Geography
The Department of Geography offers a program leading to a master of science (MSc) with emphasis on earth surface processes and environmental geoscience, specifically in aspects of geomorphology, biogeography, soils, climatology and hydrology; spatial information science, remote sensing, GIS and spatial analysis.
¶¡ÏãÔ°AV Requirements
Normally, candidates should have a bachelor of science (BSc) degree with a 3.25 cumulative grade point average (CGPA) in geography or a related discipline to enter the program.
¶¡ÏãÔ°AV is in the fall term. Applications should be completed by January 15.
Supervisory Committee
The candidate, once admitted, works under a faculty advisor’s guidance, pending the choice of a supervisory committee. The supervisory committee, normally consisting of two faculty members, one of whom may be from outside the department, will be chosen by the start of the second term.
Program Requirements
All candidates will complete 30 units within six terms. Within these 30 units, students complete a thesis (18 units). The remaining 12 units will be comprised of required and elective courses, and two non-credit courses as shown below. Students with deficiencies may be asked to complete more course work.
Students complete the following non-credit courses that are graded satisfactory/unsatisfactory. Attendance is compulsory to obtain a satisfactory grade.both of
Completion of GEOG 600, with an emphasis on the preparation and presentation of the research proposal. Equivalent Courses: GEOG701.
Students complete 13 including
and two of
Conceptual and methodological bases of current hydrologic research. Equivalent Courses: GEOG731.
An examination of current conceptual and methodological issues in fluvial geomorphology based on analyses of the primary research literature. Equivalent Courses: GEOG726.
Recent theoretical developments in physical climatology. Equivalent Courses: GEOG723.
Soil physics, soil chemistry, soil biology and/or forest soils. Equivalent Courses: GEOG718.
Perspectives on the description, analysis and prediction of geographical processes using spatial modeling and decision-making in a GIS environment. Equivalent Courses: GEOG714.
Section | Instructor | Day/Time | Location |
---|---|---|---|
Suzana Dragicevic |
Sep 8 – Dec 7, 2015: Thu, 2:30–4:20 p.m.
|
Burnaby |
|
G101 |
Sep 8 – Dec 7, 2015: Mon, 10:30 a.m.–12:20 p.m.
|
Burnaby |
Examines data, data structures and computational methods that underlie GIS description and analysis. Illustrates the social science and science links between computers and geography. Equivalent Courses: GEOG715.
* or another course with advisor's consent
†or with the graduate chair’s approval, from related graduate courses in other departments such as biological sciences, chemistry, physics, mathematics, earth sciences, resource and environmental management and computing science.
Thesis
The program requires the submission and successful defence of a thesis. The thesis involves the conceptualization of a problem and the collection, analysis and interpretation of empirical data.
Students prepare their thesis by completing
Normally, students present proposed research at a one-day conference (research day) held in the spring term. A written proposal is submitted to the supervisory committee, defended in colloquium and approved by the end of the second term and before substantive research.
The recommended maximum length of a thesis is 120 pages (including bibliography, but excluding appendices). The completed thesis is judged by the candidate’s examining committee at an oral defence.
Academic Requirements within the Graduate General Regulations
All graduate students must satisfy the academic requirements that are specified in the , as well as the specific requirements for the program in which they are enrolled, as shown above.