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Neuroscience
Bachelor of ScienceMajorYear: 2024
Neuroscience
Contact information
Coordinator
Dr Peter Kitchener
Department of Anatomy and Neuroscience
Email: pkitc@unimelb.edu.au
Overview
It is expected that students completing this Major will understand the fundamental organisational and functional principles of the nervous system: from the biology of nerve cells and neural circuits through to neural systems and ultimately to complex behaviours like thought and emotion. From the two core subjects students will gain an overview of the breath of modern neuroscience to see how a spectrum of science disciplines (such as Cell and Molecular Biology, Pharmacology, Physiology, Zoology and Anatomy) contribute to our understanding of nervous system function. This will also reveal how Neuroscience overlaps with related areas of study, such as Cognitive Science, Psychology and Medicine. Areas of study include how perceptual and motor systems are organised, the crucial role of the nervous system in the regulation of the internal environment of the body, how the nervous system develops, how it has evolved, and the effects of injury, disease and abuse.
Intended learning outcomes
On completion of this major, students should be able to demonstrate:
- A foundation of fundamental knowledge of neuronal and nervous system organisation and function, and a critical engagement with the neuroscientific literature. This should empower students to see the connections between the detailed discipline knowledge and broader questions within and beyond neuroscience.
- Appreciation of how numerous Science disciplines have increased our understanding of nervous system function, and how Neuroscience overlaps with other areas of related study
- Capacity to be self-directed learners and independent thinkers; to critically evaluate claims and ideas; and to see connections between ideas, hypothesis, experiments and interpretation of information
- Awareness of the scope, limits and power of measurement techniques; the role of the methods of measurement; and the paths to discovery that may involve different approaches to understanding complex problems
- Ability to critically read and analyse scientific papers and communicate scientific ideas in an essay task that is intended to help integrate and critically evaluate interpretation of data and provide an insight into the process of scientific peer review.
Last updated: 29 November 2024
Structure
50 credit points
All of
Code | Name | Study period | Credit Points |
---|---|---|---|
NEUR30003 | Principles of Neuroscience | Semester 1 (On Campus - Parkville) |
12.5 |
NEUR30002 | Neurophysiology: Neurons and Circuits | Semester 1 (On Campus - Parkville) |
12.5 |
AND
Two of
Code | Name | Study period | Credit Points |
---|---|---|---|
BCMB30004 | Cell Signalling and Neurochemistry | Semester 2 (On Campus - Parkville) |
12.5 |
BIOM30003 | Biomedical Science Research Project |
Summer Term (On Campus - Parkville)
Summer Term (Off Campus)
Semester 1 (Early-Start) (On Campus - Parkville)
Semester 1 (Early-Start) (Off Campus)
Semester 2 (Early-Start) (Off Campus)
Semester 2 (Early-Start) (On Campus - Parkville)
|
12.5 |
NEUR30004 | Complex Functions in Neuroscience | Semester 2 (On Campus - Parkville) |
12.5 |
NEUR30005 | Developmental Neurobiology | Semester 2 (On Campus - Parkville) |
12.5 |
NEUR30006 | Real and Artificial Neural Networks | Semester 2 (On Campus - Parkville) |
12.5 |
NEUR30007 | Auditory Neuroscience | Semester 2 (On Campus - Parkville) |
12.5 |
OPTO30007 | Visual Neuroscience | Semester 2 (On Campus - Parkville) |
12.5 |
PHRM30002 | Drugs Affecting the Nervous System | Semester 2 (On Campus - Parkville) |
12.5 |
Last updated: 29 November 2024