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Computational Biology
Bachelor of ScienceMajorYear: 2024
Computational Biology
Overview
Please note that this major is no longer being offered to students from 2022 onwards. Students who commenced this major prior to 2022 and are planning to complete the Computational Biology major may continue to do so.
This is an interdisciplinary major that provides education in using computational and quantitative methods to address scientific questions at the interface of the life, mathematical, and computational sciences. There is great demand for computational and mathematical biologists in academia, industry, and government, where they are investigating problems as diverse as identifying the genetic basis of disease, to predicting how ecological systems will respond to climate change.
In addition to completing core units that provide essential education in computational biology, students have the opportunity to specialise in one of computational biology’s core disciplines – the life sciences, mathematics and statistics, or computer science.
The major prepares students for graduate studies in either computational biology or traditional disciplines, as well as for entry into the job market.
Intended learning outcomes
On completion of this major, students should be able to:
- Demonstrate critical thinking through the ability to evaluate, analyse, and integrate information from a variety of sources
- Be able to articulate theories, concepts, principles, and practices from the multiple disciplines that contribute to computational biology
- Demonstrate ability to effectively communicate scientific ideas, orally and in writing to expert and non-expert audiences
- Demonstrate a capacity for scientific reasoning and problem-solving, using research skills which draw on the features and methods of the different disciplines that inform computational biology
- Demonstrate capacity to listen actively, consider different points of view, and work collaboratively with others to achieve a shared goal
- Develop the ability to manage one's time, work independently and take initiative
- Evaluate the contribution that computational biology makes in addressing problems facing contemporary societies, for example, health and disease, climate change, food security.
Last updated: 29 November 2024
Structure
50 credit points
All of
Code | Name | Study period | Credit Points |
---|---|---|---|
MAST30032 | Biological Modelling and Simulation | Semester 1 (On Campus - Parkville) |
12.5 |
MAST30033 | Statistical Genomics | No longer available |
AND
Completion of a minimum of 25 credit points of Level 3 Electives
Level 3 electives may be selected from the following Areas of Study:
Anatomy (ANAT), Biochemistry and Molecular Biology (BCMB), Bioengineering Systems (BMEN), Botany (BOTA), Computer Science (COMP), Cell and Developmental Biology (CEDB), Environmental Science (EVSC), Ecology (ECOL), Genetics (GENE), Informatics (INFO), Mathematics and Statistics (MAST), Microbiology and Immunology (MIIM), Neuroscience (NEUR), Pathology (PATH), Pharmacology (PHRM), Physiology (PHYS), Zoology (ZOOL)
Students are encouraged to consider enrolling in SCIE30001 if they are seeking a research project experience. Please visit the following webpage for further information relating to the subject's application process - https://science.unimelb.edu.au/students/research-project-subjects
PLEASE NOTE:
This major is no longer being offered to students from 2022 onwards. Students who commenced this major prior to 2022 and are planning to complete the Computational Biology major may continue to do so.
Notes
Students will be encouraged to complete a complementary study sequence in either biological/biomedical science, mathematics and statistics, or computer science. A third year subject in this complementary sequence or from a list of electives makes up the computational biology major.
Last updated: 29 November 2024
Majors, minors and specialisations
Last updated: 29 November 2024