Course overview
- Description
The Master of Energy Geoscience is a two-year coursework or coursework and dissertation degree course. This course aims to develop graduates with advanced skills in geological and geophysical data analysis and integration of datasets related to sedimentary basin analysis and energy geoscience. The course places considerable emphasis on the development of practical skills underpinned by conceptual knowledge, and the application of both to solving problems related to basin history, energy exploration and production, and carbon capture and storage, and topics related to renewable energy sources, through coursework and research project components. Students have the opportunity to develop advanced skills using latest digital technology in the analysis of geoscientific data and constructing 3D subsurface models.
- Course title
- Master of Energy Geoscience (coursework or coursework and dissertation)
- Award abbreviation
- MEnGeosci
- Course code
- 73540
- Course type
- Master's degree by coursework or by coursework and dissertation
- Status
- Current / 2024
- Administered by
- Earth Sciences
- CRICOS code
- 093309J
Course details
- Intake periods
- Beginning of year and mid-year
- Attendance type
- Full- or part-time (Student visa holders should read Education Services for Overseas Students Act 2000 for more information.)
- Articulation
- The Master of Energy Geoscience has the following exit awards: 74240 Graduate Certificate in Energy Geoscience (24 points) (24 points), 74340 Graduate Diploma in Energy Geoscience (48 points) (48 points)
- Credit points required
- 96
A standard full-time load is 24 points per semester. - Standard course duration
- 2 years
- Time limit
- 4 years
- Delivery mode
- Internal
- Locations offered
- UWA (Perth)
- Domestic fee type
- Commonwealth supported and/or HECS-HELP; or postgraduate fee-paying/FEE-HELP
- Available to international students
- Yes. For information on international student fees see 'Student Procedures: Fees'. (Enquiries: https://www.uwa.edu.au/askuwa)
- Course Coordinator(s)
- Dr Moyra Wilson
- Fees
- Visit the fees calculator.
Prospective students should see the Future Students website for details on admission requirements, intake periods, fees, availability to international students, careers information etc.
Example Study Plan
See study plans for more information.
Specialisations
Course structure
Key to availability of units:
- S1
- Semester 1
- S2
- Semester 2
- NS
- non-standard teaching period
All units have a value of six points unless otherwise stated.
Take all units (48 points):
Availability | Unit code | Unitname | Unit requirements | Contact hours |
---|---|---|---|---|
NS | GEOP4002 | Near-Surface and Environmental Geophysics |
| 3 x 4 hour workshops per week for 5 weeks |
NS | GEOS4410 | Tectonics of Australia in the Indo-Pacific |
| workshops: 3 x 3 hours per week for 6 weeks. The total workload for the unit is 150 hours. |
NS | GEOS4412 | Petroleum Systems and Subsurface Characterisation |
| workshops: 8 hours per week for 6 weeks |
S2 | GEOS4418 | Basin Analysis Techniques |
| workshops: 1 x 2 hours and 1 x 3 hours per week |
NS | GEOS5503 | Advanced Energy Geoscience for a Low Carbon Future |
| workshops: 2 x 4 hours per week for 6 weeks |
NS | GEOS5506 | Structural Analysis for Energy Geoscience |
| workshops: 8 hours per week |
NS | GEOS5509 | Sedimentary Basin Field Excursion |
| workshops: 2-4 hours for up to 2 weeks; field trip: 5-10 days depending on location |
S1, S2 | SCIE4403 | Ethical Conduct and Communication of Science | Weekly face-to-face OR online workshops. This unit runs in Semester 1 and Semester 2, and can be taken in either semester. |
For students in course by coursework and dissertation only, take all units (24 points):
Availability | Unit code | Unitname | Unit requirements | Contact hours |
---|---|---|---|---|
S1, S2 | GEOS5011 | Masters Research Project in Geoscience Part 1 |
| supervision sessions with one or two supervisors over two semesters; independent research and study. Students are guided in this process through an induction program starting the week before semester. |
S1, S2 | GEOS5012 | Masters Research Project in Geoscience Part 2 |
| supervision sessions with one or two supervisors over two semesters; independent research and study. Students are guided in this process through an induction program starting the week before semester |
S1, S2 | GEOS5013 | Masters Research Project in Geoscience Part 3 |
| supervision sessions with one or two supervisors over two semesters; independent research and study. Students are guided in this process through an induction programme starting the week before semester. |
S1, S2 | GEOS5014 | Masters Research Project in Geoscience Part 4 |
| supervision sessions with one or two supervisors over two semesters; independent research and study. Students are guided in this process through an induction programme starting the week before semester. |
For students in course by coursework only, take units to the value of 48 points, including at least 30 points at Level 5. The 30 points at Level 5 may include up to two options, chosen as substitutes, from related areas, as approved by the School. For students in course by coursework and dissertation, take units to the value of 24 points including at least 6 points at level 5.
Availability | Unit code | Unitname | Unit requirements | Contact hours |
---|---|---|---|---|
S2 | ECON5511 | Climate, Energy and Water Economics | lectures/tutorials: 3 hours per week for 10 weeks | |
S1 | ENVT4409 | Remote Sensing of the Environment |
| 42 |
S1, S2 | ENVT4411 | Geographic Information Systems Applications |
| The total workload for the unit is 150 hours. This includes podcasts for viewing and reading to be undertaken prior to attending one compulsory 3-hour workshop per week where students will be contributing to interactive discussions together with practical lab work using GIS software. Completion of the practical workshop labs is necessary to enable skills for completing written unit assessment. Independent learning is required throughout the unit. |
S2 | ENVT5566 | Advanced Spatial and Environmental Modelling |
| total of 150 hours |
S2 | GENG4410 | Fossil to Future – The Transition |
| 3 hours per week workshop |
NS | GEOS4413 | Climate Geoscience |
| Lectures and practical work. There may be a one-day field trip (TBC) |
NS | GEOS5505 | Multiscale Tectonic Systems |
| 60 hours (see unit outline for breakdown) |
NS | GEOS5512 | Critical Metal Resources |
| Workshops: 8 hrs per week for 6 weeks |
NS | GEOS5514 | Marine Geoscience |
| 2 x 4 hours workshops per week for 6 weeks |
S1, S2 | GEOS5596 | Geoscience Internship |
| internship or placement hours as appropriate up to 150 hours. |
See also the rules for the course and the Student Rules.
Rules
Applicability of the Student Rules, policies and procedures
1.(1) The Student Rules apply to students in this course.
(2) The policy, policy statements and guidance documents and student procedures apply, except as otherwise indicated in the rules for this course.
Academic Conduct Essentials and Communication and Research Skills modules
2.(1) A student who enrols in this course for the first time irrespective of whether they have previously been enrolled in another course of the University, must undertake the Academic Conduct Essentials module (the ACE module) and the Communication and Research Skills module (the CARS module).
(2) A student must successfully complete the ACE module within the first teaching period of their enrolment. Failure to complete the module within this timeframe will result in the student's unit results from this teaching period being withheld. These results will continue to be withheld until students avail themselves of a subsequent opportunity to achieve a passing grade in the ACE module. In the event that students complete units in subsequent teaching periods without completing the ACE module, these results will similarly be withheld. Students will not be permitted to submit late review or appeal applications regarding results which have been withheld for this reason and which they were unable to access in the normally permitted review period.
English Language competency requirements
3. To be considered eligible for consideration for admission to this course an applicant must satisfy the University's English language competence requirement as set out in the University Policy on Admission: Coursework.
Admission requirements
4. To be considered for admission to this course an applicant must have
(a) a Bachelor of Geology, or an equivalent qualification, as recognised by UWA;
and
(b) the equivalent of a UWA weighted average mark of at least 50 per cent.
Admission ranking and selection
5. Where relevant, admission will be awarded to the highest ranked applicants or applicants selected based on the relevant requirements.
Articulations and exit awards
6.(1) This course has the following exit awards:
- 74240 Graduate Certificate in Energy Geoscience (24 points)
- 74340 Graduate Diploma in Energy Geoscience (48 points)
(2) A student who withdraws from the Master of Energy Geoscience course before completing it, but after completing 24 points excluding conversion units, with at least 12 points of core units, of which a minimum of 6 points must be degree core
, may apply to the School to be awarded the Graduate Certificate in Energy Geoscience.
(3) A student who withdraws from the Master of Energy Geoscience course before completing it, but after completing 48 points, at least 24 of which are core to the degree, may apply to the School to be awarded the Graduate Diploma in Energy Geoscience.
Course structure
7.(1) The course consists of units to a total value of 96 points.
(2) Units must be selected in accordance with the course structure, as set out in these rules.
Satisfactory progress
8. To make satisfactory progress a student must pass units to a point value greater than half the total value of units in which they remain enrolled after the final date for withdrawal without academic penalty.
9. A student who has not achieved a result of Ungraded Pass (UP) for the Communication and Research Skills module (the CARS module) when their progress status is assessed will not have made satisfactory progress even if they have met the other requirements for satisfactory progress in Rule 8.
Progress status
10.(1) A student who makes satisfactory progress in terms of Rule 8 is assigned the status of 'Good Standing'.
(2) Unless the relevant board determines otherwise because of exceptional circumstances
(a) a student who does not make satisfactory progress for the first time under Rule 8 is assigned a progress status of 'On Probation';
(b) a student who does not make satisfactory progress for the second time under Rule 8 is assigned a progress status of 'Suspended';
(c) a student who does not make satisfactory progress for the third time under Rule 8 is assigned a progress status of 'Excluded'.
11. A student who does not make satisfactory progress in terms of Rule 9 is assigned the progress status of 'On Probation', unless they have been assigned a progress status of 'Suspended' or 'Excluded' for failure to meet other satisfactory progress requirements in Rule 8.
Award with distinction
12. To be awarded the degree with distinction a student must achieve a course weighted average mark (WAM) of at least 80 per cent which is calculated based on
(a) all units above Level 3 attempted as part of the course that are awarded a final percentage mark;
(b) all relevant units above Level 3 undertaken in articulating courses of this University that are awarded a final percentage mark;
and
(c) all units above Level 3 completed at this University that are credited to the master's degree course.
Deferrals
13. Applicants awarded admission to the course are entitled to a deferral of up to 12 months, as per the University Policy on: Admissions (Coursework).
Additional rules
Research Project
14. Students who request approval to undertake a research project as an optional unit in this course must have
(a) a weighted average mark of at least 65 per cent in 48 points of the level of Level 4 and 5 units completed in the first year of the course;
and
(b) a supervisor, approved by the Faculty, must have confirmed their willingness and availability to supervise the project.