BETech to BE Transition
BETech (24 units) transition to BE (Mechanical Engineering) (32 units)
The following 3rd year BE courses need to be completed by theBETech graduates who have done 24 units
|
Year |
Semester 1 |
Semester 2 |
|
|
EN001 Workshop Practice and Industrial Attachment (5 modules + 400 hours) |
|
|
Three |
MM312 Solid Mechanics 2 |
MM321 Refrigeration &Air conditioning |
|
MM315 Mechanisms and Machines |
MM322 Metrology and Instrumentation |
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Eight more 300-level courses need to be completed to fulfill the BE degree requirements
|
Year |
Semester 1 |
Semester 2 |
|
Four |
MM365 Advanced Mechanical Design |
MM391 Maintenance and Reliability Engineering |
|
MM381 Professional Engineering & Project Management |
MM392 Industrial Engineering |
|
|
MM388 Project I |
MM399 Project II |
|
|
MM3XX Optional Engineering Course 1 |
MM3XX Optional Engineering Course 2
|
|
Year |
MM3XX Optional Engineering Course 1 and 2 |
|
|
Four |
MM361 Advanced Manufacturing |
MM366 Special Topics in Mechanical Engineering |
|
MM363 Thermo-fluid Dynamics of Renewable Energy Devices |
MM362 Advanced Fluid Dynamics |
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BETech (20 units) transition to BE (32 units)
To be considered on a case by case basis. BETech units completed 10 years ago cannot be cross credited as per university policy
The following 2nd and 3rd year BE courses need to be completed by the BETech graduates who have done 20 units.
|
Year |
Semester 1 |
Semester 2 |
|
Two |
MM212 Metallurgy and Material Science |
MM222 Fluid Mechanics |
|
MM214 Dynamics |
|
|
|
|
EN001 Workshop Practice and Industrial Attachment (5 modules + 400 hours) |
|
|
Three |
MM301 Renewable Energy Systems |
MM321 Refrigeration & Air Conditioning |
|
MM312 Solid Mechanics 2 |
MM322 Metrology and Instrumentation |
|
|
MM315 Mechanisms and Machines |
|
|
|
|
|
|
Eight more 300-level courses need to be completed to fulfill the BE degree requirements
|
Year |
Semester 1 |
Semester 2 |
|
Four |
MM365 Advanced Mechanical Design |
MM391 Maintenance and Reliability Engineering |
|
MM381 Professional Engineering & Project Management |
MM392 Industrial Engineering |
|
|
MM388 Project I |
MM399 Project II |
|
|
MM3XX Optional Engineering Course 1 |
MM3XX Optional Engineering Course 2 |
|
Year |
MM3XX Optional Engineering Course 1 and 2 |
|
|
Four |
MM361 Advanced Manufacturing |
MM366 Special Topics in Mechanical Engineering |
|
MM363 Thermo-fluid Dynamics of Renewable Energy Devices |
MM362 Advanced Fluid Dynamics |
|
|
|
|
|
|
|
||
BETech (24 units) transition to BE (Electrical & Electronics) (32 units)
The following 2nd and 3rd year BE courses need to be completed by the BETech graduates who have done 24 units
|
Year |
Semester 1 |
Semester 2 |
|
Two |
EE225 Analog Electronics II |
|
|
EN001 Workshop Practice and Industrial Attachment (5 modules + 400 hours) |
||
|
Three |
EE326 Embedded Systems |
|
|
EN001 Workshop Practice and Industrial Attachment (400 hours) |
||
Eight more 300-level courses need to be completed to fulfill the BE degree requirements
|
Year |
Semester 1 |
Semester 2 |
|
Four |
EE364 Power Electronics for Distributed Generation and Renewable Energy Systems |
EE391/ Maintenance and Reliability Engineering |
|
EE381 Professional Engineering |
EE392 Digital Signal Processing |
|
|
EE388 Engineering Project I |
EE399 Engineering Project II |
|
|
EE3XX Optional Engineering Course 1 |
EE3XX Optional Engineering Course 2 |
|
Year |
EE3XX Optional Engineering Course 1 and 2 |
|
|
Four |
EE361 Special topics in Power Systems |
EE363 Mechatronics |
|
|
|
|
|
|
||
BETech (20 units) transition to BE (32 units)
To be considered on a case by case basis. BETech units completed 10 years ago cannot be cross credited as per university policy
The following 2nd and 3rd year BE courses need to be completed by the BETech graduates who have done 20 units.
|
Year |
Semester 1 |
Semester 2 |
|
|
Two |
EE224 |
Signals and Systems |
|
|
EE225 |
Analog Electronics II |
||
|
EN001 Workshop Practice and Industrial A |
attachment (4 |
modules + 400 hours) |
|
|
Three |
EE301 Energy Supplies |
EE325 |
Power Electronics and Drives |
|
EE321 Power System Analysis |
EE326 |
Embedded Systems |
|
|
EN001 Workshop Practice and Industrial Attachment (400 hours) |
|||
Eight more 300-level courses need to be completed to fulfill the BE degree requirements
|
Year |
Semester 1 |
Semester 2 |
|
Four |
IS333 Project Management |
EE391/MM391 Maintenance and Reliability Engineering |
|
EE381/MM381 Professional Engineering |
EE392 Digital Signal Processing |
|
|
EE388 Engineering Project I |
EE399 Engineering Project II |
|
|
EE3XX Optional Engineering Course 1 |
EE3XX Optional Engineering Course 2 |
|
Year |
EE3XX Optional Engineering Course 1 and 2 |
|
|
Four |
EE361 Special topics in Power Systems |
EE364 Power Electronics for Distributed Generation and Renewable Energy Systems |
|
EE362 Advanced Digital Control |
EE365 VLSI Design Techniques |
|
|
EE363 Mechatronics |
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