-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=IT10&courseID=26122.
CRICOS No.00213J
University Diploma in Information Technology
Year 2014
QUT code IT10
Duration(full-timeinternational)
1 year
OP 14
Rank 70
International fee(indicative)
2014: $8,773 per StudyPeriod (48 credit points)
Total creditpoints
96
Credit pointsfull-time sem.
48
CourseCoordinator
Ken Beutel([email protected])
DisciplineCoordinator
International EntryrequirementsTo be accepted into the program
youmust have successfully completed seniorhigh school with the
required grades. Youmust also have relevant
vocationalexperience.
International Subjectprerequisites
English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary studies.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 5.0
writing 5.0
reading 5.0
listening 5.0
overall 5.5
QUT International CollegeInternational students may upgrade to
theQUT Bachelor of Information Technologythrough QUT International
College at ourKelvin Grove campus.
The University Diploma in InformationTechnology is equivalent to
twosemesters of the Bachelor of InformationTechnology degree with a
total of 96credit points (48 standard credit points fora full-time
semester).
In the University Diploma program,students study six degree core
units aswell as two English language units thathave been designed
to support the othercore units.
Progression to the Bachelorof Information TechnologyStudents who
successfully completethese eight units with a grade pointaverage of
4 (on a 7-point scale) andobtain a grade of at least 4 in
ProfessionalCommunication 2 are given twosemesters full-time
advanced standingtowards their degree and are guaranteeda place in
the Bachelor of InformationTechnology.
Students who complete the UniversityDiploma in Information
Technology are
also eligible for 96 credit points towardsthe Bachelor of
Corporate SystemsManagement and Bachelor of Games andInteractive
Entertainment.
International CoursestructureUniversity Diploma inInformation
Technology units
Databases●Building IT Systems●Emerging Technology●Industry
Insights●Programming●Networks●Professional Communication
1●Professional Communication 2●
Extension English SessionsFor first-semester students,
thesesessions take place during weeks two toeight. Other QUTIC
students in UniversityEntry Programs may join the sessions, iftheir
timetable permits. The aims ofExtension English are to improve
thestudent’s English language proficiency inspeaking, listening and
overall writingability in a relaxed environment.
In addition to developing these languageskills, students have
the opportunity todiscuss cultural issues and ask questionsabout
studying at university.
Sample StructureCode Title
Semester One
IND102 Emerging Technology
IND104 Building IT Systems
IND210 Databases
QCD120 Professional Communication 1
NOTE: IND102 & IND210 are offered inALTERNATE semesters
Semester Two
IND103 Industry Insights
IND251 Networks
IND270 Programming
QCD220 Professional Communication 2
NOTE: IND103 & IND251 are offered inALTERNATE semesters
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=IT10&courseID=26122.
CRICOS No.00213J
http://www.student.qut.edu.au/studying/courses/course?courseCode=IT10&courseID=26122
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EE41&courseID=26072.
CRICOS No.00213J
Bachelor of Engineering (Electrical and Computer
Engineering)
Year 2014
QUT code EE41
Duration(full-time)
4 years
Rank 80
OP Guarantee Yes
Campus Gardens Point
Total creditpoints
384
Credit pointsfull-time sem.
48
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Dr Bouchra Senadji
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.5
Special NoteThis course has been discontinued. Anyremaining
students should seek advicefrom the Course Coordinator
regardingtheir remaining course program.
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EE41&courseID=26072.
CRICOS No.00213J
http://www.student.qut.edu.au/studying/courses/course?courseCode=EE41&courseID=26072
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26073.
CRICOS No.00213J
Bachelor of Engineering
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given for allprimary majors in
this course. In addition,Software Engineering also has
fullprofessional accreditation with theAustralian Computer
Society.
Second MajorsDepending on your choice of primarymajor, you may
have the opportunity toundertake a second major or two minors.A
second major is an established set ofeight units (96 credit points)
in the samediscipline. A minor is an established set offour units
(48 credit points) in the samediscipline or from anywhere in
theUniversity. You will select your primarymajor, second major
and/or minors afterthe completion of your first year.
HonoursEN40 students who meet GPArequirements are eligible to be
awarded
Bachelor of Engineering with Honours.The Honours GPA
requirements are setout in MOPP – 5.2.5 Grading system –awards with
honours and bachelorhonours degrees.
Special CourseRequirementsA candidate for the degree of Bachelor
ofEngineering must obtain at least 60 daysof industrial
experience/practice in anengineering environment as approved bythe
course coordinator.
International Student EntryInternational students must maintain
anenrolment program that will allow them tocomplete their course
within the specifiedtimeframe of their eCoE (electronicConfirmation
of Enrolment).
Sample StructureCode Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26073.
CRICOS No.00213J
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26073http://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdoc
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26074.
CRICOS No.00213J
Bachelor of Engineering (Aerospace Avionics)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Dr Felipe Gonzalez
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
HonoursEN40 students who meet GPArequirements are eligible to be
awardedBachelor of Engineering with Honours.The Honours GPA
requirements are setout in MOPP – 5.2.5 Grading system –awards with
honours and bachelorhonours degrees.
Special CourseRequirementsStudents must complete 60 daysapproved
industrial experience in anengineering environment, including
10days specialist experience in the avionicsindustry as part of the
Work IntegratedLearning unit.
International Student EntryInternational students must maintain
anenrolment program that will allow them tocomplete their course
within the specifiedtimeframe of their eCoE (electronicConfirmation
of Enrolment).
Domestic Course structureWork Integrated Learning unitStudents
must complete 60 daysapproved industrial experience in
anengineering environment, including 10days specialist experience
in the avionicsindustry as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundation
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2A solid grounding in the basic terminologyand work
practices commonly employedin the aerospace industry provide
anunderstanding of air, spacecraft flightcontrol principles and
safety aspects ofaviation. Exciting wind tunnel tests
andunderstanding of Mach number effects,fundamentals of aircraft
performance,estimating range and endurance, take offand landing
calculations and lightenvelopes also feature.
Year 3Emphasis on the flight control systems ofmodern aircraft,
which is one of theprimary subsystems. You are introducedto methods
for modelling the dynamicbehaviour of aircraft, missiles
andspacecraft, and criteria for stability.Systems engineering
methodologies andtechniques are applied to aerospaceengineering
projects such as design andoperation of a fully autonomous micro
airvehicle or rocket.
Year 4Advanced concepts such as spacecraftguidance and
navigation, orbit andaltitude determination, dynamics for lowearth
satellites and also the dynamics ofrocket ascent trajectories.
Relevant RFand applied electromagnetic aerospaceradio radar systems
and navigationsystems for aircraft are explored. You
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26074http://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdoc
-
Bachelor of Engineering (Aerospace Avionics)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26074.
CRICOS No.00213J
undertake a one-year project and workintegrated learning.
International CoursestructureWork Integrated Learning
unitStudents must complete 60 daysapproved industrial experience in
anengineering environment, including 10days specialist experience
in the avionicsindustry as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundation
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2A solid grounding in the basic terminologyand work
practices commonly employedin the aerospace industry provide
anunderstanding of air, spacecraft flightcontrol principles and
safety aspects ofaviation. Exciting wind tunnel tests
andunderstanding of Mach number effects,fundamentals of aircraft
performance,estimating range and endurance, take offand landing
calculations and lightenvelopes also feature.
Year 3Emphasis on the flight control systems ofmodern aircraft,
which is one of theprimary subsystems. You are introducedto methods
for modelling the dynamicbehaviour of aircraft, missiles
andspacecraft, and criteria for stability.Systems engineering
methodologies andtechniques are applied to aerospaceengineering
projects such as design andoperation of a fully autonomous micro
airvehicle or rocket.
Year 4Advanced concepts such as spacecraftguidance and
navigation, orbit andaltitude determination, dynamics for lowearth
satellites and also the dynamics ofrocket ascent trajectories.
Relevant RFand applied electromagnetic aerospaceradio radar systems
and navigationsystems for aircraft are explored. Youundertake a
one-year project and workintegrated learning.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Year 4 -
Semester 1●Year 4 - Semester 2●Aerospace Avionics Selectives●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB240 Introduction To Electronics
ENB246 Engineering Problem Solving
ENB250 Electrical Circuits
MAB127 Mathematics for Engineering 2
OR
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB121 Aerodynamics
ENB242 Introduction To Telecommunications
ENB243 Linear Circuits and Systems
CAB202 Microprocessors and Digital Systems
(ENB244 replaced by CAB202 in 2014.)
Year 3 - Semester 1
ENB241 Software Systems Design
ENB342 Signals, Systems and Transforms
ENB348 Aircraft Systems and Flight Control
ENB354 Introduction To Systems Design
Year 3 - Semester 2
ENB343 Fields, Transmission and Propagation
ENB347 Modern Flight Control Systems
ENB355 Advanced Systems Design
MAB233 Engineering Mathematics 3
OR
Selective
Year 4 - Semester 1
BEB801 Project 1
ENB346 Digital Communications
ENB440RF Techniques and ModernApplications
ENB451 Aerospace Radio and Radar Systems
Year 4 - Semester 2
SEB701 Work Integrated Learning 1
(BEB701 replaced by SEB701 in 2014.)
BEB802 Project 2
ENB357 Spacecraft Dynamics and Control
ENB447 Navigation Systems For Aircraft
Aerospace Avionics Selectives
ENB344 Industrial Electronics
ENB441 Applied Image Processing
ENB448 Signal Processing and Filtering
INB270 Programming
ENB457 Controls, Systems and Applications
[Note: ENB457 require Subject Area Coordinatorapproval]
NOTE: other units subject to approval of SubjectArea
Coordinator
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26074.
CRICOS No.00213J
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26076.
CRICOS No.00213J
Bachelor of Engineering (Civil and Construction)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Prof Manicka Dhanasekar
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
Special CourseRequirementsA candidate for the degree of Bachelor
ofEngineering (Civil and Construction) mustcomplete at least 60
days of industrialexperience/ practice in an
engineeringconstruction environment as part of theWork Integrated
Learning unit.
Second Majors and MinorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
CIVIL AND CONSTRUCTIONENGINEERING Second Major andMinor
OptionsSecond Major:Civil Infrastructure
Minors:Civil and Construction Engineering minorplusA minor from
anywhere in QUT that isoutside of the course. (see UniversityWide
Minors)
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
International Student EntryInternational students who are
interestedin mid-year entry should consult theFaculty of Built
Environment andEngineering Student Services sectionregarding the
course structure to beundertaken.
International students must maintain anenrolment program that
will allow them tocomplete their course within the
specifiedtimeframe of their eCoE (electronicConfirmation of
Enrolment).
Domestic Course structureWork Integrated Learning unitBachelor
of Engineering students arerequired to complete at least 60 days
ofindustrial experience in an engineeringenvironment approved by
the coursecoordinator as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2Apply knowledge of fundamentalengineering science in
design areas oftimber and concrete construction. Exploretheoretical
aspects of geotechnical andmaterials engineering. Your
theoreticalunderstanding is reinforced by practicalexperience in
our laboratories. Developskills in construction administration
andproject management. Engineeringstatistics mathematical skills
also helpyour understanding of all aspects ofengineering
design.
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26076http://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.student.qut.edu.au/studying/units/university-wide-minors
-
Bachelor of Engineering (Civil and Construction)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26076.
CRICOS No.00213J
Year 3Increase your knowledge and skills ingeotechnical
engineering, constructionmanagement, law and other
relatedconstruction practices. Explore steelconstruction. Continue
to developcommunication and organisational skillsby writing
reports, presenting seminarsand working in small groups. Choose
asecond study area.
Year 4Build on your third year to complete yoursecond study
area. Undertake a majorproject which will bring together all
yourpreviously mastered skills, and advanceyour communication
skills in report writingand seminar presentation. You alsocomplete
your work integrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Electrical engineering second major andminor options
Second major:Civil Infrastructure●
Minors:Civil and Construction Engineeringminor
●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
International CoursestructureWork Integrated Learning
unitBachelor of Engineering students arerequired to complete at
least 60 days ofindustrial experience in an engineeringenvironment
approved by the coursecoordinator as part of the Work
IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineering
materials. These units provide a strong,fundamental overview of
the threeengineering streams: civil, electrical andmechanical.
Year 2Apply knowledge of fundamentalengineering science in
design areas oftimber and concrete construction. Exploretheoretical
aspects of geotechnical andmaterials engineering. Your
theoreticalunderstanding is reinforced by practicalexperience in
our laboratories. Developskills in construction administration
andproject management. Engineeringstatistics mathematical skills
also helpyour understanding of all aspects ofengineering
design.
Year 3Increase your knowledge and skills ingeotechnical
engineering, constructionmanagement, law and other
relatedconstruction practices. Explore steelconstruction. Continue
to developcommunication and organisational skillsby writing
reports, presenting seminarsand working in small groups. Choose
asecond study area.
Year 4Build on your third year to complete yoursecond study
area. Undertake a majorproject which will bring together all
yourpreviously mastered skills, and advanceyour communication
skills in report writingand seminar presentation. You alsocomplete
your work integrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Electrical engineering second major andminor options
Second major:Civil Infrastructure●
Minors:Civil and Construction Engineeringminor
●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Year 4 -
Semester 1●Year 4 - Semester 2●Civil and Construction
EngineeringSelectives
●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB270 Engineering Mechanics of Materials
ENB272 Geotechnical Engineering 1
ENB273 Civil Materials
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB275 Project Engineering 1
ENB276 Structural Engineering 1
ENB280 Hydraulic Engineering
UDB214 Professional Studies 2
Year 3 - Semester 1
ENB277 Construction Engineering Law
ENB375 Structural Engineering 2
ENB381 Civil Engineering Construction
UDB312 Contract Administration
Year 3 - Semester 2
ENB371 Geotechnical Engineering 2
ENB373Design and Construction of SteelStructures
[Note: If you are unable to locate ENB373 under theMajor in your
Study Plan, the core unit has beenshifted into either the Civil
& Construction minor orin one of the Civil & Construction
second majors.Please select the minor or one of the second majorto
enrol in the unit.]
ENB382 Estimating in Engineering Construction
Second Major/Minor unit
Year 4 - Semester 1
BEB801 Project 1
ENB471Design of Concrete Structures andFoundations
[Note: If you are unable to locate ENB471 under theMajor in your
Study Plan, the core unit has beenshifted into either the Civil
& Construction minor orin one of the Civil & Construction
second majors.Please select the minor or one of the second majorto
enrol in the unit.]
http://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minorshttp://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minors
-
Bachelor of Engineering (Civil and Construction)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26076.
CRICOS No.00213J
Second Major/Minor unit
Second Major/Minor unit
Year 4 - Semester 2
SEB701 Work Integrated Learning 1
ENB481 Civil Engineering Project Management
Second Major/Minor unit
Selective
Civil and Construction Engineering Selectives
BEB802 Project 2
ENB376 Transport Engineering
ENB477 Facade Engineering
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26076.
CRICOS No.00213J
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26077.
CRICOS No.00213J
Bachelor of Engineering (Civil and Environmental)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Prof Manicka Dhanasekar
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
International Student EntryInternational students must maintain
anenrolment program that will allow them tocomplete their course
within the specifiedtimeframe of their eCoE (electronicConfirmation
of Enrolment).
Special CourseRequirementsA candidate for the degree of Bachelor
ofEngineering (Civil and Environmental)must obtain at least 60 days
of industrialexperience/practice in an engineeringenvironment as
part of the WorkIntegrated Learning unit.
Domestic Course structure
Work Integrated Learning unitBachelor of Engineering students
arerequired to complete at least 60 days ofindustrial experience in
an engineeringenvironment approved by the coursecoordinator as part
of the Work IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2Apply your knowledge of fundamentalengineering science in
design areas ofconcrete construction. Explore thetheoretical
aspects of geotechnical, fluidsand sustainable engineering.
Yourtheoretical understanding is reinforced bypractical experience
in our laboratories.Engineering statistics mathematical skillsalso
help your understanding of allaspects of engineering design.
Year 3Increase your knowledge and skills ingeotechnical and
water engineering, andexplore steel construction, highway
andtransport engineering. You are alsointroduced to environmental
studiesrelating to population, resourcemanagement and environmental
law.Continue to develop communication andorganisational skills by
writing reports,presenting seminars and working in smallgroups.
Year 4Building on your third year by completinga major project
which may be industrybased will bring together all yourpreviously
mastered skills, and advanceyour communication skills in report
writingand seminar presentation. You alsocomplete work integrated
learning. Thereare also additional electives to choosefrom.
International CoursestructureWork Integrated Learning
unitBachelor of Engineering students arerequired to complete at
least 60 days ofindustrial experience in an engineeringenvironment
approved by the course
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26077
-
Bachelor of Engineering (Civil and Environmental)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26077.
CRICOS No.00213J
coordinator as part of the Work IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2Apply your knowledge of fundamentalengineering science in
design areas ofconcrete construction. Explore thetheoretical
aspects of geotechnical, fluidsand sustainable engineering.
Yourtheoretical understanding is reinforced bypractical experience
in our laboratories.Engineering statistics mathematical skillsalso
help your understanding of allaspects of engineering design.
Year 3Increase your knowledge and skills ingeotechnical and
water engineering, andexplore steel construction, highway
andtransport engineering. You are alsointroduced to environmental
studiesrelating to population, resourcemanagement and environmental
law.Continue to develop communication andorganisational skills by
writing reports,presenting seminars and working in smallgroups.
Year 4Building on your third year by completinga major project
which may be industrybased will bring together all yourpreviously
mastered skills, and advanceyour communication skills in report
writingand seminar presentation. You alsocomplete work integrated
learning. Thereare also additional electives to choosefrom.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Year 4 -
Semester 1●Year 4 - Semester 2●Civil and Environmental
EngineeringSelectives
●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB270 Engineering Mechanics of Materials
ENB272 Geotechnical Engineering 1
ENB273 Civil Materials
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB274Design of Environmentally SustainableSystems
ENB275 Project Engineering 1
ENB276 Structural Engineering 1
ENB280 Hydraulic Engineering
Year 3 - Semester 1
ENB372 Design and Planning of Highways
ENB378 Water Engineering
ENB383 Environmental Resource Management
NQB302 Earth Surface Systems
OR - from 2014 NQB302 is replaced by:
EVB201 Global Environmental Issues
OR
NQB314 Sedimentary Geology
OR - from 2014 NQB314 is replaced by:
ERB202 Marine Geoscience
Year 3 - Semester 2
ENB371 Geotechnical Engineering 2
ENB376 Transport Engineering
ENB380 Environmental Law and Assessment
Selective
Year 4 - Semester 1
BEB801 Project 1
PQB360Global Energy Balance and ClimateChange
UDB266 Planning Processes and Consultations
Selective
Year 4 - Semester 2
SEB701 Work Integrated Learning 1
ENB377Water and Waste Water TreatmentEngineering
UDB370Environmental Planning andManagement
NQB403 Soils and the Environment
OR - from 2014 NQB403 is replaced by either:
EVB204 Land Resource Assessment
or EVB204 alternate unit -
EVB212 Soils and the Environment
OR NQB403/EVB204/EVB212 alternate unit -
NQB614 Groundwater Systems
Civil and Environmental Engineering Selectives
BEB802 Project 2
ENB379Transport Engineering and PlanningApplications
ENB474 Finite Element Methods
ENB476 Civil Engineering Design Project
ENB478 Advanced Water Engineering
ENB481 Civil Engineering Project Management
ENB485Advanced Geotechnical EngineeringPractice
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26077.
CRICOS No.00213J
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26075.
CRICOS No.00213J
Bachelor of Engineering (Civil)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Prof Manicka Dhanasekar
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
Second Majors and MinorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
CIVIL ENGINEERING Second Majorand Minor OptionsSecond
Major:Structural EngineeringTransport Engineering and
PlanningMinors:Civil Engineering minorplusA minor from anywhere in
QUT that isoutside of the course. (see UniversityWide Minors)
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required for
professional recognition and were oncepart of an applications
minor have nowbeen moved to the core of theEngineering course.
Special CourseRequirementsA candidate for the degree of Bachelor
ofEngineering (Civil) must obtain at least 60days of industrial
experience/practice inan engineering environment as part of theWork
Integrated Learning unit.
HonoursEN40 students who meet GPArequirements are eligible to be
awardedBachelor of Engineering with Honours.The Honours GPA
requirements are setout in MOPP – 5.2.5 Grading system –awards with
honours and bachelorhonours degrees.
International Student EntryInternational students must maintain
anenrolment program that will allow them tocomplete their course
within the specifiedtimeframe of their eCoE (electronicConfirmation
of Enrolment).
Domestic Course structureWork Integrated Learning unitBachelor
of Engineering students arerequired to complete at least 60 days
ofindustrial experience in an engineeringenvironment approved by
the coursecoordinator as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2Apply knowledge of fundamentalengineering science in
design areas oftimber and concrete construction, andbegin to
explore theoretical aspects ofgeotechnical, fluids and
sustainableengineering. Your theoreticalunderstanding is reinforced
by practicalexperience in our laboratories.Engineering statistics
mathematical skillsalso help your understanding of allaspects of
engineering design.
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26075http://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdoc
-
Bachelor of Engineering (Civil)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26075.
CRICOS No.00213J
Year 3Increase your knowledge and skills ingeotechnical and
water engineering.Explore steel construction, highway andtransport
engineering. Further developcommunication and organisational
skillsby writing reports, presenting seminarsand working in small
groups. Choose yoursecond study area.
Year 4Build on your third year to complete yoursecond study
area. Undertake a majorproject which will bring together all
yourpreviously mastered skills, and advanceyour communication
skills in report writingand seminar presentation. You alsocomplete
work integrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Civil engineering second majorand minor optionsSecond Major:
Structural Engineering●Transport Engineering and Planning●
Minors:Civil Engineering minor●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
International CoursestructureWork Integrated Learning
unitBachelor of Engineering students arerequired to complete at
least 60 days ofindustrial experience in an engineeringenvironment
approved by the coursecoordinator as part of the Work
IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,
fundamental overview of the threeengineering streams: civil,
electrical andmechanical.
Year 2Apply knowledge of fundamentalengineering science in
design areas oftimber and concrete construction, andbegin to
explore theoretical aspects ofgeotechnical, fluids and
sustainableengineering. Your theoreticalunderstanding is reinforced
by practicalexperience in our laboratories.Engineering statistics
mathematical skillsalso help your understanding of allaspects of
engineering design.
Year 3Increase your knowledge and skills ingeotechnical and
water engineering.Explore steel construction, highway andtransport
engineering. Further developcommunication and organisational
skillsby writing reports, presenting seminarsand working in small
groups. Choose yoursecond study area.
Year 4Build on your third year to complete yoursecond study
area. Undertake a majorproject which will bring together all
yourpreviously mastered skills, and advanceyour communication
skills in report writingand seminar presentation. You alsocomplete
work integrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Civil engineering second majorand minor optionsSecond Major:
Structural Engineering●Transport Engineering and Planning●
Minors:Civil Engineering minor●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Year 4 -
Semester 1●Year 4 - Semester 2●Civil Engineering Selectives●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB270 Engineering Mechanics of Materials
ENB272 Geotechnical Engineering 1
ENB273 Civil Materials
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB274Design of Environmentally SustainableSystems
ENB275 Project Engineering 1
ENB276 Structural Engineering 1
ENB280 Hydraulic Engineering
Year 3 - Semester 1
ENB372 Design and Planning of Highways
ENB375 Structural Engineering 2
ENB378 Water Engineering
Second Major/Minor unit
Year 3 - Semester 2
ENB371 Geotechnical Engineering 2
ENB376 Transport Engineering
ENB377Water and Waste Water TreatmentEngineering
Second Major/Minor unit
Year 4 - Semester 1
SEB701 Work Integrated Learning 1
BEB801 Project 1
ENB471Design of Concrete Structures andFoundations
[Note: If you are unable to locate ENB471 under theMajor in your
Study Plan, the core unit has beenshifted into either the Civil
minor (EN40STR-MINCVLX) or in one of the Civil second majors.Please
select the minor or one of the second majorto enrol in the
unit.]
Second Major/Minor unit
Year 4 - Semester 2
ENB472 Project Engineering 2
http://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minorshttp://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minors
-
Bachelor of Engineering (Civil)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26075.
CRICOS No.00213J
[Note: If you are unable to locate ENB472 under theMajor in your
Study Plan, the core unit has beenshifted into either the Civil
minor (EN40STR-MINCVLX) or in one of the Civil second majors.Please
select the minor or one of the second majorto enrol in the
unit.]
ENB476 Civil Engineering Design Project
Second Major/Minor unit
Selective
Civil Engineering Selectives
BEB802 Project 2
ENB373Design and Construction of SteelStructures
ENB379Transport Engineering and PlanningApplications
ENB380 Environmental Law and Assessment
ENB383 Environmental Resource Management
ENB384 Design of Masonry Structures
ENB473Design and Construction of Multi-storey Buildings
ENB474 Finite Element Methods
ENB475 Structural Engineering 3
ENB477 Facade Engineering
ENB478 Advanced Water Engineering
ENB481 Civil Engineering Project Management
ENB485Advanced Geotechnical EngineeringPractice
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26075.
CRICOS No.00213J
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26078.
CRICOS No.00213J
Bachelor of Engineering (Computer Systems) - for continuing
students only [disc 2010]
Year 2014
QUT code EN40
Duration(full-time)
4 years
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months August
Int. Start Months August
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Dr Wayne Kelly
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.5
DiscontinuationFrom Semester 1 2010, this primarymajor has been
discontinued. A secondmajor in this discipline is currently
underdevelopment.
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
MinorsFor professional recognition you willundertake an
Applications minor whichconsists of a Work Place IntegratedLearning
unit, a project unit and twospecialised engineering units.
Special CourseRequirementsStudents must complete at least 60
daysindustrial experience as part of the WorkIntegrated Learning
unit in order tograduate.
International Student EntryInternational students must maintain
anenrolment program that will allow them tocomplete their course
within the specifiedtimeframe of their eCoE (electronicConfirmation
of Enrolment).
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Year 4 -
Semester 1●Year 4 - Semester 2●Applications Minor Selectives●
Code Title
Year 1 - Semester 1
BEB100 Introducing Professional Learning
ENB101 Engineering Mechanics 1
ENB104 Engineering Materials
MAB131 Engineering Mathematics 1A
OR
MAB180 Engineering Mathematics 1B
Year 1 - Semester 2
BEB200 Introducing Sustainability
ENB103 Electrical Engineering
MAB132 Engineering Mathematics 2A
OR
MAB182 Engineering Mathematics 2B
PCB136 Engineering Physics 1C
Year 2 - Semester 1
ENB240 Introduction To Electronics
ENB242 Introduction To Telecommunications
INB104 Building IT Systems
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB243 Linear Circuits and Systems
ENB244 Microprocessors and Digital Systems
ENB245Introduction To Design andProfessional Practice
INB270 Programming
Year 3 - Semester 1
ENB301 Instrumentation and Control
ENB342 Signals, Systems and Transforms
ENB350 Real-time Computer-based Systems
INB371 Data Structures and Algorithms
Year 3 - Semester 2
ENB345Advanced Design and ProfessionalPractice
ENB346 Digital Communications
ENB352Communication Environments ForEmbedded Systems
INB251 Networks
Year 4 - Semester 1
BEB701 Work Integrated Learning 1
BEB801 Project 1
ENB441 Applied Image Processing
Applications Minor Selective
Year 4 - Semester 2
BEB802 Project 2
ENB448 Signal Processing and Filtering
ENB458 Modern Control Systems
INB365 Systems Programming
Applications Minor Selectives
Semester 1:
INB340 Database Design
INB355 Cryptology and Protocols
INB373 Web Application Development
INB381 Modelling and Animation Techniques
Semester 2:
INB272 Interaction Design
INB374 Enterprise Software Architecture
INB382 Real Time Rendering Techniques
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26078.
CRICOS No.00213J
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26078
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26086.
CRICOS No.00213J
Bachelor of Engineering (Computer and Software Systems)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Dr Wayne Kelly
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4,SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Course OverviewThe course is a collaborative programbetween the
areas of Engineering andInformation Technology which
providesstudents with the electrical engineeringand software
development skills to seekemployment as software engineers.
Theengineering component consists ofstudies in electronic systems
engineeringwhile the information technologycomponent concentrates
on softwareengineering. These studies integrate intoa cohesive
course which gives a wide andadvanced study of modern electronic
andcomputing systems. This degreeproduces computer and
electronicengineers especially suited for thedevelopment and
application of electronicsystems and computer systems in allareas
of industry.
Career OutcomesSoftware Engineers create, maintain andmodify
computer and software programs
such as operating systems orcommunications software. They may
alsoevaluate and deploy new programmingtools and techniques and
analyse currentsoftware products. You may work in arange of
occupational environments.Software engineers can work
inEngineering/IT-specific industries, as wellas in other
organisations requiringsoftware engineering expertise.
Professional RecognitionFull professional accreditation
fromEngineers Australia and the AustralianComputer Society has been
given for thiscourse.
Special course requirementsStudents are required to complete
60days approved industrial experience aspart of the Work Integrated
Learning unit.
HonoursEN40 students who meet GPArequirements are eligible to be
awardedBachelor of Engineering with Honours.The Honours GPA
requirements are setout in MOPP – 5.2.5 Grading system –awards with
honours and bachelorhonours degrees.
Domestic Course structureWork Integrated Learning unitBachelor
of Engineering students arerequired to complete at least 60 days
ofindustrial experience in an engineeringenvironment approved by
the coursecoordinator as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2You expand your knowledge of softwaredevelopment, and
cover the fundamentalsof analogue and digital electronics, andthe
approach to writing software to solveengineering problems. A
mathematics unitis completed. Semester two expands onelectronics
circuit design, introducesfundamentals of telecommunications
andnetworking protocols, and broadenscomputer programming
skills.
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26086http://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdoc
-
Bachelor of Engineering (Computer and Software Systems)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26086.
CRICOS No.00213J
Year 3You build on your knowledge of softwareengineering
principles, covering topicssuch as formal software
engineeringprocesses with an emphasis on agilemethodologies, data
structures andalgorithms and modern softwareengineering practices.
Microprocessorsand embedded digital systems areexplored. Principles
of systemsengineering and project management areintroduced and
applied through a real-world project.
Year 4You undertake a major project which maybe industry based,
in which principles ofsoftware engineering learnt to date
arebrought together. Study also coversembedded systems and
security. Youalso have the opportunity to take one ortwo
electives.
International CoursestructureWork Integrated Learning
unitBachelor of Engineering students arerequired to complete at
least 60 days ofindustrial experience in an engineeringenvironment
approved by the coursecoordinator as part of the Work
IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2You expand your knowledge of softwaredevelopment, and
cover the fundamentalsof analogue and digital electronics, andthe
approach to writing software to solveengineering problems. A
mathematics unitis completed. Semester two expands onelectronics
circuit design, introducesfundamentals of telecommunications
andnetworking protocols, and broadenscomputer programming
skills.
Year 3You build on your knowledge of softwareengineering
principles, covering topicssuch as formal software
engineeringprocesses with an emphasis on agilemethodologies, data
structures andalgorithms and modern softwareengineering practices.
Microprocessorsand embedded digital systems are
explored. Principles of systemsengineering and project
management areintroduced and applied through a real-world
project.
Year 4You undertake a major project which maybe industry based,
in which principles ofsoftware engineering learnt to date
arebrought together. Study also coversembedded systems and
security. Youalso have the opportunity to take one ortwo
electives.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Year 4 -
Semester 1●Year 4 - Semester 2●Computer and Software
SystemsSelectives
●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB240 Introduction To Electronics
ENB246 Engineering Problem Solving
ENB250 Electrical Circuits
MAB127 Mathematics for Engineering 2
OR
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB243 Linear Circuits and Systems
IAB130 Databases
(INB210 replaced by IAB130 in 2014.)
INB251 Networks
INB270 Programming
Year 3 - Semester 1
ENB354 Introduction To Systems Design
INB301 The Business of IT
INB370 Software Development
INB371 Data Structures and Algorithms
Year 3 - Semester 2
CAB202 Microprocessors and Digital Systems
(ENB244 replaced by CAB202 in 2014.)
ENB355 Advanced Systems Design
INB365 Systems Programming
MAB233 Engineering Mathematics 3
OR
Selective
Year 4 - Semester 1
BEB801 Project 1
OR
INB309-1 Major Project
ENB350 Real-time Computer-based Systems
CAB240 Information Security
(INB255 replaced by CAB240 from 2015)
Selective
Year 4 - Semester 2
SEB701 Work Integrated Learning 1
BEB802 Project 2
OR
INB309-2 Major Project
CAB210 People Context and Technology
(INB272 replaced by CAB210 in 2014.)
INB372 Agile Software Development
Computer and Software Systems Selectives
ENB242 Introduction To Telecommunications
ENB344 Industrial Electronics
ENB352Communication Environments ForEmbedded Systems
INB340 Database Design
INB355 Cryptology and Protocols
INB373 Web Application Development
INB374 Enterprise Software Architecture
INB375 Parallel Computing
INB381 Modelling and Animation Techniques
INB382 Real Time Rendering Techniques
Any other unit approved by coordinator.
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26086.
CRICOS No.00213J
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26082.
CRICOS No.00213J
Bachelor of Engineering (Electrical)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Dr Jacob Coetzee
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional recognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
Second Major and MinorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
ELECTRICAL ENGINEERING SecondMajor and Minor OptionsSecond
Major:Control Systems (previously Control andManufacturing
Engineering)Power and Energy Systems (previouslyPower
Engineering)Signal ProcessingTelecommunicationsMinors:Electrical
Engineering minorplusA minor from anywhere in QUT that isoutside of
the course. (see UniversityWide Minors)
Please note: The Work IntegratedLearning unit (BEB701) and
project units(BEB801, BEB802) that are required forprofessional
recognition and were oncepart of an applications minor have nowbeen
moved to the core of theEngineering course.
International Student EntryInternational students must maintain
anenrolment program that will allow them tocomplete their course
within the specifiedtimeframe of their eCoE (electronicConfirmation
of Enrolment).
Special CourseRequirementsTo graduate, students must complete
atleast 60 days industrial experience in anengineering environment
as part of theWork Integrated Learning unit.
HonoursEN40 students who meet GPArequirements are eligible to be
awardedBachelor of Engineering with Honours.The Honours GPA
requirements are setout in MOPP – 5.2.5 Grading system –awards with
honours and bachelorhonours degrees.
Domestic Course structureWork Integrated Learning unitBachelor
of Engineering students arerequired to complete at least 60 days
ofindustrial experience in an engineeringenvironment approved by
the coursecoordinator as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2You expand your knowledge of electricalengineering, and
cover the fundamentalsof analogue and digital electronics, andthe
approach to writing software to solveengineering problems. You are
introducedto fundamental concepts in electronics,telecommunications
and software design.You apply these concepts and areintroduced to
fundamentals of electricalengineering design.
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26082http://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdoc
-
Bachelor of Engineering (Electrical)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26082.
CRICOS No.00213J
Year 3You increase your knowledge and skills inmore advanced
units in control, powersystems, electronics, signal processingand
telecommunications. You continue todevelop your communication
skills bywriting assignment reports and presentingseminars. You
choose a second studyarea.
Year 4In your final year you complete yoursecond study area. You
undertake amajor project which may be industrybased and brings
together all yourpreviously mastered skills and advancesyour
communication skills in report writingand seminar presentation. You
will alsocomplete your work integrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Electrical engineering second major andminor optionsSecond
major:
Control Systems (previously Controland Manufacturing
Engineering)
●
Power and Energy Systems(previously Power Engineering)
●
Signal Processing●Telecommunications●
Minors:Electrical Engineering minor●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
International CoursestructureWork Integrated Learning
unitBachelor of Engineering students arerequired to complete at
least 60 days ofindustrial experience in an engineeringenvironment
approved by the coursecoordinator as part of the Work
IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,
basic principles of sustainability, electricalengineering,
engineering mechanics,engineering design and engineeringmaterials.
These units provide a strong,fundamental overview of the
threeengineering streams: civil, electrical andmechanical.
Year 2You expand your knowledge of electricalengineering, and
cover the fundamentalsof analogue and digital electronics, andthe
approach to writing software to solveengineering problems. You are
introducedto fundamental concepts in electronics,telecommunications
and software design.You apply these concepts and areintroduced to
fundamentals of electricalengineering design.
Year 3You increase your knowledge and skills inmore advanced
units in control, powersystems, electronics, signal processingand
telecommunications. You continue todevelop your communication
skills bywriting assignment reports and presentingseminars. You
choose a second studyarea.
Year 4In your final year you complete yoursecond study area. You
undertake amajor project which may be industrybased and brings
together all yourpreviously mastered skills and advancesyour
communication skills in report writingand seminar presentation. You
will alsocomplete your work integrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Electrical engineering second major andminor optionsSecond
major:
Control Systems (previously Controland Manufacturing
Engineering)
●
Power and Energy Systems(previously Power Engineering)
●
Signal Processing●Telecommunications●
Minors:Electrical Engineering minor●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required for
professional recognition and were oncepart of an applications
minor have nowbeen moved to the core of theEngineering course.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Year 3 - Semester 1●Year 3 - Semester 2●Please
note:●Year 4 - Semester 1●Year 4 - Semester 2●Electrical
Engineering Selectives●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB240 Introduction To Electronics
ENB246 Engineering Problem Solving
ENB250 Electrical Circuits
MAB127 Mathematics for Engineering 2
OR
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB242 Introduction To Telecommunications
ENB243 Linear Circuits and Systems
CAB202 Microprocessors and Digital Systems
ENB245Introduction To Design andProfessional Practice
Year 3 - Semester 1
ENB241 Software Systems Design
ENB301 Instrumentation and Control
ENB340 Power Systems and Machines
ENB342 Signals, Systems and Transforms
Year 3 - Semester 2
ENB343 Fields, Transmission and Propagation
ENB344 Industrial Electronics
ENB345Advanced Design and ProfessionalPractice
MAB233 Engineering Mathematics 3
OR
Selective
Please note:
http://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minorshttp://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minors
-
Bachelor of Engineering (Electrical)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26082.
CRICOS No.00213J
Students wishing to undertake CEED basedIndustry Project should
consult the Subject AreaCoordinator to provide a program for the
final year.CEED program requires that you undertake unitsBEB701,
BEB801 and BEB802 together in eitherSemester 1 or 2.
Year 4 - Semester 1
BEB801 Project 1
ENB346 Digital Communications
Second Major/Minor unit
Second Major/Minor unit
Year 4 - Semester 2
SEB701 Work Integrated Learning 1
BEB802 Project 2
Second Major/Minor unit
Second Major/Minor unit
Electrical Engineering Selectives
ENB339 Introduction to Robotics
ENB350 Real-time Computer-based Systems
ENB352Communication Environments ForEmbedded Systems
ENB440RF Techniques and ModernApplications
ENB441 Applied Image Processing
ENB446 Wireless Communications
ENB448 Signal Processing and Filtering
ENB452 Advanced Power Systems Analysis
ENB453 Power Equipment and Utilisation
ENB454 Power System Management
ENB455 Power Electronics
ENB456 Energy
ENB457 Controls, Systems and Applications
ENB458 Modern Control Systems
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26082.
CRICOS No.00213J
-
Handbook
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26081.
CRICOS No.00213J
Bachelor of Engineering (Mechanical)
Year 2014
QUT code EN40
Duration(full-time)
4 years
OP 9
Rank 82
OP Guarantee Yes
Campus Gardens Point
Domestic fee(indicative)
2014: CSP $4,400 perStudy Period (48 creditpoints)
International fee(indicative)
2014: $13,700 per StudyPeriod (48 credit points)
Total creditpoints
384
Credit pointsfull-time sem.
48
Start months February, July
Int. Start Months February, July
Deferment You can defer your offerand postpone the start ofyour
course for one year
CourseCoordinator
Dr R.Mahalinga-Iyer; ph:+61 7 3138 8822;
email:[email protected]
DisciplineCoordinator
Professor Ted Steinberg
Domestic AssumedknowledgeBefore you start this course we
assumeyou have sound knowledge in theseareas
Maths B●English●
We assume that you have knowledgeequivalent to four semesters at
highschool level (Years 11 and 12) with soundachievement (4, SA).
Recommendedstudy: Chemistry, Maths C and Physics.
International Subjectprerequisites
Maths B●English●
You must have achieved this study at alevel comparable to
Australian Year 12 orin recognised post-secondary
studies.Recommended study: Chemistry, MathsC and Physics.
Minimum EnglishrequirementsStudents must meet the
Englishproficiency requirements.
IELTS (International English Language TestingSystem)
speaking 6.0
writing 6.0
reading 6.0
listening 6.0
overall 6.0
Professional RecognitionFull professional accreditation
fromEngineers Australia has been given forthis course.
Second Major and MinorsYou will have the opportunity
toundertaken either a second major or twominors (see options
below).
MECHANICAL ENGINEERING SecondMajor and Minor OptionsSecond
Major:Motor Racing Engineering (previouslyAutomotive
Engineering)Engineering ManagementHeavy Mechanical Engineering
Minors:Mechanical Engineering minorplusA minor from anywhere in
QUT that isoutside of the course. (see UniversityWide Minors)
Please note: The Work IntegratedLearning unit (BEB701) and
project units(BEB801, BEB802) that are required forprofessional
recognition and were oncepart of an applications minor have nowbeen
moved to the core of theEngineering course.
Special CourseRequirementsA candidate for the degree of Bachelor
ofEngineering (Mechanical) must completeat least 60 days of
industrialexperience/practice in an engineeringenvironment as part
of the WorkIntegrated Learning unit.
HonoursEN40 students who meet GPArequirements are eligible to be
awardedBachelor of Engineering with Honours.The Honours GPA
requirements are setout in MOPP – 5.2.5 Grading system –awards with
honours and bachelorhonours degrees.
Domestic Course structureWork Integrated Learning unitBachelor
of Engineering students arerequired to complete at least 60 days
ofindustrial experience in an engineeringenvironment approved by
the coursecoordinator as part of the Work IntegratedLearning
unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,engineering design and
engineeringmaterials. These units provide a strong,fundamental
overview of the threeengineering streams: civil, electrical
andmechanical.
Year 2You build your knowledge of engineeringscience in areas
such as fundamentals ofdesign, dynamics, fluid
mechanics,manufacturing and mathematics. You alsogain practical
experience in ourlaboratories and are introduced tocomputational
fluid dynamics (CFD). Yourcommunication skills will also beadvanced
with an introduction toengineering drawing and assignmentreport
writing.
Year 3You increase your knowledge and skills ina number of
professional areas, including
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26081http://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.student.qut.edu.au/studying/units/university-wide-minorshttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdochttp://www.mopp.qut.edu.au/C/C_05_02.jsp#C_05_02.05.mdoc
-
Bachelor of Engineering (Mechanical)
This information is correct as at 04/12/2014. For the most
up-to-date course information, visit
http://www.student.qut.edu.au/studying/courses/course?courseCode=EN40&courseID=26081.
CRICOS No.00213J
design, where you are introduced tosolids modelling, materials
andmanufacture, instrumentation and control,dynamics,
thermodynamics and stressanalysis. You continue to develop
yourcommunication skills by writingassignment reports and
presentingseminars. You choose a second studyarea.
Year 4In your final year you complete yoursecond study area. You
undertake amajor project which will bring together allyour
previously mastered skills, andadvance your communication skills
inreport writing and seminar presentation.You will also undertake
your workintegrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Mechanical engineering second majorand minor optionsSecond
major:
Motor Racing Engineering(previously Automotive Engineering)
●
Engineering Management●Heavy Mechanical Engineering●
Minors:Mechanical Engineering minor●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required forprofessional recognition
and were oncepart of an applications minor have nowbeen moved to
the core of theEngineering course.
International CoursestructureWork Integrated Learning
unitBachelor of Engineering students arerequired to complete at
least 60 days ofindustrial experience in an engineeringenvironment
approved by the coursecoordinator as part of the Work
IntegratedLearning unit.
Your courseYear 1Common first-year units include thefoundations
of engineering mathematics,basic principles of sustainability,
electricalengineering, engineering mechanics,
engineering design and engineeringmaterials. These units provide
a strong,fundamental overview of the threeengineering streams:
civil, electrical andmechanical.
Year 2You build your knowledge of engineeringscience in areas
such as fundamentals ofdesign, dynamics, fluid
mechanics,manufacturing and mathematics. You alsogain practical
experience in ourlaboratories and are introduced tocomputational
fluid dynamics (CFD). Yourcommunication skills will also beadvanced
with an introduction toengineering drawing and assignmentreport
writing.
Year 3You increase your knowledge and skills ina number of
professional areas, includingdesign, where you are introduced
tosolids modelling, materials andmanufacture, instrumentation and
control,dynamics, thermodynamics and stressanalysis. You continue
to develop yourcommunication skills by writingassignment reports
and presentingseminars. You choose a second studyarea.
Year 4In your final year you complete yoursecond study area. You
undertake amajor project which will bring together allyour
previously mastered skills, andadvance your communication skills
inreport writing and seminar presentation.You will also undertake
your workintegrated learning.
Second majors and minorsYou will have the opportunity
toundertaken either a 2nd major or twominors (see options
below).
Please refer to the rules before makingyour selection.
Mechanical engineering second majorand minor optionsSecond
major:
Motor Racing Engineering(previously Automotive Engineering)
●
Engineering Management●Heavy Mechanical Engineering●
Minors:Mechanical Engineering minor●
plusA minor from anywhere in QUT thatis outside of the
course.
●
Please note: The Work IntegratedLearning unit (BEB701) and the
projectunit (BEB801) that are required for
professional recognition and were oncepart of an applications
minor have nowbeen moved to the core of theEngineering course.
Sample StructureSemesters
Year 1 - Semester 1●Year 1 - Semester 2●Year 2 - Semester 1●Year
2 - Semester 2●Please note:●Year 3 - Semester 1●Year 3 - Semester
2●Year 4 - Semester 1●Year 4 - Semester 2●Mechanical Engineering
Selectives●
Code Title
Year 1 - Semester 1
ENB100 Engineering and Sustainability
ENB110 Engineering Statics and Materials
ENB130 Mechanical and Thermal Energy
MAB125Foundations of EngineeringMathematics
OR
MAB126 Mathematics for Engineering 1
Year 1 - Semester 2
ENB120 Electrical Energy and Measurements
ENB150 Introducing Engineering Design
ENB200 Introducing Engineering Systems
MAB126 Mathematics for Engineering 1
OR
MAB127 Mathematics for Engineering 2
Year 2 - Semester 1
ENB211 Dynamics
ENB212 Strength of Materials
ENB231 Materials and Manufacturing 1
MAB127 Mathematics for Engineering 2
OR
MAB233 Engineering Mathematics 3
Year 2 - Semester 2
ENB205 Electrical and Computer Engineering
ENB215 Fundamentals of Mechanical Design
ENB221 Fluid Mechanics
ENB331 Materials and Manufacturing 2
Please note:
Students wishing to undertake CEED basedIndustry Project should
consult the Subject AreaCoordinator to provide a program for the
final 2years. CEED program requires that you undertakeunits
BEB701/SEB701, BEB801 and BEB802together in either Semester 1 or
2.
Year 3 - Semester 1
ENB222 Thermodynamics 1
ENB311 Stress Analysis
[Note: If you are unable to locate ENB311 under theMajor in your
Study Plan, the core unit has beenshifted into either the
Mechanical minor or in one ofthe Mechanical second majors. Please
select theminor or one of the second major to enrol in
theunit.]
ENB312 Dynamics of Machinery
ENB316 Design of Machine Elements
Year 3 - Semester 2
ENB313 Automatic Control
http://www.student.qut.edu.au/about/faculties-institutes-and-divisions/faculties/science-and-engineering/second-majors-and-minorshttp://www.student.qut.edu.au/about/faculties-inst