Bachelor of Engineering (Marine & Offshore Engineering) (Honours) (24C)

This course is in teach-out and is not accepting new admissions

Overview  2019

ATAR

Guaranteed Entry ATAR

Guaranteed Entry ATAR

Achievement of a specified ATAR will guarantee acceptance into a course or institution, subject to any non-ATAR criteria being met, such as a prerequisite study or English language proficiency.

: 70

Duration

mode.loadCategory not equal to Part Time
Minimum 4 Years, up to a maximum of 9 Years

Duration

Duration refers to the minimum and maximum amounts of time in which this course can be completed. It will be affected by whether you choose to study full or part time, noting that some programs are only available part time.

Location

Launceston
Semester 1, Semester 2

Commonwealth Supported places available

ATAR

Guaranteed Entry ATAR

Guaranteed Entry ATAR

Achievement of a specified ATAR will guarantee acceptance into a course or institution, subject to any non-ATAR criteria being met, such as a prerequisite study or English language proficiency.

: 70

Duration

Minimum 4 Years
Entry requirements

Location

Launceston
Semester 1, Semester 2
This course is in teach-out and is not accepting new admissions from 2018. It has been replaced by P4F1 Bachelor of Engineering (Specialisation) with Honours, please visit that page for the latest information.

This engineering degree is unique to AMC and focuses on the design, manufacture, deployment and commissioning of machinery and systems associated with the marine and offshore industries. It is suited to students interested in mechanical and mechanical-electrical power generation equipment and various systems (propulsion, fuel, lubrication, HVAC(heating, ventilation, and air conditioning, etc.) employed in marine and offshore operations. Through a combination of practical learning activities, using the AMC's suite of research and lab facilities and the training vessel Bluefin, and concentration on the fundamental theories, students develop a complete skill set. Students can choose to specialise in Offshore Systems or Marine Systems.

As an AMC student you will have access to world-class research facilities as part of the Australian Maritime Hydrodynamics Research Centre; and you will undertake a voyage on the AMC's 35m vessel Bluefin in the 3rd year of the course.

At NCMEH we believe that integrating practical projects into the degree programmes is a vital mechanism for improving the learning experience for our students.

The use of practical exercises assists students establish a thorough understanding of engineering theories, as well as developing generic skills such as team work, communication and professionalism.

To provide professionally qualified engineers, with a strong practical approach to complement their technical and generic skills, who can provide innovative and creative solutions within the Australian and international maritime industry in:

  • marine and offshore systems, focusing on the design, deployment, commissioning and management of mechanical and mechanical-electrical systems associated with the shipping, marine and offshore oil and gas industries.

Career outcomes

There are many exciting developments driven by increased fuel costs and the need to lower the environmental impact of vessels and oil rigs. You can get involved in engineering alternative marine power systems or improving crude oil extraction to reduce emissions while maximising yield. Career opportunities

There is international demand from the following areas:

  • Ship Building
  • Aternative energy
  • Marine survey
  • Statutory bodies
  • Military
  • Industrial process and power generation sectors.

Graduates can also apply for any suitable position open to mechanical engineers.

Professional Recognition

The BE programmes are fully accredited by Engineers Australia, with the last re-accreditation taking place in 2015.

Course structure

Students in the Bachelor of Engineering (Marine and Offshore Engineering) (Honours) have the choice of undertaking a specialisation in either Offshore Systems, or Marine Systems in their degree.

    

Year 1

Semester 1

The unit is primarily designed for students to develop basic to intermediate computer-based skills to solve maritime engineering problems using MATLAB. The emphasis is on developing solution algorithms, implementing these with computer programming, and presenting results in a clear and…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This first year mathematics unit provides a broad introduction to the fundamental mathematical operations and methods (differentiation, integration and partial differentiation) and mathematical objects (vectors) needed in engineering and science. We initiate themes of mathematical modelling which are most important…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This course is designed to give students an overview of engineering design, creativity, visualisation, expression and technical communication using oral and written skills. It provides an introduction to graphical communication using manual sketching and computer-aided drafting. Topics include problem formulation,…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

The main objective of JEE135 Statics is to develop the student's ability to analyse engineering problems, related to objects at rest or moving at constant velocity, in a simple and logical manner by applying physics principles. Specific topics include vector…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

   

Semester 2

This first year mathematics unit builds on the fundamentals learnt in Mathematics I and provides students of science and engineering an introduction to those areas of mathematics which are most important in connection with practical problems. We will initiate the…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This unit is an introduction to a range of concepts that are fundamental to understanding electrical theory. Students will develop their understanding of electrical circuits and circuit analysis through lectures and laboratory work. Students are provided with the opportunity to…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Engineers come across many different materials in their daily activities. This unit is designed to provide the students with the level of knowledge required for understanding engineering materials. JEE125 Materials Technology provides understanding of the chemistry, metallurgy and properties of…

Credit Points: 12.5

This unit is currently unavailable.

The unit aims at developing the students' conceptual understanding and problem solving skills required to determine and identify various machine motions, and their force and torque effects, particularly in terms of kinematics and kinetics of rotating and translating rigid members,…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

  
  

YEAR 2

Semester 1

This is the foundation unit in the study of structures. By applying the knowledge gained in Statics and combining it with the concepts gained in Materials Technology the students are introduced to fundamental theories and techniques required to analyse the…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit provides students with knowledge of the fundamental concepts of statical stability and trim of intact and damaged floating structures and the associated practical implications and applications within a regulated environment.This is a unit pivotal to an adequate knowledge…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit builds on foundations laid in first year core units Mathematics I and II giving extensive treatment of some of the more advanced areas of mathematics that have applications in engineering, particularly as tools for computer-based modelling, analysis and…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit provides an introduction to the ocean environment and the role of maritime engineers in the design of maritime infrastructure. The unit covers essential elementary knowledge of marine sciences, types of marine crafts and maritime structures, marine systems, and…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

    

Semester 2

The design and analysis of engineering fluid systems and marine vehicles require the knowledge of the principles and behaviour of moving and stationary fluids. This unit provide students with knowledge and understanding of fluid flow phenomena via flow visualization, theory…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Energy is one of the 21st century's biggest engineering issues, and thermodynamics (the science of energy) will play a key role in understanding the energy needs. JEE223 Thermal Engineering is a foundation unit designed to introduce the laws and concepts…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

The objective of this unit is to provide students with the skills to ensure that their engineering projects are thoroughly planned, well managed and successful. Technical, financial and managerial skills will be learned, where possible using relevant case studies. As…

Credit Points: 12.5

This unit is currently unavailable.

The aim of this unit is to provide students with general skills and knowledge on the range of engineering operational activities in the offshore and near shore sectors.The scope of the unit encompasses the essential theories or marine scienceand working…

Credit Points: 12.5

This unit is currently unavailable.

  
  

YEAR 3

Semester 1

The design and operation of instrumentation and process control systems in marine and offshore industries require the knowledge of the principles and performance of their components. This unit provides students with knowledge of: basic theories and understanding of sensors, signal…

Credit Points: 12.5

This unit is currently unavailable.

The unit facilitates the translation of theory learned across a range of prior and concurrent subjects within the Bachelor Degree course into practical application via hands-on projects conducted at sea aboard the AMC 35-metre vessel Bluefin. Additionally, students will be…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Oil and gas production involves a number of surface unit operations between the wellhead and the point of custody transfer or transport from the production facilities. The present unit is designed to introduce offshore oil and gas production/processing operations. You…

Credit Points: 12.5

This unit is currently unavailable.

This unit applies thermodynamic principles to more advanced systems. Students will develop an advanced understanding of energy conversion systems, with emphasis on energy efficiency. Systems studied will include liquefaction, compression, air conditioning and combustion. Advanced Second Law analysis is used…

Credit Points: 12.5

This unit is currently unavailable.

    

Semester 2

Finite Element Analysis is an advanced unit that introduces the student to the theory and application of the Finite Element Method in engineering analysis and design. In addition to learning the theoretical bases of the finite element method, the student…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Mechanics of Marine Machinery (JEE458) is a foundation unit in the study of mechanical design. By applying the knowledge gained in Dynamics and combining it with the concepts gained in Marine Engineering and Mechanics of Solids, the students are introduced…

Credit Points: 12.5

This unit is currently unavailable.

The purpose of this unit is to develop engineering ability for system level design and commissioning of electrical powering and systems within marine and offshore sectors. The unit focuses on estimation of plant power electrical loads, electrical machines, electrical distribution…

Credit Points: 12.5

This unit is currently unavailable.

Student Elective* (12.5%)
  
  

YEAR 4

Semester 1

This unit provides students with knowledge of instrumentation and control control systems and helps students develop practical skills in operation, modelling, design, simulation and analysis of control systems and their components commonly used in maritime industries.…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit is an individual research project conducted over two semesters in the final year of the course. The student conducts a research project in a relevant topic of their choice, and produces a high quality written report on this…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This is the capstone design unit for all three Maritime Engineering degrees (Naval Architecture; Ocean Engineering; Marine and Offshore Engineering). This unit consolidates the knowledge and capabilities developed throughout the previous years of study. Maritime Engineering design involves complex solutions…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit provides students with knowledge and skills required to analyse and design marine thermo-fluid engineering equipment. A problem-based learning approach is used through two design projects to provide real engineering design tasks. Students are introduced to individual component design…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

    

Semester 2

This unit is an individual research project conducted over two semesters in the final year of the course. The student conducts a research project in a relevant topic of their choice, and produces a high quality written report on this…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This is the capstone design unit for all three Maritime Engineering degrees (Naval Architecture; Ocean Engineering; Marine and Offshore Engineering). This unit consolidates the knowledge and capabilities developed throughout the previous years of study. Maritime Engineering design involves complex solutions…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Reliability Engineering is an introduction to reliability concepts; time dependent failure mechanism, physics of failure mechanism, reliability measures and assessment; reliability of components and parts; complex system reliability, physical reliability model, maintainability and availability analysis; and field reliability assessment. The…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Student Elective* (12.5%)  
  
* Student electives can also be undertaken in Winter/Spring/Summer semesters, subject to availability. Please contact the AMC Faculty Office if you need advice when selecting your student electives - AMC.Courseinfo@utas.edu.au.

YEAR 1

Semester 1

The unit is primarily designed for students to develop basic to intermediate computer-based skills to solve maritime engineering problems using MATLAB. The emphasis is on developing solution algorithms, implementing these with computer programming, and presenting results in a clear and…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This first year mathematics unit provides a broad introduction to the fundamental mathematical operations and methods (differentiation, integration and partial differentiation) and mathematical objects (vectors) needed in engineering and science. We initiate themes of mathematical modelling which are most important…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This course is designed to give students an overview of engineering design, creativity, visualisation, expression and technical communication using oral and written skills. It provides an introduction to graphical communication using manual sketching and computer-aided drafting. Topics include problem formulation,…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

The main objective of JEE135 Statics is to develop the student's ability to analyse engineering problems, related to objects at rest or moving at constant velocity, in a simple and logical manner by applying physics principles. Specific topics include vector…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

    

Semester 2

This first year mathematics unit builds on the fundamentals learnt in Mathematics I and provides students of science and engineering an introduction to those areas of mathematics which are most important in connection with practical problems. We will initiate the…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This unit is an introduction to a range of concepts that are fundamental to understanding electrical theory. Students will develop their understanding of electrical circuits and circuit analysis through lectures and laboratory work. Students are provided with the opportunity to…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Engineers come across many different materials in their daily activities. This unit is designed to provide the students with the level of knowledge required for understanding engineering materials. JEE125 Materials Technology provides understanding of the chemistry, metallurgy and properties of…

Credit Points: 12.5

This unit is currently unavailable.

The unit aims at developing the students' conceptual understanding and problem solving skills required to determine and identify various machine motions, and their force and torque effects, particularly in terms of kinematics and kinetics of rotating and translating rigid members,…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

  
    

YEAR 2

Semester 1

This is the foundation unit in the study of structures. By applying the knowledge gained in Statics and combining it with the concepts gained in Materials Technology the students are introduced to fundamental theories and techniques required to analyse the…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit provides students with knowledge of the fundamental concepts of statical stability and trim of intact and damaged floating structures and the associated practical implications and applications within a regulated environment.This is a unit pivotal to an adequate knowledge…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit builds on foundations laid in first year core units Mathematics I and II giving extensive treatment of some of the more advanced areas of mathematics that have applications in engineering, particularly as tools for computer-based modelling, analysis and…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit provides an introduction to the ocean environment and the role of maritime engineers in the design of maritime infrastructure. The unit covers essential elementary knowledge of marine sciences, types of marine crafts and maritime structures, marine systems, and…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

   

Semester 2

The design and analysis of engineering fluid systems and marine vehicles require the knowledge of the principles and behaviour of moving and stationary fluids. This unit provide students with knowledge and understanding of fluid flow phenomena via flow visualization, theory…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Energy is one of the 21st century's biggest engineering issues, and thermodynamics (the science of energy) will play a key role in understanding the energy needs. JEE223 Thermal Engineering is a foundation unit designed to introduce the laws and concepts…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

The objective of this unit is to provide students with the skills to ensure that their engineering projects are thoroughly planned, well managed and successful. Technical, financial and managerial skills will be learned, where possible using relevant case studies. As…

Credit Points: 12.5

This unit is currently unavailable.

The unit provides an introduction to fundamental aspects of the rational engineering approach to, and issues which influence, the design of small motorized and sailing craft. The unit introduces the student to the overall philosophy and techniques involved in the…

Credit Points: 12.5

This unit is currently unavailable.

  
  

YEAR 3

Semester 1

The design and operation of instrumentation and process control systems in marine and offshore industries require the knowledge of the principles and performance of their components. This unit provides students with knowledge of: basic theories and understanding of sensors, signal…

Credit Points: 12.5

This unit is currently unavailable.

This unit provides an understanding and working knowledge of resistance and propulsion of ships. Experimental and theoretical methods are covered with an emphasis on application to design. Students are shown the theory behind these methods and are required to demonstrate…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

The unit facilitates the translation of theory learned across a range of prior and concurrent subjects within the Bachelor Degree course into practical application via hands-on projects conducted at sea aboard the AMC 35-metre vessel Bluefin. Additionally, students will be…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This unit applies thermodynamic principles to more advanced systems. Students will develop an advanced understanding of energy conversion systems, with emphasis on energy efficiency. Systems studied will include liquefaction, compression, air conditioning and combustion. Advanced Second Law analysis is used…

Credit Points: 12.5

This unit is currently unavailable.

    

Semester 2

Finite Element Analysis is an advanced unit that introduces the student to the theory and application of the Finite Element Method in engineering analysis and design. In addition to learning the theoretical bases of the finite element method, the student…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Mechanics of Marine Machinery (JEE458) is a foundation unit in the study of mechanical design. By applying the knowledge gained in Dynamics and combining it with the concepts gained in Marine Engineering and Mechanics of Solids, the students are introduced…

Credit Points: 12.5

This unit is currently unavailable.

The purpose of this unit is to develop engineering ability for system level design and commissioning of electrical powering and systems within marine and offshore sectors. The unit focuses on estimation of plant power electrical loads, electrical machines, electrical distribution…

Credit Points: 12.5

This unit is currently unavailable.

Student Elective* (12.5%)  
  
  

YEAR 4

Semester 1

This unit provides students with knowledge of instrumentation and control control systems and helps students develop practical skills in operation, modelling, design, simulation and analysis of control systems and their components commonly used in maritime industries.…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit is an individual research project conducted over two semesters in the final year of the course. The student conducts a research project in a relevant topic of their choice, and produces a high quality written report on this…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This is the capstone design unit for all three Maritime Engineering degrees (Naval Architecture; Ocean Engineering; Marine and Offshore Engineering). This unit consolidates the knowledge and capabilities developed throughout the previous years of study. Maritime Engineering design involves complex solutions…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

This unit provides students with knowledge and skills required to analyse and design marine thermo-fluid engineering equipment. A problem-based learning approach is used through two design projects to provide real engineering design tasks. Students are introduced to individual component design…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1

Key: On-campus    Off-Campus    International students    Domestic students

    

Semester 2

This unit is an individual research project conducted over two semesters in the final year of the course. The student conducts a research project in a relevant topic of their choice, and produces a high quality written report on this…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 1
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

This is the capstone design unit for all three Maritime Engineering degrees (Naval Architecture; Ocean Engineering; Marine and Offshore Engineering). This unit consolidates the knowledge and capabilities developed throughout the previous years of study. Maritime Engineering design involves complex solutions…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Reliability Engineering is an introduction to reliability concepts; time dependent failure mechanism, physics of failure mechanism, reliability measures and assessment; reliability of components and parts; complex system reliability, physical reliability model, maintainability and availability analysis; and field reliability assessment. The…

Credit Points: 12.5

LocationStudy periodAttendance optionsAvailable to
LauncestonSemester 2

Key: On-campus    Off-Campus    International students    Domestic students

Student Elective* (12.5%)
  
* Student electives can also be undertaken in Winter/Spring/Summer semesters, subject to availability.  Please contact the AMC Faculty Office if you need advice when selecting your student electives - AMC.Courseinfo@utas.edu.au.

Work Experience

As part of the course of study, students must complete at least 12 weeks of work experience considered to be appropriate by the Bachelor of Engineering Courses Committee. 

Entry requirements

Prospective students must meet AMC/UTAS undergraduate general entry requirements:  http://www.utas.edu.au/admissions/undergraduate/admission-requirements

Entry requirements for all Maritime Engineering courses are as follows:

Minimum Australian Tertiary Entrance Ranking (ATAR):  70

Potential students must have completed middle to upper level Maths and a Science subject (Physics or Chemistry recommended).

TasmaniaMaths Methods and a Science subject
VictoriaMaths Methods and a Science subject
New South WalesMaths (2-unit) or Maths Ex 1 and a Science subject
QueenslandMaths B  and a Science subject
South Australia / Northern TerritoryMaths Studies and a Science subject
Australian Capital TerritoryMaths 3C/3D and a Science subject
International BaccelaureatMaths and a Science subject
New ZealandNCEA Level 3 with Calculus and a Science subject

Domestic students who do not meet the entry requirements may undertake the Bachelor of General Studies (Engineering Pathway).

International students who do not meet the entry requirements may undertake the Foundation Studies Program (FSP).

Please note that Semester 2 commencement is available only to applicants who are eligible for advanced standing based on previous study in an equivalent engineering programme, and with permission from the Deputy Director of Learning and Teaching, NCMEH.

For further information, please contact AMC.Courseinfo.edu.au.

Fees & scholarships

Domestic students

Domestic students enrolled in a full fee paying place are charged the Student Services and Amenities Fee but this fee is incorporated in the fees you pay for each unit you enrol in. Full fee paying domestic students do not have to make any additional SSAF payments.

Domestic students enrolled in a Commonwealth supported place will be charged a fee based on the number of units they enrol in. In 2019, this fee is $45.45 per unit (of 12.5 credit points). In 2019, the maximum charge for full time students is $303.

International students

2019 Total Course Fee (international students): $155,953 AUD*.

Course cost based on a rate of $37,000 AUD per standard, full-time year of study (100 credit points).

* Please note that this is an indicative fee only.

International students

International students are charged the Student Services and Amenities Fee but this fee is incorporated in the annual rate. International students do not have to make any additional SSAF payments.

Scholarships

There are a number of Scholarships on offer from the Australian Maritime College.  For details, please visit the AMC Scholarships website.

Additional costs

How can we help?

Do you have any questions about choosing a course or applying? Get in touch.

Domestic
1300 363 864
International
+61 3 6226 6200
Email
Course.Info@utas.edu.au
Online
Online enquiries

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