In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
Neuroscience is the study of the nervous system, which includes the brain, neurons, nerves, and a variety of other components. This field of study may also deal with related subjects, such as psychology, anatomy, medicine, or even engineering.
The Netherlands is a constituent country of the Kingdom of the Netherlands, consisting of twelve provinces in North-West Europe and three islands in the Caribbean. English speaking students will have no problems finding suitable courses. For international students applying to universities in the Netherlands, several scholarships are available.
The capital city of Netherlands, Amsterdam has well known universities such as the University of Amsterdam and Universiteitsbibliotheek Amsterdam. These educational institutions tend to provide diversified graduate and post graduate degree programs, and they have top notch Research and Development facilities.
Top Masters Degree in Neuroscience in Amsterdam in the Netherlands
Neuroscience belongs to the sciences that in the future will have a large impact on virtually all aspects of our functioning as humans .. [+]
The Master’s in Neurosciences is a two-year, full-time programme. Teaching comprises lectures, research seminars, work groups, demonstrations, lab... [+]
Master in Neurosciences
Brain disorders, in particular neurodegenerative diseases and mental illnesses, are among the most prevalent and debilitating diseases of our time. They are typically caused by the interplay of environmental factors and genetic variation in multiple genes, which is currently being mapped by major international initiatives. Future brain research should therefore focus on integrative projects as a next step in characterizing this complex environmental/genetic interplay and in revealing how it translates into brain function and/or disease. To succeed, we need a new generation of neuroscientists capable of integrating information from genes and proteins to synapses, and from networks up to complex brain function and dysfunction. Are you ready for the challenge?... [-]