in 2014]
Crop and Pasture Science (BSc) [New in 2016]
Environmental Management and Sustainability (BSc) [New in 2014]
Environmental Science (BSc) [New in 2014]
Marine Biology (BSc) [New in 2017]
Marine Science (BSc) [New in 2014]
Mathematics and Statistics (BSc) [New in 2014]
Mathematics Major Teaching Area (BEd(Sec)) [New in 2019]
Physics and Nanotechnology (BSc) [New in 2014]
Sport and Health Science (BSc) [New in 2014]
Electrical Power Engineering Honours (BE(Hons)) (BE(Hons))
Industrial Computer Systems Engineering Honours (BE(Hons)) (BE(Hons))
Instrumentation and Control Engineering Honours (BE(Hons)) (BE(Hons))
Renewable Energy Engineering Honours (BE(Hons)) (BE(Hons))
Appears in these Co-Majors Mathematics Minor Teaching Area
Appears in these Minors Applied and Computational Mathematics
Industrial and Applied Mathematics
Internet Access RequirementsMurdoch units normally include an online component comprising materials, discussions, lecture recordings and assessment activities. All students, regardless of their location or mode of study, need to have access to and be able to use computing devices with browsing capability and a connection to the Internet via Broadband (Cable, ADSL or Mobile) or Wireless. The Internet connection should be readily available and allow large amounts of data to be streamed or downloaded (approximately 100MB per lecture recording). Students also need to be able to enter into online discussions and submit assignments online.


Unit Coordinator
Dr Duncan Farrow
Senior Lecturer

Murdoch Campus
t: 9360 2819
e: D.Farrow@murdoch.edu.au
o: 245.3.004 - Building 245, Murdoch Campus
Unit Contacts

MURDOCH: S2-External
MURDOCH: S2-Internal
Dr Duncan Farrow
Senior Lecturer

Murdoch Campus
t: 9360 2819
e: D.Farrow@murdoch.edu.au
o: 245.3.004 - Building 245, Murdoch Campus
Fee Calculator
Handbook help
Information for Students


The University reserves the right to cancel, without notice, any course, major, minor or unit if the number of students enrolled falls below limits set by the University.

Regulations and Rules

Students should ensure they are familiar with the University's internal legislation, including provisions specifically relevant to their studies. See the University Regulation overview and view legislation online.