Courses in this classification must be chosen from among ...€¦ · UNOFFICIAL 2018-2019 Carleton University Undergraduate Calendar 1 Engineering This section presents the requirements

UNOFFICIAL 2018-2019 Carleton University Undergraduate Calendar 1

EngineeringThis section presents the requirements for programs in:

• Aerospace Engineering - Bachelor of EngineeringStream A: Aerodynamics, Propulsion and VehiclePerformance

• Aerospace Engineering - Bachelor of EngineeringStream B: Aerospace Structures, Systems andVehicle Design

• Aerospace Engineering - Bachelor of EngineeringStream C: Aerospace Electronics and Systems

• Aerospace Engineering - Bachelor of EngineeringStream Stream D: Space Systems Design

• Architectural Conservation and SustainabilityEngineering Stream A: Structural

• Architectural Conservation and SustainabilityEngineering Stream B: Environmental

• Biomedical and Electrical Engineering Bachelor ofEngineering

• Biomedical and Mechanical Engineering Bachelorof Engineering

• Civil Engineering Bachelor of Engineering• Communications Engineering Bachelor of

Engineering• Computer Systems Engineering Bachelor of

Engineering• Electrical Engineering Bachelor of Engineering• Engineering Physics Bachelor of Engineering• Environmental Engineering Bachelor of

Engineering• Mechanical Engineering Bachelor of Engineering• Mechanical Engineering with Concentration in

Integrated Manufacturing Bachelor of Engineering• Software Engineering Bachelor of Engineering• Sustainable and Renewable Energy Stream A:

Smart Technologies for Power Generation andDistribution Bachelor of Engineering

• Sustainable and Renewable Energy Stream B:Efficient Energy Generation and ConversionBachelor of Engineering

Program RequirementsCourse Categories for Engineering ProgramsThe following categories of courses are used in definingthe programs.

Basic Science ElectivesCourses in this classification must be chosen from amongthose listed as acceptable for the current academic year.The list is published annually on the engineering academicsupport website: carleton.ca/engineering/uas. The listwill change from year to year and only courses on the listvalid in the year the course is taken, or courses for whichformal approval of the Faculty has been obtained can beused as credit toward an engineering degree. Coursesnot on the list may be used to fulfill a Basic Scienceelective requirement with the permission of the Faculty of

Engineering and Design and provided all other specifiedcourse requirements are met. Note that access to courseson the list is not guaranteed and may depend on spaceavailability and the satisfaction of other requirementsincluding, for example, course prerequisites.

Complementary Studies ElectivesCourses in this classification must be chosen from amongthose listed as acceptable for the current academic year.The list is published annually on the engineering academicsupport website: carleton.ca/engineering/uas. The listwill change from year to year and only courses on the listvalid in the year the course is taken, or courses for whichformal approval of the Faculty has been obtained can beused as credit toward an engineering degree. English asa Second Language courses are not acceptable for useas Complementary Studies electives in any engineeringprogram. Courses not on the list may be used to fulfill aComplementary Studies elective requirement with thepermission of the Faculty of Engineering and Design andprovided all other specified course requirements are met.Registration in CUTV sections is not acceptable. Note thataccess to courses on the list is not guaranteed and maydepend on space availability and the satisfaction of otherrequirements including, for example, course prerequisites.

Communications Electives for CommunicationsEngineering

ELEC 4503 [0.5] Radio Frequency Lines andAntennas

ELEC 4505 [0.5] Telecommunication CircuitsELEC 4506 [0.5] Computer-Aided Design of Circuits

and SystemsELEC 4509 [0.5] Communication LinksELEC 4702 [0.5] Fiber Optic CommunicationsSYSC 4607 [0.5] Wireless Communications

Aerospace EngineeringBachelor of EngineeringStudents in Aerospace Engineering must satisfy therequirements for one of the following streams:

Aerospace Engineering - Bachelor of EngineeringStream A: Aerodynamics, Propulsion and VehiclePerformance (21.5 credits)First Year1. 4.0 credits in: 4.0

CHEM 1101 [0.5] Chemistry for Engineering StudentsECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite

Series for Engineering or PhysicsMATH 1104 [0.5] Linear Algebra for Engineering or

SciencePHYS 1004 [0.5] Introductory Electromagnetism and

Wave Motion2. 1.0 credit in Complementary Studies Electives 1.0Second Year3. 5.0 credits in: 5.0

2 Engineering

CCDP 2100 [0.5] Communication Skills forEngineering Students

ECOR 2606 [0.5] Numerical MethodsMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferMAAE 2700 [0.5] Engineering MaterialsMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods I

4. 0.5 credit in Basic Science Electives 0.5Third Year5. 5.5 credits in: 5.5

AERO 3002 [0.5] Aerospace Design and PracticeAERO 3700 [0.5] Aerospace MaterialsECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsELEC 3605 [0.5] Electrical EngineeringMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3500 [0.5] Feedback Control SystemsMAAE 3901 [0.5] Mech and Aero Engineering LabSYSC 3600 [0.5] Systems and Simulation

Fourth Year6. 4.0 credits from: 4.0

AERO 4003 [0.5] Aerospace Systems DesignAERO 4302 [0.5] Aerodynamics and Heat TransferAERO 4306 [0.5] Aerospace Vehicle PerformanceAERO 4308 [0.5] Aircraft Stability and ControlMAAE 4907 [1.0] Engineering Design ProjectECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional Practice

7. 1.5 credits from: 1.5ELEC 4504 [0.5] Avionics SystemsELEC 4602 [0.5] Electrical Power Engineering4000-level Mechanical and Aerospace Engineering(MAAE, AERO or MECH)

Total Credits 21.5

Aerospace Engineering - Bachelor of EngineeringStream B: Aerospace Structures, Systems and VehicleDesign (21.5 credits)First year1. 4.0 credits in: 4.0



Science

PHYS 1004 [0.5] Introductory Electromagnetism andWave Motion

2. 1.0 credit in Complementary Studies Electives 1.0Second year3. 5.0 credits in: 5.0





4. 0.5 credit in Basic Science Electives 0.5Third year5. 5.5 credits in: 5.5

AERO 3002 [0.5] Aerospace Design and PracticeAERO 3101 [0.5] Lightweight StructuresAERO 3700 [0.5] Aerospace MaterialsECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsELEC 3605 [0.5] Electrical EngineeringMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3500 [0.5] Feedback Control SystemsMAAE 3901 [0.5] Mech and Aero Engineering LabSYSC 3600 [0.5] Systems and Simulation

Fourth year6. 4.0 credits in: 4.0

AERO 4003 [0.5] Aerospace Systems DesignAERO 4602 [0.5] Introductory AeroelasticityAERO 4608 [0.5] Composite MaterialsECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeMAAE 4102 [0.5] Materials: Strength and FractureMAAE 4907 [1.0] Engineering Design Project

7. 1.5 credits from 1.5ELEC 4504 [0.5] Avionics SystemsELEC 4602 [0.5] Electrical Power Engineering4000-level Mechanical and Aerospace Engineering(MAAE, AERO or MECH)

Total Credits 21.5

Aerospace Engineering - Bachelor of EngineeringStream C: Aerospace Electronics and Systems (21.5credits)First year1. 4.0 credits in: 4.0

CHEM 1101 [0.5] Chemistry for Engineering StudentsECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and Computers


MATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite



Wave Motion2. 1.0 credit in Complementary Studies Electives 1.0Second year3. 5.5 credits in: 5.5


ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2700 [0.5] Engineering MaterialsMATH 2004 [0.5] Multivariable Calculus for


Third year4. 5.5 credits in: 5.5

AERO 3002 [0.5] Aerospace Design and PracticeECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsELEC 3105 [0.5] Basic EM and Power EngineeringELEC 3500 [0.5] Digital ElectronicsELEC 3509 [0.5] Electronics IIELEC 3909 [0.5] Electromagnetic WavesMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferMAAE 3500 [0.5] Feedback Control SystemsSYSC 3501 [0.5] Communication TheorySYSC 3600 [0.5] Systems and Simulation


AERO 4003 [0.5] Aerospace Systems DesignECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeMAAE 4907 [1.0] Engineering Design Project

6. 2.5 credits from: 2.5AERO 3240 [0.5] Orbital MechanicsAERO 3841 [0.5] Spacecraft Design IAERO 4009 [0.5] Aviation Management and

CertificationAERO 4842 [0.5] Spacecraft Design IIELEC 4502 [0.5] Microwave CircuitsELEC 4503 [0.5] Radio Frequency Lines and

AntennasELEC 4505 [0.5] Telecommunication CircuitsELEC 4509 [0.5] Communication LinksELEC 4600 [0.5] Radar and NavigationELEC 4602 [0.5] Electrical Power EngineeringELEC 4706 [0.5] Digital Integrated Electronics

SYSC 4405 [0.5] Digital Signal ProcessingSYSC 4600 [0.5] Digital CommunicationsSYSC 4607 [0.5] Wireless Communications

7. 0.5 credit in Basic Science Elective 0.5Total Credits 21.5

Aerospace Engineering - Bachelor of EngineeringStreamStream D: Space Systems Design (21.5 credits)First year1. 4.0 credits in: 4.0










AERO 3002 [0.5] Aerospace Design and PracticeAERO 3240 [0.5] Orbital MechanicsAERO 3841 [0.5] Spacecraft Design IECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsELEC 3909 [0.5] Electromagnetic WavesMAAE 3004 [0.5] Dynamics of MachineryMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3500 [0.5] Feedback Control SystemsMAAE 3901 [0.5] Mech and Aero Engineering LabSYSC 3600 [0.5] Systems and Simulation


AERO 4442 [0.5] Transatmospheric and SpacecraftPropulsion

AERO 4446 [0.5] Heat Transfer for AerospaceApplications

4 Engineering

AERO 4540 [0.5] Spacecraft Attitude Dynamics andControl

AERO 4842 [0.5] Spacecraft Design IIECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeELEC 4509 [0.5] Communication LinksMAAE 4907 [1.0] Engineering Design Project

7. 1.5 credits from 4000-level MAAE, AERO or MECH,or AERO 3101, AERO 3700, ELEC 4503, ELEC 4600,ELEC 4709

1.5

Total Credits 21.5

Architectural Conservation and SustainabilityEngineeringBachelor of EngineeringStudents must satisfy the requirements for one of thefollowing streams:

Architectural Conservation and SustainabilityEngineeringStream A: Structural (22.0 credits)First year1. 5.5 credits in: 5.5

ARCH 1000 [0.5] Introduction to ArchitectureCHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersENVE 1001 [0.5] Architecture and the EnvironmentMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite



Wave MotionSecond year2. 5.5 credits in: 5.5

ARCC 2202 [0.5] Architectural Technology 1CCDP 2100 [0.5] Communication Skills for

Engineering StudentsCDNS 2400 [0.5] Heritage Conservation in CanadaCIVE 2004 [0.5] GIS, Surveying, CAD and BIMCIVE 2200 [0.5] Mechanics of Solids ICIVE 2700 [0.5] Civil Engineering MaterialsECOR 2606 [0.5] Numerical MethodsENVE 2001 [0.5] Process Analysis for Environmental

EngineeringMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsThird year3. 5.5 credits in: 5.5

ARCC 2203 [0.5] Architectural Technology 3ARCC 3202 [0.5] Architectural Technology 4CIVE 3202 [0.5] Mechanics of Solids II

CIVE 3203 [0.5] Introduction to Structural AnalysisCIVE 3204 [0.5] Introduction to Structural DesignCIVE 3205 [0.5] Design of Structural Steel

ComponentsCIVE 3206 [0.5] Design of Reinforced Concrete

ComponentsCIVE 3207 [0.5] Historic Site Recording and

AssessmentCIVE 3209 [0.5] Building ScienceECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsECOR 3800 [0.5] Engineering Economics


ARCH 4200 [0.5] Architectural ConservationPhilosophy and Ethics

CIVE 4202 [0.5] Wood EngineeringCIVE 4601 [0.5] Building Pathology and

RehabilitationCIVE 4918 [1.0] Design ProjectECOR 4995 [0.5] Professional PracticeENVE 4105 [0.5] Green Building DesignENVE 4106 [0.5] Indoor Environmental Quality

5. 1.5 credits from: 1.5CIVE 4200 [0.5] Matrix Analysis of Framed

StructuresCIVE 4201 [0.5] Finite Element Methods in Civil

EngineeringCIVE 4302 [0.5] Reinforced and Prestressed

Concrete DesignCIVE 4303 [0.5] Urban PlanningCIVE 4308 [0.5] Behaviour and Design of Steel

StructuresCIVE 4400 [0.5] Construction/Project ManagementCIVE 4403 [0.5] Masonry DesignCIVE 4500 [0.5] Computer Methods in Civil

EngineeringCIVE 4614 [0.5] Building Fire SafetyCIVE 4917 [0.5] Undergraduate Directed StudyENVE 4003 [0.5] Air Pollution and Emissions ControlMECH 4407 [0.5] Heating and Air ConditioningSREE 4002 [0.5] The Energy Economy, Reliability

and Risk(See Note 2, below)

Total Credits 22.0

Notes:

1. For Item 1 and students transferring into ArchitecturalConservation and Sustainability Engineering(Structural or Environmental Stream), students ingood standing and who have successfully completedCHEM 1101 while registered in another engineeringprogram may replace CHEM 1001 and CHEM 1002with CHEM 1101 plus one 0.5 credit course from theBasic Science Electives list.

2. For Item 5 in the Structural Stream, CIVE 4907 mayreplace 1.0 credit.


Architectural Conservation and SustainabilityEngineeringStream B: Environmental (22.0 credits)First year1. 5.5 credits in: 5.5

ARCH 1000 [0.5] Introduction to ArchitectureCHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersENVE 1001 [0.5] Architecture and the EnvironmentMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite




ARCC 2202 [0.5] Architectural Technology 1CCDP 2100 [0.5] Communication Skills for

Engineering StudentsCDNS 2400 [0.5] Heritage Conservation in CanadaCIVE 2004 [0.5] GIS, Surveying, CAD and BIMCIVE 2200 [0.5] Mechanics of Solids ICIVE 2700 [0.5] Civil Engineering MaterialsECOR 2606 [0.5] Numerical MethodsENVE 2001 [0.5] Process Analysis for Environmental




ARCC 2203 [0.5] Architectural Technology 3ARCC 3202 [0.5] Architectural Technology 4CIVE 3204 [0.5] Introduction to Structural DesignCIVE 3207 [0.5] Historic Site Recording and

AssessmentCIVE 3209 [0.5] Building ScienceCIVE 4307 [0.5] Municipal HydraulicsECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsECOR 3800 [0.5] Engineering EconomicsENVE 3001 [0.5] Water Treatment Principles and

DesignENVE 3002 [0.5] Environmental Engineering

Systems ModelingENVE 3004 [0.5] Contaminant and Pollutant

Transport in the EnvironmentFourth year4. 5.0 credits in: 5.0

ARCH 4200 [0.5] Architectural ConservationPhilosophy and Ethics

CIVE 4601 [0.5] Building Pathology andRehabilitation

ECOR 4995 [0.5] Professional PracticeENVE 4005 [0.5] Wastewater Treatment Principles

and DesignENVE 4101 [0.5] Waste ManagementENVE 4104 [0.5] Environmental Planning and Impact

AssessmentENVE 4105 [0.5] Green Building DesignENVE 4106 [0.5] Indoor Environmental QualityENVE 4918 [1.0] Design Project

5. 0.5 credit from: 0.5CIVE 4201 [0.5] Finite Element Methods in Civil

EngineeringCIVE 4303 [0.5] Urban PlanningCIVE 4400 [0.5] Construction/Project ManagementCIVE 4500 [0.5] Computer Methods in Civil

EngineeringENVE 3003 [0.5] Water Resources EngineeringENVE 4003 [0.5] Air Pollution and Emissions ControlENVE 4917 [0.5] Undergraduate Directed StudyMECH 4401 [0.5] Power Plant AnalysisMECH 4403 [0.5] Power Generation SystemsMECH 4406 [0.5] Heat TransferMECH 4407 [0.5] Heating and Air ConditioningSREE 4002 [0.5] The Energy Economy, Reliability

and Risk

Total Credits 22.0

Notes:

1. For Item 1 and students transferring into ArchitecturalConservation and Sustainability Engineering(Structural or Environmental Stream), students ingood standing and who have successfully completedCHEM 1101 while registered in another engineeringprogram may replace CHEM 1001 and CHEM 1002with CHEM 1101 plus one 0.5 credit course from theBasic Science Electives list.

Biomedical and Electrical EngineeringBachelor of Engineering (21.0 credits)First year1. 5.0 credits in: 5.0

BIOL 1103 [0.5] Foundations of Biology ICHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite




6 Engineering


ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsELEC 3105 [0.5] Basic EM and Power EngineeringMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods ISYSC 2006 [0.5] Foundations of Imperative

Programming3. 0.5 credit from: 0.5

BIOL 2005 [0.5] Human PhysiologyBIOL 2201 [0.5] Cell Biology and BiochemistryCHEM 2203 [0.5] Organic Chemistry I


ECOR 2050 [0.5] Design and Analysis of EngineeringExperiments

ELEC 3500 [0.5] Digital ElectronicsELEC 3909 [0.5] Electromagnetic WavesSYSC 3006 [0.5] Computer OrganizationSYSC 3203 [0.5] Bioelectrical SystemsSYSC 3501 [0.5] Communication TheorySYSC 3610 [0.5] Biomedical Systems, Modeling, and

ControlSYSC 4201 [0.5] Ethics, Research Methods

and Standards for BiomedicalEngineering

5. 0.5 credit from: 0.5BIOL 2005 [0.5] Human PhysiologyBIOL 2201 [0.5] Cell Biology and BiochemistryCHEM 2203 [0.5] Organic Chemistry I

6. 0.5 credit from: 0.5ELEC 3908 [0.5] Physical ElectronicsSYSC 2004 [0.5] Object-Oriented Software

DevelopmentFourth year7. 2.5 credits in: 2.5

ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeELEC 4601 [0.5] Microprocessor SystemsSYSC 4203 [0.5] Bioinstrumentation and SignalsSYSC 4405 [0.5] Digital Signal Processing

8. 1.0 credit in: 1.0SYSC 4907 [1.0] Engineering Project

9. 1.0 credit from: 1.0ELEC 4709 [0.5] Integrated SensorsSYSC 4202 [0.5] Clinical EngineeringSYSC 4205 [0.5] Image Processing for Medical

Applications10. 0.5 credit from SYSC or ELEC at the 3000-level orabove.

0.5

11. 1.0 credit in Complementary Studies Electives. 1.0Total Credits 21.0

Notes:

1. For Item 3 above, with the permission of theirdepartment, students may replace this requirementwith an alternate 0.5 credit course in BIOL, BIOC orCHEM.


3. For Item 9 above, with the permission of theirdepartment, students may replace 0.5 credit from thisrequirement with a 0.5 credit course in BIOM at the5000-level.

4. For Item 10 above, with the permission of theirdepartment, students may replace this requirementwith a 0.5 credit course in BIOM at the 5000-level.

Biomedical and Mechanical EngineeringBachelor of Engineering (21.5 credits)First year1. 5.0 credits in: 5.0

BIOL 1103 [0.5] Foundations of Biology ICHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite





MAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat






ECOR 2606 [0.5] Numerical MethodsELEC 3605 [0.5] Electrical EngineeringMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids II


MAAE 3500 [0.5] Feedback Control SystemsMECH 3002 [0.5] Machine Design and PracticeMECH 3310 [0.5] Biofluid MechanicsMECH 3710 [0.5] BiomaterialsSYSC 3610 [0.5] Biomedical Systems, Modeling, and

ControlSYSC 4201 [0.5] Ethics, Research Methods

and Standards for BiomedicalEngineering



ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeMAAE 3400 [0.5] Applied ThermodynamicsMECH 4013 [0.5] Biomedical Device DesignMECH 4210 [0.5] BiomechanicsMECH 4406 [0.5] Heat Transfer

7. 1.0 credit in: 1.0MAAE 4907 [1.0] Engineering Design Project

8. 0.5 credit in MAAE, MECH or AERO at the 4000-level,SYSC 4202 [0.5], SYSC 4203 [0.5]

0.5

9. 1.0 credit in Complementary Studies Electives 1.0Total Credits 21.5

Notes:



Civil EngineeringBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5






CIVE 2004 [0.5] GIS, Surveying, CAD and BIM

CIVE 2101 [0.5] Mechanics IICIVE 2200 [0.5] Mechanics of Solids ICIVE 2700 [0.5] Civil Engineering MaterialsECOR 2606 [0.5] Numerical MethodsERTH 2404 [0.5] Engineering GeoscienceMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat



4. 0.5 credit in Complementary Studies Electives 0.5Third year5. 5.5 credits in: 5.5

CIVE 3202 [0.5] Mechanics of Solids IICIVE 3203 [0.5] Introduction to Structural AnalysisCIVE 3204 [0.5] Introduction to Structural DesignCIVE 3205 [0.5] Design of Structural Steel

ComponentsCIVE 3206 [0.5] Design of Reinforced Concrete

ComponentsCIVE 3208 [0.5] Geotechnical MechanicsCIVE 3209 [0.5] Building ScienceCIVE 3304 [0.5] Transportation Engineering and

PlanningECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsECOR 3800 [0.5] Engineering EconomicsELEC 3605 [0.5] Electrical Engineering


CIVE 4208 [0.5] Geotechnical EngineeringCIVE 4209 [0.5] Highway EngineeringCIVE 4407 [0.5] Municipal EngineeringCIVE 4918 [1.0] Design ProjectECOR 4995 [0.5] Professional Practice

7. 2.0 credits from: 2.0CIVE 4200 [0.5] Matrix Analysis of Framed

StructuresCIVE 4201 [0.5] Finite Element Methods in Civil

EngineeringCIVE 4202 [0.5] Wood EngineeringCIVE 4301 [0.5] Foundation EngineeringCIVE 4302 [0.5] Reinforced and Prestressed

Concrete DesignCIVE 4303 [0.5] Urban PlanningCIVE 4307 [0.5] Municipal HydraulicsCIVE 4308 [0.5] Behaviour and Design of Steel

StructuresCIVE 4400 [0.5] Construction/Project ManagementCIVE 4403 [0.5] Masonry DesignCIVE 4500 [0.5] Computer Methods in Civil

EngineeringCIVE 4614 [0.5] Building Fire SafetyCIVE 4907 [1.0] Engineering Research ProjectCIVE 4917 [0.5] Undergraduate Directed StudyENVE 3003 [0.5] Water Resources EngineeringENVE 4105 [0.5] Green Building Design

8 Engineering


Communications EngineeringBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5

CHEM 1101 [0.5] Chemistry for Engineering StudentsECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite



Wave MotionSYSC 1005 [0.5] Introduction to Software

DevelopmentSYSC 2006 [0.5] Foundations of Imperative

Programming2. 0.5 credit in Complementary Studies Electives 0.5Second year3. 5.0 credits in: 5.0


ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods ISYSC 2004 [0.5] Object-Oriented Software

DevelopmentSYSC 2310 [0.5] Introduction to Digital SystemsSYSC 2320 [0.5] Introduction to Computer

Organization and ArchitectureSYSC 2510 [0.5] Probability, Statistics and Random

Processes for Engineers4. 0.5 credit in Basic Science Electives 0.5Third year5. 4.5 credits in: 4.5


ECOR 3800 [0.5] Engineering EconomicsELEC 3509 [0.5] Electronics IIELEC 3909 [0.5] Electromagnetic WavesSYSC 3310 [0.5] Introduction to Real-Time SystemsSYSC 3500 [0.5] Signals and SystemsSYSC 3503 [0.5] Communication Theory IISYSC 4502 [0.5] Communications SoftwareSYSC 4602 [0.5] Computer Communications

6. 0.5 credit in Complementary Studies Electives 0.5Fourth year7. 3.5 credits in: 3.5

ECOR 4995 [0.5] Professional PracticeSYSC 4405 [0.5] Digital Signal ProcessingSYSC 4504 [0.5] Fundamentals of Web

Development

SYSC 4604 [0.5] Digital Communication TheorySYSC 4700 [0.5] Telecommunications EngineeringSYSC 4701 [0.5] Communications Systems LabSYSC 4810 [0.5] Introduction to Network and

Software Security8. 1.0 credit from: 1.0

SYSC 4907 [1.0] Engineering ProjectELEC 4907 [1.0] Engineering Project

9. 1.0 credit in Communications Electives forCommunications Engineering

1.0

10. 0.5 credit in SYSC or ELEC at the 3000- or 4000-level

0.5

Total Credits 21.5

Notes:

1. For Item 8 above, students should register inSYSC 4907 if their supervisor is in Systems andComputer Engineering, or in ELEC 4907 if theirsupervisor is in Electronics.

2. For Item 9 above, with the permission of theirdepartment, students may replace 0.5 credit from thisrequirement with 0.5 credit in SYSC at the 5000 level.

3. For Item 10 above, with the permission of theirdepartment, students may replace 0.5 credit from thisrequirement with 0.5 credit in SYSC at the 5000 level.

Computer Systems EngineeringBachelor of Engineering (21.5 credits)First year1. 5.0 credits in: 5.0



SciencePHYS 1003 [0.5] Introductory Mechanics and

ThermodynamicsPHYS 1004 [0.5] Introductory Electromagnetism and



ProgrammingSecond year2. 5.0 credits in: 5.0


ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IMATH 2004 [0.5] Multivariable Calculus for


DevelopmentSYSC 2100 [0.5] Algorithms and Data Structures


SYSC 2310 [0.5] Introduction to Digital SystemsSYSC 2320 [0.5] Introduction to Computer

Organization and Architecture3. 0.5 credit in Complementary Studies Electives 0.5Third year4. 5.0 credits in: 5.0


ECOR 3800 [0.5] Engineering EconomicsSYSC 3010 [0.5] Computer Systems Development

ProjectSYSC 3020 [0.5] Introduction to Software

EngineeringSYSC 3303 [0.5] Real-Time Concurrent SystemsSYSC 3310 [0.5] Introduction to Real-Time SystemsSYSC 3320 [0.5] Computer Systems DesignSYSC 3501 [0.5] Communication TheorySYSC 3600 [0.5] Systems and SimulationSYSC 4001 [0.5] Operating Systems


ECOR 4995 [0.5] Professional PracticeELEC 4705 [0.5] Electronic Materials, Devices and

Transmission MediaSYSC 4310 [0.5] Computer Systems ArchitectureSYSC 4602 [0.5] Computer CommunicationsSYSC 4805 [0.5] Computer Systems Design LabSYSC 4810 [0.5] Introduction to Network and

Software Security6. 1.0 credit from: 1.0

SYSC 4907 [1.0] Engineering ProjectELEC 4907 [1.0] Engineering Project

7. 1.5 credits from: 1.5MECH 4503 [0.5] An Introduction to Roboticsor SYSC or ELEC at the 3000-level or above


Notes:

1. For Item 6 above, students should register inSYSC 4907 if their supervisor is in Systems andComputer Engineering, or in ELEC 4907 if theirsupervisor is in Electronics.

2. For Item 7 above, with the permission of theirdepartment, students may replace 1.0 credit from thisrequirement with 1.0 credit in SYSC courses at the5000 level.

Electrical EngineeringBachelor of Engineering (21.5 credits) First year1. 4.0 credits in: 4.0


Series for Engineering or Physics

MATH 1104 [0.5] Linear Algebra for Engineering orScience

PHYS 1004 [0.5] Introductory Electromagnetism andWave Motion



ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsMATH 2004 [0.5] Multivariable Calculus for



Programming4. 0.5 credit in Complementary Studies 0.55. 0.5 credit in Basic Science Electives 0.5Third year6. 5.0 credits in: 5.0


ELEC 3105 [0.5] Basic EM and Power EngineeringELEC 3500 [0.5] Digital ElectronicsELEC 3509 [0.5] Electronics IIELEC 3907 [0.5] Engineering ProjectELEC 3908 [0.5] Physical ElectronicsELEC 3909 [0.5] Electromagnetic WavesSYSC 3006 [0.5] Computer OrganizationSYSC 3501 [0.5] Communication TheorySYSC 3600 [0.5] Systems and Simulation


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeELEC 4601 [0.5] Microprocessor Systems

8. 1.0 credit from: 1.0ELEC 4907 [1.0] Engineering ProjectSYSC 4907 [1.0] Engineering Project

9. 3.0 credits from: 3.0MECH 4503 [0.5] An Introduction to RoboticsSYSC 3020 [0.5] Introduction to Software

EngineeringSYSC 3200 [0.5] Industrial EngineeringELEC 3508 [0.5] Power Electronics

or ELEC OR SYSC at the 4000-level10. 0.5 credit from: 0.5Basic Science Electives, orENVE, CIVE, IDES, MAAE, AERO, MECH at the 2000-level or above, or

ELEC 3508 [0.5] Power ElectronicsMECH 4503 [0.5] An Introduction to RoboticsSYSC 3020 [0.5] Introduction to Software

Engineering

10 Engineering

SYSC 3200 [0.5] Industrial Engineeringor any ELEC or SYSC at the 4000-level

Total Credits 21.5

Note: For Item 8 above, students should register in ELEC4907 if their supervisor is in Electronics, and in SYSC4907 if their supervisor is in Systems and ComputerEngineering.

Engineering PhysicsBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5


CHEM 1101 [0.5] Chemistry for Engineering StudentsECOR 1606 [0.5] Problem Solving and ComputersELEC 1908 [0.5] First Year ProjectMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite


SciencePHYS 1001 [0.5] Foundations of Physics IPHYS 1002 [0.5] Foundations of Physics II


ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods IPHYS 2202 [0.5] Wave Motion and OpticsPHYS 2604 [0.5] Modern Physics ISYSC 2004 [0.5] Object-Oriented Software


ProgrammingThird year4. 5.5 credits in: 5.5


ELEC 3105 [0.5] Basic EM and Power EngineeringELEC 3500 [0.5] Digital ElectronicsELEC 3509 [0.5] Electronics IIELEC 3908 [0.5] Physical ElectronicsELEC 3909 [0.5] Electromagnetic WavesPHYS 3606 [0.5] Modern Physics IIPHYS 3701 [0.5] Elements of Quantum MechanicsPHYS 3807 [0.5] Mathematical Physics ISYSC 3501 [0.5] Communication TheorySYSC 3600 [0.5] Systems and Simulation


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional Practice

ELEC 4908 [1.0] Engineering Physics ProjectPHYS 4007 [0.5] Fourth-Year Physics Laboratory:

Selected Experiments andSeminars

PHYS 4707 [0.5] Introduction to Quantum MechanicsI

6. 1.0 credit in PHYS at the 4000-level, which mustinclude one of:

1.0

PHYS 4203 [0.5] Physical Applications of FourierAnalysis

PHYS 4208 [0.5] Modern OpticsPHYS 4409 [0.5] Thermodynamics and Statistical

PhysicsPHYS 4508 [0.5] Solid State PhysicsPHYS 4807 [0.5] Computational Physics

7. 1.0 credit in ELEC at the 4000-level excluding:ELEC 4504, ELEC 4600, ELEC 4703, and ELEC 4705

1.0


Environmental EngineeringBachelor of Engineering (21.0 credits) First year1. 5.0 credits in: 5.0


CHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite




BIOL 1103 [0.5] Foundations of Biology IBIOL 1104 [0.5] Foundations of Biology IICHEM 2800 [0.5] Foundations for Environmental

ChemistryCIVE 2200 [0.5] Mechanics of Solids IECOR 2606 [0.5] Numerical MethodsENVE 2001 [0.5] Process Analysis for Environmental

EngineeringERTH 2404 [0.5] Engineering GeoscienceMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat



CHEM 3800 [0.5] The Chemistry of EnvironmentalPollutants

CIVE 2700 [0.5] Civil Engineering Materials


CIVE 3208 [0.5] Geotechnical MechanicsCIVE 4307 [0.5] Municipal HydraulicsECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsECOR 3800 [0.5] Engineering EconomicsENVE 3001 [0.5] Water Treatment Principles and

DesignENVE 3002 [0.5] Environmental Engineering

Systems ModelingENVE 3003 [0.5] Water Resources EngineeringENVE 3004 [0.5] Contaminant and Pollutant

Transport in the EnvironmentFourth year4. 4.0 credits in: 4.0

ECOR 4995 [0.5] Professional PracticeENVE 4003 [0.5] Air Pollution and Emissions ControlENVE 4005 [0.5] Wastewater Treatment Principles

and DesignENVE 4006 [0.5] Contaminant HydrogeologyENVE 4101 [0.5] Waste ManagementENVE 4104 [0.5] Environmental Planning and Impact

AssessmentENVE 4918 [1.0] Design Project

5. 1.0 credit from: 1.0CIVE 3304 [0.5] Transportation Engineering and

PlanningCIVE 4208 [0.5] Geotechnical EngineeringCIVE 4301 [0.5] Foundation EngineeringCIVE 4303 [0.5] Urban PlanningCIVE 4400 [0.5] Construction/Project ManagementENVE 4002 [0.5] Environmental Geotechnical

EngineeringENVE 4105 [0.5] Green Building DesignENVE 4106 [0.5] Indoor Environmental QualityENVE 4907 [1.0] Engineering Research ProjectENVE 4917 [0.5] Undergraduate Directed StudyMECH 4401 [0.5] Power Plant AnalysisMECH 4403 [0.5] Power Generation SystemsMECH 4406 [0.5] Heat TransferMECH 4407 [0.5] Heating and Air ConditioningSYSC 3200 [0.5] Industrial EngineeringSREE 3001 [0.5] Sustainable and Renewable

Energy SourcesSREE 4002 [0.5] The Energy Economy, Reliability

and Risk6. 1.0 credit in Complementary Studies Electives 1.0Total Credits 21.0

Note: For Item 1 above and students transferring intoEnvironmental Engineering, students in good standingand who have successfully completed CHEM 1101while registered in another engineering program mayreplace CHEM 1001 and CHEM 1002 with CHEM 1101plus one 0.5 credit from the Basic Science Electives forEngineering.

Mechanical EngineeringBachelor of Engineering (21.5 credits)First year1. 4.0 credits in: 4.0











ELEC 3605 [0.5] Electrical EngineeringMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3500 [0.5] Feedback Control SystemsMAAE 3901 [0.5] Mech and Aero Engineering LabMECH 3002 [0.5] Machine Design and PracticeMECH 3700 [0.5] Principles of ManufacturingSYSC 3600 [0.5] Systems and Simulation


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeMAAE 4102 [0.5] Materials: Strength and FractureMAAE 4907 [1.0] Engineering Design ProjectMECH 4003 [0.5] Mechanical Systems DesignMECH 4406 [0.5] Heat Transfer


Total Credits 21.5

12 Engineering

Mechanical Engineering with Concentration inIntegrated ManufacturingBachelor of Engineering (22.0 credits)First year1. 4.0 credits in: 4.0

CHEM 1101 [0.5] Chemistry for Engineering StudentsMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite



Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and Computers


MATH 2004 [0.5] Multivariable Calculus forEngineering or Physics

MATH 3705 [0.5] Mathematical Methods IMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferMAAE 2700 [0.5] Engineering MaterialsECOR 2606 [0.5] Numerical MethodsCCDP 2100 [0.5] Communication Skills for

Engineering Students4. 0.5 credit in Basic Science Electives 0.5Third year5. 5.5 credits in: 5.5

MAAE 3004 [0.5] Dynamics of MachineryECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3901 [0.5] Mech and Aero Engineering LabMECH 3002 [0.5] Machine Design and PracticeMECH 3700 [0.5] Principles of ManufacturingSYSC 3600 [0.5] Systems and SimulationELEC 3605 [0.5] Electrical EngineeringMAAE 3500 [0.5] Feedback Control Systems


MAAE 4102 [0.5] Materials: Strength and FractureMAAE 4907 [1.0] Engineering Design ProjectECOR 4995 [0.5] Professional PracticeMECH 4003 [0.5] Mechanical Systems DesignMECH 4406 [0.5] Heat TransferECOR 3800 [0.5] Engineering EconomicsSYSC 3200 [0.5] Industrial Engineering

7. 1.5 credits from: 1.5

MECH 4501 [0.5] State Space Modeling and ControlMECH 4503 [0.5] An Introduction to RoboticsMECH 4604 [0.5] Finite Element MethodsMECH 4704 [0.5] Integrated Manufacturing - CIMSMECH 4705 [0.5] CAD/CAMMECH 4805 [0.5] Measurement and Data SystemsMECH 4806 [0.5] Mechatronics


Total Credits 22.0

Software EngineeringBachelor of Engineering (21.5 credits)First year1. 5.0 credits in: 5.0



SciencePHYS 1003 [0.5] Introductory Mechanics and

ThermodynamicsPHYS 1004 [0.5] Introductory Electromagnetism and



ProgrammingSecond year2. 4.5 credits in: 4.5


COMP 1805 [0.5] Discrete Structures IELEC 2501 [0.5] Circuits and SignalsMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsSYSC 2004 [0.5] Object-Oriented Software

DevelopmentSYSC 2100 [0.5] Algorithms and Data StructuresSYSC 2310 [0.5] Introduction to Digital SystemsSYSC 2320 [0.5] Introduction to Computer

Organization and ArchitectureSYSC 3101 [0.5] Programming Languages

3. 1.0 credit in Complementary Studies Electives 1.0Third year4. 4.5 credits in: 4.5

COMP 3005 [0.5] Database Management SystemsECOR 2050 [0.5] Design and Analysis of Engineering

ExperimentsECOR 3800 [0.5] Engineering EconomicsSYSC 3110 [0.5] Software Development ProjectSYSC 3120 [0.5] Software Requirements

Engineering


SYSC 3303 [0.5] Real-Time Concurrent SystemsSYSC 3310 [0.5] Introduction to Real-Time SystemsSYSC 4001 [0.5] Operating SystemsSYSC 4106 [0.5] Software Product Management

5. 0.5 credit from: 0.5ECOR 2606 [0.5] Numerical MethodsELEC 2507 [0.5] Electronics ISYSC or ELEC course at the 3000 level or above


ECOR 4995 [0.5] Professional PracticeELEC 4705 [0.5] Electronic Materials, Devices and

Transmission MediaSYSC 4005 [0.5] Discrete Simulation/ModelingSYSC 4101 [0.5] Software ValidationSYSC 4120 [0.5] Software Architecture and DesignSYSC 4806 [0.5] Software Engineering LabSYSC 4810 [0.5] Introduction to Network and

Software Security7. 1.0 credit in: 1.0

SYSC 4907 [1.0] Engineering Project8. 0.5 credit from the list in Item 5 0.59. 1.0 credit from the list in Item 5, or from: 1.0

COMP 2804 [0.5] Discrete Structures IICOMP 3002 [0.5] Compiler ConstructionCOMP 3008 [0.5] Human-Computer InteractionCOMP 3400 [0.5] Computational Logic and

Automated ReasoningCOMP 3501 [0.5] Foundations of Game

Programming and ComputerGraphics

COMP 3801 [0.5] Algorithms for Modern Data SetsCOMP 3803 [0.5] Introduction to Theory of

ComputationCOMP 3804 [0.5] Design and Analysis of Algorithms ICOMP 4000 [0.5] Distributed Operating SystemsCOMP 4002 [0.5] Real-Time 3D Game EnginesCOMP 4003 [0.5] Transaction Processing SystemsCOMP 4009 [0.5] Programming for Clusters and

Multi-Core ProcessorsCOMP 4102 [0.5] Computer VisionCOMP 4106 [0.5] Artificial IntelligenceCOMP 4109 [0.5] Applied CryptographyCOMP 4111 [0.5] Data Management for Business

Intelligence

Total Credits 21.5

Note: For Item 9 above, with the permission of theirdepartment, students may replace 1.0 credit from thisrequirement with 1.0 credit in SYSC courses at the 5000level.

Sustainable and Renewable Energy Stream A:Smart Technologies for Power Generation andDistributionBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5





Wave Motion2. 0.5 credit in Complementary Studies Electives 0.53. Successful completion of: 0.0

SREE 1000 [0.0] Introduction to Sustainable EnergySecond year4. 5.0 credits in: 5.0

ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsENVE 2001 [0.5] Process Analysis for Environmental



Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods ISYSC 2006 [0.5] Foundations of Imperative

Programming5. 0.5 credit in Basic Science Electives 0.5Third year6. 5.0 credits in: 5.0


ELEC 3508 [0.5] Power ElectronicsELEC 4602 [0.5] Electrical Power EngineeringMAAE 3400 [0.5] Applied ThermodynamicsSREE 3001 [0.5] Sustainable and Renewable

Energy SourcesSREE 3002 [0.5] Electricity: Use, Distribution,

Integration of DistributedGeneration

SREE 3003 [0.5] Sustainable and RenewableElectricity Generation

SYSC 3006 [0.5] Computer OrganizationSYSC 3200 [0.5] Industrial EngineeringSYSC 3600 [0.5] Systems and Simulation


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeELEC 4703 [0.5] Solar CellsENVE 4003 [0.5] Air Pollution and Emissions ControlSREE 4001 [0.5] Efficient Energy ConversionSREE 4002 [0.5] The Energy Economy, Reliability

and Risk

14 Engineering

SYSC 4505 [0.5] Automatic Control Systems ISYSC 4602 [0.5] Computer Communications

8. 1.0 credit in: 1.0SREE 4907 [1.0] Energy Engineering Project

9. 0.5 credit in any 3000-level or 4000-level Engineeringcourse for which prerequisites have been satisfied

0.5

10. 0.5 credit in any 4000-level Engineering course forwhich prerequisites have been satisfied

0.5

Total Credits 21.5

Sustainable and Renewable Energy Stream B:Efficient Energy Generation and ConversionBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5





Wave Motion2. 0.5 credit in Complementary Studies Electives 0.53. Successful completion of: 0.0

SREE 1000 [0.0] Introduction to Sustainable EnergySecond year4. 5.0 credits in: 5.0

ECOR 2606 [0.5] Numerical MethodsELEC 3605 [0.5] Electrical EngineeringENVE 2001 [0.5] Process Analysis for Environmental

EngineeringMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat





ELEC 4602 [0.5] Electrical Power EngineeringMAAE 2700 [0.5] Engineering MaterialsMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3500 [0.5] Feedback Control SystemsSREE 3001 [0.5] Sustainable and Renewable

Energy Sources

SREE 3002 [0.5] Electricity: Use, Distribution,Integration of DistributedGeneration

SREE 3003 [0.5] Sustainable and RenewableElectricity Generation

SYSC 3200 [0.5] Industrial EngineeringSYSC 3600 [0.5] Systems and Simulation


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeENVE 4003 [0.5] Air Pollution and Emissions ControlMECH 4406 [0.5] Heat TransferMECH 4408 [0.5] Thermofluids and Energy Systems

DesignSREE 4001 [0.5] Efficient Energy ConversionSREE 4002 [0.5] The Energy Economy, Reliability

and Risk8. 1.0 credit in: 1.0

SREE 4907 [1.0] Energy Engineering Project9. 0.5 credit in any 3000-level or 4000-level Engineeringcourse for which prerequisites have been satisfied

0.5

10. 0.5 credit in any 4000-level Engineering course forwhich prerequisites have been satisfied

0.5

Total Credits 21.5

RegulationsRegulationsThe regulations presented in this section apply to allBachelor of Engineering programs.

In addition to the requirements presented here, studentsmust satisfy the University regulations common toall undergraduate students including the process ofAcademic Performance Evaluation (see the AcademicRegulations of the University section of this Calendar),with the following additions and amendments:

Academic Performance Evaluation for Engineering1. In Engineering programs, all credits are included in the

Major CGPA, making it identical to the Overall CGPA.2. Students who are not assigned the status Good

Standing or Academic Warning will be required toleave the degree with either the status Continue inAlternate (CA) or the status Dismissed from Program(DP).

GraduationStudents in Engineering programs are covered by thecommon University regulations regarding graduation, withthe following additions and amendments.

1. Students entering an Engineering program withAdvanced Standing will receive transfer credit for atmost ten of the credits required for their program.

2. Students must take a minimum of 1.0 credit ofcomplementary studies at Carleton University.

Course LoadRegulations regarding Course Load and Overload canbe found in the Academic Regulations of the Universitysection of this Calendar. The normal course load in


Engineering is defined as the number of credits requiredin the student's program for the current year status of thestudents. Since the programs in Engineering require morethan 20.0 credits in total, the normal course load is morethan 5.0 credits in some years of the program. Registrationin more than this number of credits constitutes anoverload.

Co-operative Education ProgramsAll Engineering programs are available with or withoutparticipation in the Co-operative Education option.

Year Status for EngineeringIn the Bachelor of Engineering Degree program, YearStatus is defined as follows.

1st year: Admission to the program.

2nd year: Successful completion of all Engineering,Science and Mathematics course requirements in the firstyear of the program, all English as a Second LanguageRequirements, and any additional requirements asdetermined in the admissions process.

3rd year: Successful completion of 4.0 credits from thesecond year requirements of the program.

4th year: Successful completion of all second yearrequirements and 3.5 credits from the third yearrequirements of the program.

Year Status PrerequisitesYear Status in Engineering is used in some courseprerequisites to limit access to only those students whohave sufficient preparation. In particular students will nothave access to second, third or fourth year engineering,science or mathematics courses until they have achievedsecond year status. Similarly, to take some specificengineering, science and mathematics courses in thirdor fourth year, that year status must be achieved. Foradditional information on prerequisites, see the individualcourse descriptions.

Time LimitThe Bachelor of Engineering degree must be completedwithin eight calendar years of initial registration. Studentswho do not complete their program requirements withinthis limit will be given the status Continue in Alternate.

Academic AppealsThe Engineering Committee on Admission and Studieshandles all academic appeals.

Co-operative EducationFor more information about how to apply for the Co-opprogram and how the Co-op program works please visitthe Co-op website.

All students participating in the Co-op program aregoverned by the Undergraduate Co-operative EducationPolicy.

Undergraduate Co-operative Education PolicyAdmission RequirementsStudents can apply to co-op in one of two ways; directlyfrom high school or after beginning a degree program atCarleton.

If a student is admitted to co-op from high school, theirgrades will be reviewed two terms to one year prior totheir first work term to ensure they continue to meet theacademic requirements after their 1st or 2nd year of study.The time at which evaluation takes place depends on theprogram of study. Students will automatically be notifiedvia their Carleton email account if they are permitted tocontinue.

Students not admitted to Carleton University with the co-op option on their degree can apply for admission viathe co-operative education program website. To viewapplication deadlines, visit carleton.ca/co-op.

Admission to the co-op option is based on the completionof 5.0 or more credits at Carleton University, the CGPArequirement for the students' academic program as wellas any course prerequisites. The articulated CGPA foreach program is the normal standard for assessment.Please see the specific degree program sections for theunique admission and continuation requirements for eachacademic program.

English Language ProficiencyStudents admitted to Carleton based on CAEL, IELTSor TOEFL assessments and who are required to take anESL course must take and pass the Oral Proficiency inCommunicative Settings (OPECS) Test. The test must betaken before being permitted to register in COOP 1000.Admission to the co-op program can be confirmed with aminimum score of 4+.

Participation RequirementsCOOP 1000Once a student has been given admission or continuationconfirmation to the co-op option s/he must complete andpass COOP 1000 (a mandatory online 0.0 credit course).Students will have access to this course a minimum of twoterms prior to their first work term and will be notified whento register.

Communication with the Co-op OfficeStudents must maintain contact with the co-op officeduring their job search and while on a work term. Allemail communication will be conducted via the students'Carleton email account.

EmploymentAlthough every effort is made to ensure a sufficientnumber of job postings for all students enrolled in theco-op option of their degree program, no guarantee ofemployment can be made. Carleton's co-op programoperates a competitive job search process and isdependent upon current market conditions. Academicperformance, skills, motivation, maturity, attitude andpotential will determine whether a student is offered a job.It is the student's responsibility to actively conduct a jobsearch in addition to participation in the job search process

16 Engineering

operated by the co-op office. Once a student accepts a co-op job offer (verbally or written), his/her job search will endand access to co-op jobs will be removed for that term.Students that do not successfully obtain a co-op work termare expected to continue with their academic studies. Thesummer term is the exception to this rule. Students shouldalso note that hiring priority is given to Canadian citizensfor co-op positions in the Federal Government of Canada.

Registering in Co-op CoursesStudents will be registered in a Co-op Work Term coursewhile at work. The number of Co-op Work Term coursesthat a student is registered in is dependent upon thenumber of four-month work terms that a student accepts.

While on a co-op work term students may take a maximumof 0.5 credit throughout each four-month co-op work term.Courses must be scheduled outside of regular workinghours.

Students must be registered as full-time before theybegin their co-op job search (2.0 credits). All co-op workterms must be completed before the beginning of the finalacademic term. Students may not finish their degree on aco-op work term.

Work Term Assessment and EvaluationTo obtain a Satisfactory grade for the co-op work termstudents must have:

1. A satisfactory work term evaluation by the co-opemployer;

2. A satisfactory grade on the work term report.

Students must submit a work term report at the completionof each four-month work term. Reports are due on the16th of April, August, and December and students arenotified of due dates through their Carleton email account.

Workplace performance will be assessed by the workplacesupervisor. Should a student receive an unsatisfactoryrating from their co-op employer, an investigation bythe co-op program manager will be undertaken. Anunsatisfactory employer evaluation does not preclude astudent from achieving an overall satisfactory rating for thework term.

Graduation with the Co-op DesignationIn order to graduate with the co-op designation, studentsmust satisfy all requirements for their degree programin addition to the requirements according to each co-opprogram (i.e. successful completion of three or four workterms).

Note: Participation in the co-op option will add up to oneadditional year for a student to complete their degreeprogram.

Voluntary Withdrawal from the Co-op OptionStudents may withdraw from the co-op option of theirdegree program during a study term ONLY. Students atwork may not withdraw from the work term or the co-opoption until s/he has completed the requirements of thework term.

Students are eligible to continue in their regular academicprogram provided that they meet the academic standardsrequired for continuation.

Involuntary or Required Withdrawal from the Co-opOptionStudents may be required to withdraw from the co-opoption of their degree program for one or any of thefollowing reasons:

1. Failure to achieve a grade of SAT in COOP 10002. Failure to pay all co-op related fees3. Failure to actively participate in the job search process4. Failure to attend all interviews for positions to which

the student has applied5. Declining more than one job offer during the job search

process6. Continuing a job search after accepting a co-op

position7. Dismissal from a work term by the co-op employer8. Leaving a work term without approval by the Co-op

manager9. Receipt of an unsatisfactory work term evaluation

10. Submission of an unsatisfactory work term report

Standing and AppealsThe Co-op and Career Services office administers theregulations and procedures that are applicable to all co-op program options. All instances of a student's failureduring a work term or other issues directly related to theirparticipation in the co-op option will be reported to theacademic department.

Any decision made by the Co-op and Career Servicesoffice can be appealed via the normal appeal processwithin the University.

International StudentsAll International Students are required to possess a Co-op Work Permit issued by Citizenship and ImmigrationCanada before they can begin working. It is illegal to workin Canada without the proper authorization. Students willbe provided with a letter of support to accompany theirapplication. Students must submit their application fortheir permit before being permitted to view and apply forjobs on the Co-op Services database. Confirmation of aposition will not be approved until a student can confirmthey have received their permit. Students are advised todiscuss the application process and requirements with theInternational Student Services Office.

Bachelor of Engineering: Co-op Admission andContinuation Requirements

• Maintain full-time status in each study term (2.0credits);

• Be eligible to work in Canada (for off-campus work)• Have successfully completed COOP 1000 [0.0]

In addition to the following:

1. Registered as a full-time student in the Engineeringprogram

2. An overall CGPA of 8.00 or higher;


3. Successfully completed all required first year coursesincluding CCDP 2100 before beginning the first workterm;

4. Students must be eligible for third-year standingwhen they return for a study term after their first workplacement.

Students in all Bachelor of Engineering concentrationsmust successfully complete four (4) work terms to obtainthe co-op designation.

Work Term Courses:Aerospace Engineering and Mechanical Engineering,Biomedical and Mechanical Engineering:

MAAE 3999 [0.0] Co-operative Work TermArchitectural Conservation and Sustainability Engineering:

CIVE 3999 [0.0] Co-operative Work Termor ENVE 3999 [0.0]Co-operative Work Term

Civil EngineeringCIVE 3999 [0.0] Co-operative Work Term

Communications Engineering, Computer SystemsEngineering and Software Engineering:

SYSC 3999 [0.0] Co-operative Work TermBiomedical and Electrical Engineering, ElectricalEngineering and Engineering Physics:

ELEC 3999 [0.0] Co-operative Work TermEnvironmental Engineering

ENVE 3999 [0.0] Co-operative Work TermSustainable and Renewable Energy Engineering

ELEC 3999 [0.0] Co-operative Work TermMAAE 3999 [0.0] Co-operative Work Term

(depending on student's stream)

Work/Study PatternsAerospace Engineering, Architectural Conservationand Sustainability Engineering, Biomedicaland Mechanical Engineering, Civil Engineering,Communications Engineering, EnvironmentalEngineering, Mechanical Engineering, Sustainable andRenewable Energy EngineeringYear 1 Year 2 Year 3 Year 4 Year 5

Term Pattern Term Pattern Term Pattern Term Pattern Term Pattern

Fall S Fall S Fall S Fall W Fall S

Winter S Winter S Winter S Winter W Winter S

Summer**O SummerO/W SummerW SummerW

Electrical Engineering, Engineering PhysicsYear 1 Year 2 Year 3 Year 4 Year 5


Fall S Fall S Fall W Fall W Fall S

Winter S Winter S Winter S Winter W Winter S

Summer**O SummerW SummerS SummerW

Biomedical and Electrical Engineering, ComputerSystems Engineering, Software EngineeringYear 1 Year 2 Year 3 Year 4 Year 5


Fall S Fall S Fall S Fall W Fall S

Winter S Winter S Winter W Winter S Winter S

Summer SummerW SummerW SummerW

LegendS: Study

W: WorkO: Optional* indicates recommended work study pattern** student finds own employer for this work-term.

Admissions InformationAdmission Requirements are for the 2018-2019 yearonly, and are based on the Ontario High School System.Holding the minimum admission requirements onlyestablishes eligibility for consideration. The cut-offaverages for admission may be considerably higher thanthe minimum. See also the General Admission andProcedures section of this Calendar. An overall averageof at least 70% is normally required to be considered foradmission. Some programs may also require specificcourse prerequisites and prerequisite averages and/orsupplementary admission portfolios. Higher averagesare required for admission to programs for which thedemand for places by qualified applicants exceeds thenumber of places available. The overall average requiredfor admission is determined each year on a program byprogram basis. Consult admissions.carleton.ca for furtherdetails.

Note: Courses listed as recommended are notmandatory for admission. Students who do not followthe recommendations will not be disadvantaged in theadmission process.

Degree• B. Eng.

Admission RequirementsFirst YearThe Ontario Secondary School Diploma (OSSD) orequivalent including a minimum of six 4U or M courses.The six 4U or M courses must include four prerequisitecourses (4U courses in Advanced Functions, Chemistry,Physics, and one of Calculus and Vectors (recommended)or Biology or Earth and Space Science). Although it is notan admission requirement, at least one 4U course in eitherEnglish or français is recommended.

The overall admission cut-off average and/or theprerequisite course average may be considerablyhigher than the stated minimum requirements for someEngineering programs.

Advanced StandingApplications for admission with advanced standing to theprogram leading to the Bachelor of Engineering degree willbe evaluated on an individual basis. Successful applicantswill have individual academic subjects, completed withgrades of C- or higher, evaluated for academic standing,provided the academic work has been completed atanother university or degree-granting college or in anotherdegree program at Carleton University. Students musttake a minimum of 1.0 credit of complementary studies atCarleton University.

Co-op Option

Direct Admission to the First Year of the Co-op OptionApplicants must:

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1. meet the required overall admission cut-off averageand prerequisite course average. These averages maybe higher than the stated minimum requirements;

2. be registered as a full-time student in the Engineeringdegree;

3. be eligible for work in Canada (for off-campus workplacements).

Note that meeting the above entrance requirementsonly establishes eligibility for admission to the program.Enrolment in the co-op option may be limited at thediscretion of the department.

Note: continuation requirements for students previouslyadmitted to the co-op option and admission requirementsfor the co-op option after beginning the program aredescribed in the Co-operative Education Regulationssection of this Calendar.

Aerospace Engineering (AERO) CoursesAERO 3002 [0.5 credit]Aerospace Design and PracticeDesign approach and phases. Design integration.Influence of mission and other requirements on vehicleconfiguration. Trade-off studies, sizing and configurationlayout. Flight vehicle loads, velocity-load factor diagram.Structural design: overall philosophy, role in designprocess, methods.Prerequisite(s): MAAE 2001 and third-year status inEngineering.Lectures three hours a week, problem analysis three hoursa week.

AERO 3101 [0.5 credit]Lightweight StructuresStructural concepts; theory of elasticity; bending, torsionand shear in thin-walled beams having single or multi-cellsections; work and energy principles; deformation andforce analysis of advanced structures, including stiffenedthin-wall panels; finite element methods. Stability andbuckling of thin-walled structures.Prerequisite(s): MAAE 3202.Lectures three hours a week; problem analysis andlaboratories one hour a week.

AERO 3240 [0.5 credit]Orbital MechanicsReview of translational kinematics and dynamics.Keplerian two-body problem: Kepler's laws, orbitalelements, orbit determination. Orbital perturbations:oblateness of the Earth, atmospheric drag. Orbitalmaneuvers and interplanetary flights. Advanced topics.Prerequisite(s): MAAE 2101.Lectures three hours per week, tutorial one hour per week.

AERO 3700 [0.5 credit]Aerospace MaterialsProperties, behaviour and manufacturing methods formetals, polymers and ceramics used in aerospaceapplications. Specialty alloys for gas turbines. Propertiesand manufacture of aerospace composites. Behaviour ofmaterials in space.Prerequisite(s): MAAE 2700.Lectures three hours a week; problem analysis andlaboratories one hour a week.

AERO 3841 [0.5 credit]Spacecraft Design IDesign of spacecraft and spacecraft subsystems withemphasis on mission requirements and current designmethods: spacecraft configuration, payload, structural,attitude control, thermal, power, and other relatedsubsystems. Spacecraft integration and testing.Prerequisite(s): AERO 3240.Lectures three hours a week, tutorials or laboratories threehours per week.

AERO 4003 [0.5 credit]Aerospace Systems DesignStress and deflection analysis; fatigue, safe life, damagetolerant design. Propulsion systems integration; landinggear; control and other subsystems. Mechanicalcomponent design. Airworthiness regulations andcertification procedures. Weight and cost estimation andcontrol. System reliability. Design studies of aircraft orspacecraft components.Prerequisite(s): MAAE 2202 and AERO 3002.Lectures three hours a week, problem analysis three hoursa week.

AERO 4009 [0.5 credit]Aviation Management and CertificationProduct development, quality control. Strategicorganizational analysis and design. Airworthiness, typecertification and planning, delegation of authority, airplaneflight manual. Aerospace system design and safety.Prerequisite(s): fourth-year status in Engineering.Lectures three hours per week.

AERO 4300 [0.5 credit]Acoustics and Noise ControlBehaviour of compressible fluids, sound waves andproperties of sound sources; measurement of sound;human perception of sound; prediction methods basedon energy considerations; sound propagation in realisticenvironments: outdoors, rooms, ducts; absorption andtransmission loss, noise control; case studies.Prerequisite(s): MATH 3705 and fourth-year status inEngineering.Lectures three hours a week.


AERO 4302 [0.5 credit]Aerodynamics and Heat TransferDifferential equations of motion. Viscous and inviscidregions. Potential flow: superposition; thin airfoils; finitewings; compressibility corrections. Viscous flow: thinshear layer approximation; laminar layers; transition;turbulence modeling. Convective heat transfer: free versusforced convection; energy and energy integral equations;turbulent diffusion.Prerequisite(s): MAAE 3300.Also offered at the graduate level, with differentrequirements, as MECH 5000., for which additional creditis precluded.Lectures three hours a week.

AERO 4304 [0.5 credit]Computational Fluid DynamicsDifferential equations of motion. Numerical integrationof ordinary differential equations. Potential flows: panelmethods; direct solution; vortex-lattice methods. Finite-difference formulations: explicit versus implicit methods;stability. Parabolized and full Navier-Stokes equations;conservation form. Transonic and supersonic flows:upwind differencing. Grid transformations. Computer-based assignments.Prerequisite(s): MAAE 3300 or MECH 3310.Lectures three hours a week.

AERO 4306 [0.5 credit]Aerospace Vehicle PerformanceMorphology of aircraft and spacecraft. Performanceanalysis of fixed wing aircraft: drag estimation, propulsion,take-off, climb and landing, endurance, payload/range,manoeuvres; operational economics. Performanceanalysis of rotor craft: rotor-blade motion, hovering andvertical ascent, forward flight, and autorotation. Rocketpropulsion; escape velocity; orbital dynamics.Prerequisite(s): MAAE 3300.Lectures three hours a week.

AERO 4308 [0.5 credit]Aircraft Stability and ControlStatic stability and control: equilibrium requirements;longitudinal stability requirements; neutral points;manoeuvring flight; control forces and controlrequirements; lateral static stability certificationrequirements. Dynamic stability: axis systems; governingequations; phugoid and short period modes; lateraldynamic modes. Closed-loop control.Prerequisite(s): MAAE 3300. Additional recommendedbackground: MAAE 4500.Also offered at the graduate level, with differentrequirements, as MECH 5101., for which additional creditis precluded.Lectures three hours a week.

AERO 4402 [0.5 credit]Aerospace PropulsionPropulsion requirements, effects of Mach Number,altitude, and application; basic propeller theory; propeller,turboshaft, turbojet, turbofan and rocket; cycle analysisand optimization for gas turbine power plant; inter-relationsbetween thermodynamic, aerodynamic and mechanicaldesigns; rocket propulsion; selection of aeroengines.Precludes additional credit for MECH 4401.Prerequisite(s): MAAE 2400 and MAAE 3300.Lectures three hours a week.

AERO 4442 [0.5 credit]Transatmospheric and Spacecraft PropulsionPlanetary/interplanetary environments and effects. Launchand spacecraft propulsion: liquid/solid/hybrid rockets,ram/scramjets, combined cycle engines, electrothermal,electromagnetic, electrostatic, nuclear, and propellantlesspropulsion. Trajectory analysis, multi-staging, separationdynamics. Advanced engine concepts.Prerequisite(s): AERO 4302 or AERO 4446 orMECH 4406.Lectures three hours a week.

AERO 4446 [0.5 credit]Heat Transfer for Aerospace ApplicationsFundamentals of heat transfer with emphasis onaerospace systems design. Conduction, convection andradiation modes of heat transfer. Radiation exchangebetween surfaces and view factors. Radiation inspacecraft thermal control. High speed flight and reentryheating.Precludes additional credit for MECH 4406.Prerequisite(s): MAAE 2400, MAAE 3300.Lectures three hours a week.

AERO 4540 [0.5 credit]Spacecraft Attitude Dynamics and ControlRigid body dynamics. The dynamic behavior of spacecraft.Environmental torques. The design of attitude controlsystems. Gravity gradient, spin, and dual spin stabilization.Attitude manoeuvres. The design of automatic controlsystems. Impacts of attitude stabilization techniques onmission performance.Prerequisite(s): MATH 3705, AERO 3240, MAAE 3500and SYSC 3600.Lectures three hours a week.

AERO 4602 [0.5 credit]Introductory AeroelasticityReview of structural behaviour of lifting surface elements;structural dynamics, Laplace Transforms, dynamicstability; modal analysis; flutter, Theodorsen's theory;flutter of a typical section; wing flutter, T-tail flutter,propeller whirl flutter; gust response; buffeting, limit cycleflutter.Prerequisite(s): MAAE 3300 and SYSC 3600.Lectures three hours a week.

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AERO 4607 [0.5 credit]Rotorcraft Aerodynamics and PerformanceRotorcraft history and fundamentals. Momentum theory:hover, axial climb and descent, autorotation, forward flight,momentum theory for coaxial and tandem rotors. Bladeelement analysis. Rotor airfoil aerodynamics. Rotor bladedynamics and trim. Helicopter performance, height-velocitycurves, conceptual design. High-speed rotorcraft.Prerequisite(s): MAAE 3300 and MAAE 3004.Lectures three hours per week.

AERO 4608 [0.5 credit]Composite MaterialsReinforcing mechanisms in composite materials; materialproperties. Strength and elastic constants of unidirectionalcomposites; failure criteria. Analysis of laminated plates;bending and eigenvalue problems. Environmental effectsand durability. Damage tolerance. Design of compositestructures.Prerequisite(s): MAAE 3202.Lectures three hours a week.

AERO 4609 [0.5 credit]Joining of MaterialsDesign for joining: base material and componentgeometry. Selection of joining method and filler material;Adhesive bonding; Soldering; Brazing; Diffusion bonding;Resistance welding; Fusion welding (GTAW, EB, laserand plasma arc); Friction welding; NDE. Emphasis onAerospace materials and applications.Prerequisite(s): AERO 3700 or MECH 3700.Lectures three hours per week.

AERO 4842 [0.5 credit]Spacecraft Design IISystem view of spacecraft. Requirements definition.Spacecraft payloads (remote sensing, imaging systems,astronomy instrumentation etc.). Exploration missions.Implications for systems and missions. Space systemdesign case studies.Precludes additional credit for AERO 4802 (no longeroffered).Prerequisite(s): AERO 3841.Lectures three hours a week, tutorials or laboratories onehour per week.

Civil Engineering (CIVE) CoursesCIVE 2004 [0.5 credit]GIS, Surveying, CAD and BIMEngineering geometry and spatial graphics. Fundamentalsof surveys. Digital surveying tools; total station, GPS.Computer-Aided Drafting (CAD). Geographic InformationSystems (GIS). Spatial referencing. Building InformationModelling (BIM). Integrated design using digital tools. Fieldexercises using software to process and evaluate spatialdata.Prerequisite(s): ECOR 1010.Lectures three hours a week, problem analysis andlaboratories three hours a week.

CIVE 2005 [0.5 credit]Architectural Technology 2Technical issues involved in architectural designof buildings from ancient times to the present.Technological innovation and materials related to structuraldevelopments, and the organization and design ofstructures. Basic concepts of calculus, equilibrium, andmechanics of materials. Not eligible for use for Bachelor ofEngineering degree requirements.Prerequisite(s): ARCC 2202.Lectures three hours a week, laboratory three hours aweek.

CIVE 2101 [0.5 credit]Mechanics IIPlane trusses. Virtual work. Friction. Relative motion ofparticles. Kinematics of a rigid body: translation, rotation;general plane motion; absolute and relative motion.Kinetics of a rigid body: equations of motion; work-energy;impulse-momentum; conservation of momentum andenergy. Conservative forces and potential energy.Precludes additional credit for MAAE 2101 and ECOR2101.Prerequisite(s): ECOR 1101 and MATH 1004 andMATH 1104.Lectures three hours a week, problem analysis three hoursa week.

CIVE 2200 [0.5 credit]Mechanics of Solids IStress and strain. Stress-strain relationship: Hooke'slaw. Torsion of circular shafts. Bending moment andshear force distribution. Flexural stresses. Deflection.Shear stress in beams. Stresses in thin- walled cylinders.Transformation of 2D stress and strain: Mohr's circle.Buckling of columns.Precludes additional credit for MAAE 2202.Prerequisite(s): ECOR 1101 for B.Eng. students orCIVE 2005 for B.A.S. with Concentration in Conservationand Sustainability.Lectures three hours a week, problem analysis andlaboratory three hours a week.

CIVE 2700 [0.5 credit]Civil Engineering MaterialsIntroduction to material science. Structure of atoms.Crystallography. Crystal Imperfections. Characteristics,behaviour and use of Civil Engineering materials:steel, concrete, asphalt, wood, polymers, composites.Specifications. Physical, chemical and mechanicalproperties. Quality control and material tests. Fatigue.Corrosion. Applications in construction and rehabilitation ofstructures.Prerequisite(s): second year status for students in anEngineering program or second year standing in a B.A.S.major in Conservation and Sustainability.Lectures three hours a week, problem analysis andlaboratory three hours a week.


CIVE 3202 [0.5 credit]Mechanics of Solids IIShear flow. Definition of shear centre, Saint Venantand warping torsional constants. Behaviour, governingdifferential equations and solutions for torsion, beam-columns, lateral torsional buckling of doubly symmetricbeams, axially loaded doubly symmetric, singly symmetricand asymmetric columns. Failure criterion, fatigue andfracture.Precludes additional credit for MAAE 3202.Prerequisite(s): CIVE 2200.Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.

CIVE 3203 [0.5 credit]Introduction to Structural AnalysisConcepts and assumptions for structural analysis:framed structures; joints; supports; compatibility andequilibrium; stability and determinacy; generalized forcesand displacements. Principle of Virtual Work: unknownforce calculations; influence lines. Complementary VirtualWork: displacement calculations, indeterminate analysis.Introduction to the Stiffness Method of Analysis.Prerequisite(s): CIVE 2200 and MATH 1004.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3204 [0.5 credit]Introduction to Structural DesignBuilding systems and structural form. Design Philosophyand design process. Limit states design. National BuildingCode of Canada. Determination of dead, live, snow, wind,and earthquake loads.Prerequisite(s): CIVE 2200.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3205 [0.5 credit]Design of Structural Steel ComponentsIntroduction to CAN/CSA - S16, design and behaviourconcepts; shear lag, block shear, local plate buckling,lateral torsional buckling, instantaneous centre, inelasticstrength and stability. Design of tension members, axiallyloaded columns, beams, beam-columns, simple boltedand welded connections.Prerequisite(s): CIVE 2200 and CIVE 2700.Recommended prerequisite: CIVE 3204.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3206 [0.5 credit]Design of Reinforced Concrete ComponentsIntroduction to CAN/CSA - A23.3; design and behaviourconcepts; flexural analysis at service loads; shear, bond,Whitney stress block, under, over reinforced behaviour,ultimate strength. Flexural design of singly reinforced,doubly reinforced T-beams, one-way slabs. Shear designfor beams. One-way, two-way slab systems, columns.Prerequisite(s): CIVE 2200 and CIVE 2700.Recommended

Documents

Courses in this classification must be chosen from among ...€¦ · UNOFFICIAL 2018-2019 Carleton University Undergraduate Calendar 1 Engineering This section presents the requirements