Master of Mathematical Sciences (Advanced)
Master
In Canberra (Australia)
Description
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Type
Master
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Location
Canberra (Australia)
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Start date
Different dates available
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Credits
96
Upgrade your expertise in mathematical sciences with a Master of Mathematical Sciences from ANU, the best university in Australia for mathematics teaching and research.You can study a variety of courses tailored to your interests and needs, ranging from pure mathematics to mathematical modelling, computational mathematics and applications of mathematics, as well as courses in related disciplines such as statistics, computer science, financial mathematics and econometrics.Find out more about mathematical studies, the degree structure, the university experience, career opportunities and student stories on our website.Get the inside story on what it’s like to be an ANU student by visiting our student blog.
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About this course
A Bachelor degree or international equivalent in a cognate discipline with a minimum GPA of 5.5/7.0, and the approval of an identified supervisor for the research project/thesis.
Students must achieve a minimum 70% average mark in the first 48 units of coursework and have the approval of the supervisor for the research project..
Applicants with a Bachelor Degree or Graduate Certificate in a cognate discipline may be eligible for up to 24 units (one semester) of credit licants must meet the University’s English Language Admission Requirements for Students.
Assessment of...
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Subjects
- Supervisor
- Teaching
- Mathematics
- Algebra
- University
- Project
- Bioinformatics
- Computational
- GCSE Mathematics
- Skills and Training
Course programme
The Master of Mathematical Sciences (Advanced) requires the completion of 96 units, which must consist of:
24 units from completion of the following research component:
MATH8701 Mathematics Research Project, which may be taken more than once over consecutive semesters
A minimum of 18 units from the completion of courses from the following list:
MATH6102 Environmental Modelling and Integrated Assessment.
MATH6109 Probability Modelling with Applications
MATH6112 Matrix Computations
MATH6115 Mathematical Finance
MATH6116 Fractal Geometry & Applications to Digital Imaging
MATH6119 Numerical Optimisation
MATH6200 Topics in Algebra and Topology
MATH6201 Topics in Computational Mathematics
MATH6202 Theory of Partial Differential Equations
MATH6203 Foundations of Mathematics
MATH6204 Algebraic Topology
MATH6205 Differential Geometry
MATH6206 Topics in Stochastic Analysis
MATH6207 Topics in Statistical Science
MATH6208 Topics in Bioinformatics
MATH6209 Special Topic in Mathematical Sciences
MATH6211 Topics in Mathematical Physics
MATH6212 Analysis 2: Topology, Lebesgue Integration and Hilbert Spaces
MATH6213 Complex Analysis
MATH6214 Analysis 3: Functional Analysis, Spectral theory and Applications
MATH6215 Algebra 2: Field extensions and Galois Theory
MATH6216 Algebra 3: Advanced Topics in Algebra
MATH8702 Mathematics Reading Course which may be completed more than once under different topics.
A maximum of 54 units from completion of courses from the following list:
MATH6100 Bioinformatics and Biological Modelling
MATH6103 Scientific and Industrial Modelling
MATH6110 Analysis 1: Metric spaces and Applications
MATH6111 Scientific Computing
MATH6114 Number Theory and Cryptography
MATH6118 Algebra 1: Groups, Rings and Advanced Linear Algebra
MATH6222 Introduction to Mathematical Thinking: Problem Solving and Proofs
MATH6242 Introduction to Geometry: Curves and Surfaces
MATH6405 Ordinary Differential Equations and Advanced Vector Calculus
MATH6406 Partial Differential Equations, Fourier Analysis and Complex Analysis
Students must achieve a minimum 70% weighted average mark in the first 48 units and have the approval of an identified supervisor for the research project to continue to the research component.
If the total number of units attempted exceeds 48 in the same teaching period in which the 48th unit is attempted, exactly 48 units will be used in the calculation of the weighted average mark with units from the course with the highest mark applied first followed by further units from courses in descending order of marks.
Students who do not achieve a minimum 70% weighted average mark or do not have the approval of an identified supervisor will be transferred to the Graduate Diploma of Science.
Master of Mathematical Sciences (Advanced)