A Masters degree is an academic degree awarded to individuals who successfully denote a higher level of expertise. There are two main types of Masters - taught and research.
The study of neuroscience is meant to explore how the brain and nervous system work. It involves a variety of different subjects, including neurochemistry, psychology, neural imaging, and even cognitive processing. This is a rapidly expanding field.
Australia has the third largest number of foreign students in the world despite having a community of only 23 million. These are strong academic credentials, but Australian institutions are just as highly ranked as the cities that house them around the native land.
Request Information Master's Degrees in Neuroscience in Australian Capital Territory in Australia 2018
This program is designed to give you both theoretical and practical knowledge of the modern concepts in neuroscience and the methodologies employed. You will be taught by leading Australian neuroscientists and have opportunities to gain first-hand experience of neuroscience research at The John Curtin School of Medical Research (JCSMR). This degree will pave the way for further studies in neuroscience and related fields such as for a PhD. You can also use your skills to forge a career in policy-making, the pharmaceutical industry, consulting, as well as scientific research organisations. [+]
A single two-year graduate degree offered by the ANU College of Health and Medicine Students of the Master of Neuroscience programs join our world-class scientists and have the opportunity to gain firsthand experience from their research. These programs provide science graduates with new skills and extend and renew your understanding of neuroscience principles. You will acquire both theoretical and practical knowledge of the modern concepts in neuroscience and the methodologies employed.
Make an enquiry directly with ANU
We have over a dozen independent research groups working at our Eccles Institute of Neuroscience in state-of-the-art facilities. This includes well-equipped laboratories, a suite of electron microscopes, a confocal scanning microscope and a protein and DNA analytical service and advanced super and parallel computing facilities. We provide staff and students with an exceptional environment for research on brain function, with a cellular focus and an emphasis on signal processing in sensory systems.... [-]