PROGRAMME REGULATIONS. Programme Schedule. Bachelor of Engineering Technology. 1. Programme Schedule. 2. Programme Specific Admission

PROGRAMME REGULATIONS

Programme Schedule

Bachelor of Engineering Technology

All academic issues in relation to the Bachelor of Engineering Technology will be carried out in accordance with each separate Programme Provider’s Academic Regulations (refer Volume 2, Appendix 4: Central Support Services), unless specifically superseded by the requirements of the BEngTech Academic Regulations.

1.

Programme Schedule

The Programme Schedule applies to the Unitec Bachelor of Engineering Technology (BEngTech (Civil)) with endorsements in Civil Engineering, Electrical Engineering and Mechanical Engineering.

2.

Programme Specific Admission

2.1

Entry Criteria

To be admitted to this programme, applicants must meet the minimum academic requirements:

a) A minimum on 60 NCEA credits at Level 3 including:

 A minimum of 14 credits at Level 3 in Physics; and

 A minimum of 14 credits at Level 3 in Mathematics (including Algebra and calculus); and

 A minimum of 14 credits at Level 3 in one other subject from the list of approved subjects listing at NZQA; and

 A minimum of 18 credits at Level 3 or higher taken from no more than two additional subjects from the approved subjects listing at NZQA; and b) A minimum of 10 NCEA English credits at Level 2 or above made up with a

minimum of 5 credits in reading and a minimum of 5 credits in writing; or c) Equivalent academic qualifications which may include:

 University Bursary with 45% or more in both Physics and Calculus or Algebra; or

 Equivalent Cambridge score; or

2.2

Requirements for students who use English as an additional language

(EAL)

EAL students must meet the minimum academic entry requirements and have achieved an overall band score (Academic) of 6.0 IELTS, (writing and speaking score no less than 6.0 and reading and listening bands no less than 5.5) or equivalent.

2.3

Eligibility for Selection

All applicants who meet the entry criteria are eligible for selection.

Applications will be processed simultaneously after the preferred application date. Professional judgement of academic staff involved will be used to determine those applicants who are judged to be the most appropriate for entry to the programmes. Where there are more applicants than places applicants will need to state which is their preferred discipline of study.

2.4

Selection Process

Applicants may be invited to an interview and may be required to produce a work-based portfolio (where appropriate). Eligible applicants will be selected using a range of identified criteria. When the number of eligible applicants for admission exceeds the number of places available, the following selection criteria may be applied:

 Academic achievement in related subject areas such as statistics, technology, graphics

 Previous academic achievements

 Communication skills

 Motivation to complete the programme

 Life or work experience in, or appropriate to, the programme

 Ability to participate in field work aspects of the programme where relevant Applicants who meet the greatest number of criteria will be the preferred applicants. Should the number of applicants who meet the selection process requirements exceed the available places; the professional judgement of staff will be used to determine those given immediate entry and those placed on a waiting list.

2.5

Provisional Entry or Alternative Entry

A school leaver or an adult applicant with equivalent experience, who does not meet all of the entry criteria, may be given provisional entry at the discretion of the

Programme Committee where it is considered that the student has a reasonable chance of succeeding in the qualification.

3.

Credit for Previous Study / Recognition of Prior

Learning

3.1

Recognition of Prior Learning

Recognition of Prior Learning (RPL) will include both formal and experiential learning and Recognition of Current Competence (RCC) and is the granting of credit towards a qualification as a consequence.

Recognition of Prior Learning (RPL) will be available for all courses/papers within this programme except for MG7001 Engineering Development Project.

RPL includes:

 Credit Transfer (CT) where the same course/paper has been achieved in a different programme

 Cross Credit (CC) where an equivalent course/paper, or multiple

courses/papers, has been achieved and recognition as meeting the outcomes of course/paper or multiple courses/papers within this programme

 Assessment of Prior Experiential Learning (APEL) where current practice and competency, knowledge and skills are assessed to match individual or multiple course/papers within this programme

 Advanced Standing

3.2

Cross Credits

Where evidence is provided that indicates successful outcomes for an equivalent course/paper or multiple courses/papers, cross credits into the relevant

courses/papers will be completed and approved by the Programme Committee. A maximum of 30 credits (two electives) at Level 5, Level 6 or Level 7, from outside the programme, may be credited towards the degree following approval from the Programme Committee.

3.3

Advanced Standing

Students may be eligible for Advanced Standing entry to the Bachelor of Engineering Technology programme. Advanced standing applications will be considered from experienced practitioners and/or graduates with other qualifications. Advanced standing will be assessed using criteria from the graduate profiles and programme outcomes from the Bachelor of Engineering Technology.

 Students may be admitted to the second year of the programme if they have provided evidence that they have the qualifications and/or experience equivalent to the learning outcomes and standards of the first year of the degree.

 Students may be admitted to the third year if they have provided evidence that they have the qualifications and/or experience that is equivalent to the learning outcomes and standards of the first and second year of the degree, including suitable qualifications and/or experience in the particular field of their intended major.

4.

Course Length

The programme will be three (3) years full time study, and may be completed on a part-time basis. The maximum number of years for completion will be ten (10) years from date of first enrolment.

5.

Course Structure

Year Course No.

Course Name Credits Level Pre-req Co-req Restriction

1 ENGG MG5001 Engineering Computing 15 5 1 ENGG MG5002 Engineering Mechanics 15 5 1 ENGG MG5003 Engineering Communication 15 5 1 ENGG MG5004 Engineering Mathematics 1 15 5 1 ENGG MG5005

Engineering Design and

Drawing 15 5 ENGGMG 5003 * 2 ENGG MG6103 Engineering Management Principles 15 6 ENGGMG 5003 ENGGMG6 003 3 ENGG MG7101 Engineering Development Project 30 7 45 credits at Level 6 ENGGMG7 001 3 ENGG MG7121 Professional Engineering Practice 15 7 ENGGMG 5003 ENGGMG7 021 * Recommended Pre-Requisite by Unitec

Table 2: Civil Major Compulsory Courses

Yea r

Course No.

Course Name Credits Level Pre-req Co-req Restriction

1 ENGG MG5009

Engineering Site

Investigation 15 5 1 ENGG

MG5032 Basic Structures 15 5 ENGGMG5002

ENGGMG5007 1 ENGG MG5107 Civil Materials 15 5 ENGGMG5007 2 ENGG MG5006 Land Surveying 15 5 2 ENGG

MG5008 Fluid Mechanics 15 5 ENGGMG5002 2 ENGG MG5012 Highway Engineering 15 5 2 ENGG MG6005 Civil Engineering Detailing and Modelling 15 6 ENGGMG5005 3 _ENGG MG6106 Civil Engineering Construction Practices 15 6 ENGGMG6006

The following elective courses are available for the Civil Major. They are listed as recommended courses for each specialist pathway that the student may wish to pursue.

Table 3: Civil Major Elective Courses

Course No.

Course Name Credits Level Pre-req Co-requ Restrictions

Structural Specialist Pathway Elective Courses ENGG MG6046 Structural Principles 15 6 ENGGMG5032 and (ENGGMG5007 or ENGGMG5107) ENGGMG5010 ENGG MG6007

Structural Steel and

Timber 15 6 ENGGMG5010 or ENGGMG6046 ENGG MG6008 Structural Concrete 15 6 ENGGMG5010 or ENGGMG6046 ENGG MG7004 Design of Structures 15 7 ENGGMG6007 and ENGGMG6008

Water and Water Waste Specialist Pathway Elective Courses ENGG

MG6011

Hydrology and Erosion

Management 15 6

ENGG MG6109

Water and Waste

Engineering 15 6

ENGGMG5008 ENGGMG6009 ENGG

MG6110

Water and Waste

Treatment 15 6 ENGGMG5009 ENGGMG6010 ENGG MG7005 Urban Drainage Systems 15 7 ENGGMG6009 or ENGGMG6109

Geotechnical Specialist Pathway Elective Courses ENGG MG6012 Geotechnical Engineering A 15 6 ENGGMG5009 ENGGMG5011 ENGG MG6045 Geotechnical Engineering B 15 6 ENGGMG6012 or ENGGMG5011 ENGGMG7006 ENGG MG6013 Engineering Geology 15 6 ENGGMG5107 or ENGGMG5007 ENGGMG5009 ENGG MG7045 Geotechnical Engineering C 15 7 ENGGMG6045 or ENGGMG7006

Roading/Transportation Specialist Pathway Elective Courses ENGG

MG6014

Highway Design and

Maintenance 15 6 ENGGMG5012

ENGG

MG6015 Traffic Engineering 15 6 ENGGMG5012

ENGGMG5004 ENGG

MG7007

Urban Transport

Planning 15 7 ENGGMG5012

Environmental Specialist Pathway Elective Courses ENGG

MG5113

Fundamentals of

Environmental 15 5

Course No.

Course Name Credits Level Pre-req Co-requ Restrictions

Engineering ENGG MG6116 Sensitive Environment 15 6 ENGGMG6016 ENGG MG7008 Sustainable Resource Utilisation 15 7 ENGG MG7109 Resource and Environmental Management 15 7 MG7009

Common Elective Courses ENGG MG7025 Project Management 15 7 ENGGMG6003 or ENGGMG6103 ENGGMG6004 ENGG

MG7026 Risk Management 15 7 ENGGMG6103 ENGG

MG6048 Special Topic 15 6 ENGG

MG7047 Special Topic 15 7

Table 4: Electrical Major Compulsory Courses

Year Course No. Course Name Credits Level Pre-requ Co-requ Restriction

1 ENGG MG5034 Electrical Principles 15 5 ENGGMG5014 1 ENGG MG5035 Electronic Principles 15 5 ENGGMG5015 2 ENGG MG6136 Design 15 6 ENGGMG5005

Table 5: Electrical Major Elective Courses

Course Course Name Credits Level Pre-requisites Co-requisites

Restriction

Power Pathway Elective Courses ENGG MG5016 Elements of Power Engineering 15 5 ENGGMG5015 or ENGGMG5034 ENGG MG5017 Electrical Machines 15 5 ENGGMG5015 or ENGGMG5034 ENGG MG5018 PLC Programming 1 15 5 ENGGMG5001 and (ENGGMG5014 or ENGGMG5034) ENGG MG5021 Electronics Manufacturing 1 15 5 ENGGMG5015 or ENGGMG5035 ENGG

MG6117 Power Distribution 15 6 ENGGMG5016

ENGG MG6017 ENGG

MG6118

Sustainable Energy and

Power Electronics 15 6 ENGGMG5004 and (ENGGMG5014 or ENGGMG5034) and (ENGGMG5015 or ENGG MG6018

Course Course Name Credits Level Pre-requisites Co-requisites Restriction ENGGMG5035) ENGG MG6019 PLC Programming 2 15 6 ENGGMG5018 ENGG MG6190 Mathematics 2 15 6 ENGGMG5004 ENGG MG6020 Automation 15 6 ENGGMG6019 ENGG

MG7110 Power Systems 15 7 ENGGMG5016

ENGG MG7010 ENGG MG7011 Electrical Machine Dynamics 15 7 ENGGMG5017

Electronic Pathway Elective Courses ENGG

MG5019 Electronics 1 15 5

ENGGMG5015 or ENGGMG5035 ENGG

MG5020 Microcontroller Systems 1 15 5 ENGGMG5001 ENGG MG5021 Electronics Manufacturing 1 15 5 ENGGMG5015 or ENGGMG5035 ENGG MG5022 Programming for Engineers 1 15 5 ENGGMG5001 ENGG MG6021 Electronics 2 15 6 ENGGMG5019 ENGG

MG6022 Microcontroller Systems 2 15 6 ENGGMG5020 ENGG MG6023 Electronics Manufacturing 2 15 6 ENGGMG5021 ENGG MG6024 Electronic Design 15 6 (ENGGMG5015 or ENGGMG5035) and ENGGMG5020 ENGG MG7012 Signal Processing 15 7 ENGGMG5004 and ENGGMG5019 ENGG

MG7013 Embedded Systems 15 7 ENGGMG6022 Computer Pathway Elective Courses ENGG

MG5022

Programming for

Engineers 1 15 5 ENGGMG5001

ENGG

MG5020 Microcontroller Systems 1 15 5 ENGGMG5001 ENGG

MG5023 PC Engineering 15 5

ENGG

MG6022 Microcontroller Systems 2 15 6 ENGGMG5020 ENGG MG6024 Electronic Design 15 6 (ENGGMG5015 or ENGGMG5035) and ENGGMG5020 ENGG MG6025 Programming for Engineers 2 15 6 ENGGMG5022 ENGG MG6026 Network Operating Systems 15 6 ENGGMG5023

Course Course Name Credits Level Pre-requisites Co-requisites Restriction ENGG MG7014 Programming for Engineers 3 15 7 ENGGMG6025 ENGG

MG7013 Embedded Systems 15 7 ENGGMG6022 Network Pathway Elective Courses ENGG

MG5124 Introduction to Networks 15 5 ENGG

MG5125

Routing and Switching

Essentials 15 5 ENGGMG5124 ENGG MG5023 PC Engineering 15 5 ENGG MG6026 Network Operating Systems 15 6 ENGGMG5023 ENGG

MG6127 Scaling Networks 15 6 ENGGMG5125 ENGG

MG6128 Connecting Networks 15 6 ENGGMG6127

ENGG MG6028 ENGG MG6129 Network Security 15 6 ENGGMG5125 and ENGGMG6128 ENGG MG6029 ENGG MG6130 Advanced Network Routing 15 6 ENGGMG6128 ENGG MG6030 ENGG MG7115 Advanced Network Switching 15 7 ENGGMG6128 ENGG MG7015 ENGG MG7116 Advanced Network Troubleshooting 15 7 ENGGMG6130 and ENGGMG7115 ENGG MG7016 Mechatronics Pathway Elective Courses

ENGG MG5018 PLC Programming 1 15 5 ENGGMG5001 and (ENGGMG5014 or ENGGMG5034) ENGG MG5021 Electronics Manufacturing 1 15 5 ENGGMG5015 or ENGGMG5035 ENGG MG5026 Instrumentation and Control 1 15 5 ENGGMG5014 or ENGGMG5034 ENGG MG6019 PLC Programming 2 15 6 ENGGMG5018 ENGG MG6031 Instrumentation and Control 2 15 6 ENGGMG5004 and ENGGMG5026 ENGG

MG6032 Fluid Mechanics (Mech) 15 6

ENGGMG5002 and ENGGMG5004 ENGG

MG6047 Protection 15 6 ENGGMG5016 and

ENGGMG5004 ENGG MG6190 Mathematics 2 15 6 ENGGMG5004 ENGG MG6020 Automation 15 6 ENGGMG6019 ENGG MG7017 Robotics 15 7 ENGGMG6019 and ENGGMG6033 ENGG Systems and Control 15 7 ENGGMG6031

Course Course Name Credits Level Pre-requisites Co-requisites

Restriction

MG7018

Telecommunications Pathway Elective Courses ENGG

MG5020 Microcontroller Systems 1 15 5 ENGGMG5001 ENGG MG5021 Electronics Manufacturing 1 15 5 ENGGMG5015 or ENGGMG5035 ENGG MG5124 Introduction to Networks 15 5 ENGG MG5125

Routing and Switching

Essentials 15 5 ENGGMG5124

ENGG

MG6022 Microcontroller Systems 2 15 6 ENGGMG5020 ENGG

MG6190 Mathematics 2 15 6 ENGGMG5004

ENGG

MG6127 Scaling Networks 15 6 ENGGMG5125

ENGG MG6027 ENGG MG6049 Telecommunications Intermediate 15 6 (ENGGMG5015 or ENGGMG5035) and ENGGMG5124 ENGG MG5127 or ENGG MG5027 ENGG

MG6128 Connecting Networks 15 6 ENGGMG6127 ENGG MG7135 Telecommunications Advanced 15 7 ENGGMG6049 ENGG MG6135 ENGG MG7012 Signal Processing 15 7 ENGGMG5004 and ENGGMG5019 Common Elective Courses ENGG MG7025 Project Management 15 7 ENGGMG6003 or ENGGMG6103 ENGG MG6004 ENGG MG7026 Risk Management 15 7 ENGGMG6003 or ENGGMG6103 ENGG MG6048 Special Topic 15 6 ENGG MG7047 Special Topic 15 7

Electrical Elective Courses ENGG MG6046 Protection 15 6 ENGGMG5032 and ENGGMG5107 ENGG MG5090

Heritage, Culture & Sustainability in Engineering

15 5

Table 6: Mechanical Major Compulsory Courses

Year Course Course Name Credits Level Pre-requisites Co-requisites

Restrictions

1 ENGG

MG5034 Electrical Principles 15 5 ENGG

MG5033 1 ENGG

MG5028 Materials Science 15 5

Year Course Course Name Credits Level Pre-requisites Co-requisites Restrictions MG5029 and ENGGMG5004 2 ENGG

MG6032 _{Fluid Mechanics (Mech) 15 6}

ENGGMG5002 and ENGGMG5004 2 ENGG MG5030 Thermodynamics and

Heat Transfer 15 5 ENGGMG5004

2 ENGG

MG6038 Strength of Materials 2 15 6 ENGGMG5029 2 ENGG MG6033 _{Mechanics of Machines 15 6} ENGGMG5002 and ENGGMG5004 2 ENGG MG6037 Advanced Thermodynamics 15 6 ENGGMG5030 2 ENGG

MG6136 Design 15 6 ENGGMG5005 ENGG _MG6036

Table 7: Mechanical Major Compulsory Courses

Course Course Name Credits Level Pre-requisites Co-requisites Restrictions ENGG MG6039 Applied Computational Modelling 15 6 ENGGMG6032 and ENGGMG6038 ENGG MG6040 Product Design Engineering 15 6 ENGGMG5002 and ENGGMG5005 ENGG MG6041 Quality and Reliability 15 6 ENGGMG5002 and ENGGMG5004 ENGG MG6044 Manufacturing Processes and Production 15 6 ENGGMG5028 ENGG

MG6190 Mathematics 2 15 6 ENGGMG5004 ENGG _MG6090 ENGG

MG7030 Air Handling

Systems 15 7 ENGGMG5030

ENGG

MG7020 Mechanical Design 2 15 7 ENGGMG6136 ENGG

MG7023

Vibration and Seismic Design for Mechanical Plant 15 7 ENGGMG6136 and ENGGMG6038 ENGG

MG7022 Energy Engineering 15 7 ENGGMG6037 ENGG MG7028 Engineering Systems Analysis 15 7 ENGGMG5004 and ENGGMG5005 and ENGGMG6032 ENGG Fluids Power and 15 7 ENGGMG6032

Course Course Name Credits Level Pre-requisites Co-requisites

Restrictions

MG7024 Advanced Fluid Mechanics

Common Elective Courses ENGG

MG7025 _{Project Management 15 7} ENGGMG6003 _or ENGGMG6103

ENGGMG6 004 ENGG

MG7026 Risk Management 15 7 ENGGMG6103 ENGG

MG6048 Special Topic 15 6 ENGG

MG7047 Special Topic 15 7

6.

Electives

Electives within each major are to be selected from courses within that major, from the common electives list, or from courses within the programme with a coherent relationship to that major.

A maximum of 30 credits (two electives) at Level 5, Level 6 or Level 7, from outside the programme may be credited towards the degree following approval from the Programme Committee.

Electives selected must meet academic requirements for course pre-requisites and completion of the programme.

7.

Integration of Practical / Work Based Components

Practical/work based components are integrated into the relevant courses throughout the three years and a strong emphasis on the industry project in the final year.

8.

Assessment

8.1

Assessment basis

All assessment is achievement based using an 11 point grade scale.

8.2

Course Grades

Course grades will be determined by the mathematical aggregation of weighted marks using the following conversion.

Table 9: Course Grades

Grade Definition

A+ Met all course requirements-mark in range [90-100] A Met all course requirements-mark in range [85-89]

A- Met all course requirements-mark in range [80-84] B+ Met all course requirements-mark in range [75-79] B Met all course requirements-mark in range [70-74] B- Met all course requirements-mark in range [65-69] C+ Met all course requirements-mark in range [60-64] C Met all course requirements-mark in range [55-59] C- Met all course requirements-mark in range [50-54] D Did not meet course requirements. Mark in range [40-49] E Did not meet course requirements. Mark in range [0-39] 8.2.1 Other Results

Students may be awarded one of the following grades for a course if they meet the criteria described.

Grade Definition

AEG Awarded pass following consideration of impaired performance/aegrotat application

APEL1 Awarded pass following assessment of evidence of prior experience and

current skills

CC1 Credit granted on basis of learning outcomes met via passes in other

course(s)

CT Awarded pass – equivalent course already passed

NFY2 _{Course not yet finished, runs into more than one calendar year}

DNC The student has not completed and has not formally withdrawn. WD3 _{Formal withdrawal application processed prior to completion of course.}

NRE4 _{No result expected}

ADV5 _{Advanced Standing awarded for approved credits}

1_{Unitec uses CR (Credit Recognition) for CC and APEL} 2_{Unitec uses CTG for NFY}

3_{Unitec uses W for WD}

4_{Unitec uses NGA (No Grade Associated) for NRE} 5_{Weltec use EX for Advanced Standing}

8.3

Restricted passes

There will be no restricted passes awarded.

8.4

Resits/Reassessments and Resubmissions

Where minor reworking (fix-up) of an aspect of an assessment will enable the student to achieve a passing grade, resubmissions will be allowed. As a guide, the work must be able to be resubmitted within two working days of receipt of feedback. In all cases, the original marked assessment will accompany resubmitted assessments.

The terms ‘resit’ and ‘reassessment’ have the same definition – an opportunity for students to undertake a further assessment after more learning has taken place. There will be no resits/reassessments in the programme. Where students do not pass a course, if they wish to achieve that course, they will be required to re-enrol.

8.5

Impaired Performance

Where students are absent from a summative assessment event, or are unable to perform to the best of their ability through critical circumstances beyond their control which may include: illness, injury, bereavement, family crisis, or other unpredictable events, an application for an Aegrotat or Impaired Performance assessment may be considered.

Where a student considers that their performance in an assessment has been seriously impaired through critical circumstances beyond their control which may include illness, injury, bereavement, family crisis, or other unpredictable events, an impaired performance application may be made for reconsideration of result. Programme Committee/Heads of School are responsible for ensuring that all

applications are processed according to the approved procedures of the relevant ITP. Any reconsideration of result following an impaired performance application must not disadvantage the student.

9.

Normal Progression

Students must meet all pre-requisite requirements listed on the table below for progression through the programme.

9.1

Prerequisite Table

Refer to Section 5, Tables 1-7.

9.2

Transition Arrangements

There are three institutions that deliver the Bachelor of Engineering Technology and require transition arrangements from the current degree curricula to the new degree curriculum. They are:

 Christchurch Institute of Technology and Polytechnic (CPIT)

 Manukau Institute of Technology (MIT)

 Unitec

As the ITPs currently deliver three different programmes the transition arrangements are different. The specific approaches are covered in the Capability Documents of the three institutions.

An overview of the three approaches:

CPIT will teach out the current curriculum and phase in the new degree from 2010. Most students will have completed by 2011 but for part time students and students who need to repeat a course the old curriculum will remain till 2014.

MIT and Unitec have curricula that more closely match the new curriculum. Students will transition from the old to the new with a cut-off date of 2012 in both cases. MIT will phase in the new curriculum on a year by year basis from 2010. Unitec will offer Year 1 from 2010, and Years 2 and 3 from 2011.

Common approaches between the three institutions are:

 No student shall be disadvantaged by the change to the new curriculum.

 The academic integrity will not be compromised.

 Students will be fully informed of changes and potential impact.

Where a member of the Metro Group currently delivers a Bachelor of Engineering Technology, that ITP is required to obtain approval for a Transition schedule,

including timeframes for the transition arrangements. Approval must be obtained from both the Programme Management Group and the Quality Assurance Group prior to the commencement of this new programme. (Refer Volume 2, Capability Document). Version 2 of the Bachelor of Engineering Technology (Civil Major) programme comes into effect Semester 1, 2015. Current students enrolled prior to 2015 are to transfer to Version 2 at the first reasonable opportunity.

Version 1 Course Version 2 Equivalent Course Table

ENGG MG5010 Structural Principles 15cr ENGG MG6046 Structural Principles 15cr Table 3 ENGG MG5013 Fundamentals of Environmental Chemistry 15cr ENGG MG5113 Fundamentals of Environmental Engineering 15cr Table 3

ENGG MG6003 Engineering Management Principles 15cr

ENGG MG6103 Engineering Management Principles 15cr

Table 1 ENGG MG6006 Construction Practices

15cr

ENGG MG6106 Civil Engineering Construction Practices 15cr

Table 2

ENGG MG7009 Environmental Impact Assessment 15cr

ENGG MG7019 Resource and Environmental Management 15cr

Table 3 ENGG MG7021 Professional Engineering

Practice 15cr

ENGG MG7121 Professional Engineering Practice 15cr

Table 1

Version 2 of the Bachelor of Engineering Technology (Civil Major) programme has removed three compulsory courses. Students who were enrolled prior to 2015 will have the opportunity to complete these courses and will be counselled on a case by case basis. These courses are:

• ENGG MG5031 Professional Engineering Development 15cr; • ENGG MG7021 Professional Engineering Practice 15cr; • ENGG MG7001 Engineering Development Project 45cr.

Students who have successfully completed ENGG MG5031 Professional Engineering Development 15cr will not be required to complete the compulsory course ENGG MG5012 Highway Engineering 15cr.

10. Requirement for the aw ard of the Qualification

10.1 Awarding the Qualification

For a Programme Provider to award this qualification, a student must achieve the required 360 credits of which 120 credits, including a minimum of 75 credits at Level 7, must be from the awarding ITP. The maximum number of years for completion will be ten (10) years from date of first enrolment.

10.2 Award Requirements

10.2.1 Bachelor of Engineering Technology (Civil)

To be awarded the Bachelor of Engineering Technology (Civil), a student must achieve the 255 compulsory credits as detailed in Section 5 Course Structure, Tables 1 and 2, and 105 elective credits as detailed in Table 3 to meet the requirements for award of the qualification.

Students who are enrolled prior to 2015 have the option to complete the transitional courses as noted in Section 9. Students must achieve 285 compulsory credits, 60 compulsory specialisation credits in one pathway and 15 elective credits to meet the requirements for the award of the qualification.

10.2.2 Bachelor of Engineering Technology (Electrical)

To be awarded the Bachelor of Engineering Technology (Electrical), a student must achievethe 180 compulsory credits as detailed in Section 5 CourseStructure, Tables 1 and 4, and 180 elective credits, completing at least one pathway,from Table 5 to meet the requirements for award of the qualification.

10.2.3 Bachelor of Engineering Technology (Mechanical)

To be awarded the Bachelor of Engineering Technology (Mechanical), a student must achieve the 270 compulsory credits as detailed in Section 5Course Structure, Tables 1 and 6, and 90 elective credits from Table 7 to meet the requirements for award of the qualification.

11. Commencement