ENGINEERING PHYSICS What is Engineering Physics? A fully-accredited engineering degree program where students study both science - Physics - and Engineering - either Mechanical, Electrical, Materials or Computer engineering together. It is a challenging program which concentrates on why the world works the way it does, and how we can use this knowledge to solve the technological problems of society today, and tomorrow. You will take physics courses with pure physicists and engineering courses with students in the engineering option.

Why study Engineering Physics? By combining pure science with engineering applications graduates become adept and flexible at solving problems. You will be able to satisfy your curios- ity and drive to know why, but still train to be a professional engineer. You will have hands-on work with experiments and design projects to go along with theoretical and numerical courses. Students are well positioned to work after graduation as an engineer in the option of their choosing. They are also well prepared for graduate school – about 60% of our graduates go on to further schooling in science or engineering.

Who is Engineering Physics for? If you love science and math, and want to continue learning more. If you want to apply this science to solve problems. If you want to be part of a team taking on big challenges. If you want to contribute to tomorrow's technologies. then Engineering Physics is for you!

Second Year Third Year

• APSC 200F Design • APSC 293F Engineering Communications • ENPH 242F Relativity and Quanta • MTHE 237F Differential Equations • MTHE 227F Vector Analysis • ELEC 221F Electrical Circuits • ENPH 211W Applied Physics • ENPH 213W Computational Engineering

Physics • ENPH 239W Electricity and Magnetism • ENPH 252W Management of Experimental

Data • ENPH 253W Engineering Physics Laboratory

Electrical: ELEC 278F Information Structures ELEC 252W Electronics I ELEC 224W Time Signals & Systems

Mechanical: MECH 230F Thermodynamics I

MECH 241W Fluids I ENPH 225W Mechanics

Materials: MECH 270F Materials Sci. Eng. MECH 241W Fluids I ENPH 225W Mechanics

Computing: CMPE 212F Computer Science

ELEC 278F Software Eng. ENPH 225W Mechanics

ENPH 344F Quantum Mechanics I • ENPH 354F Design Project • ENPH 316/ENPH 317 Advanced

Mathematics • APSC 221F Engineering Economics • ENPH 345W Quantum Physics of Atoms Nuclei

and Particles (Quantum II) • ENPH 353W Engineering Physics Laboratory • Complementary Studies List A

Electrical: ELEC 353F Electronics II ELEC 336W Solid State Devices ENPH 372W Thermodynamics ELEC 324F Discrete Time Signals ENPH 225W Mechanics

Mechanical: ENPH 334F Electronics

MECH 330F Thermodynamics II MECH 341W Fluids II MECH 346W Heat Transfer MECH 350W Controls

Materials : ENPH 334F Electronics

MECH 370F Materials Processing MECH 396F Materials Lab I MECH 397W Materials Lab II MECH 371W Fracture Mechanics ENPH 372W Thermodynamics

Computing: ELEC 271F Digital Systems

ENPH 334F Electronics CMPE 320W Software Dev. ELEC 274W Computer Arch. ENPH 372W Thermodynamics

Fourth Year

• ENPH 455F/W Engineering Physics Thesis • ENPH 431F Electromagnetic Theory • ENPH 453W Advanced Laboratory • ENPH 454F Advanced Design Project

o Or APSC 480FW Multidisciplinary Project

• Engineering Elective • One course from list A • Complementary Studies II and III

List A (1 or 2 courses)

• ENPH 317 Mathematical Physics II • ENPH 321 Advanced Mechanics • ENPH 480 Solid State Physics • ENPH 490 Nuclear Physics • ENPH 414 General Relativity • ENPH 444 Advanced Quantum Mech • ENPH 460 Laser Optics • ENPH 483 Nanoscience and Nanotech • ENPH 495 Medical Physics

Electrical Option: Electrical Option List B (2 courses):

ELEC 326 Probability and Random Processes ELEC 333 Electric Materials ELEC 344 Sensors and Actuators ELEC 373 Computer Networks ELEC 408 Topics in Biomedical Engineering ELEC 409 Bioinformatics Analytics ELEC 421 Digital Signal Processing ELEC 422 Communications Signal Processing ELEC 431 Power Electronics ELEC 443 Control Systems I ELEC 448 Robotics: Mechanics and Control ELEC 451 Digital Integrated Circuit Engineering ELEC 454 Analog Electronics ELEC 457 Integrated Circuits and Applications ELEC 461 Digital Communications ELEC 464 Wireless Communications ELEC 471 Computer Networks I ELEC 478 Computer Networks II ELEC 483 Microwave and RF Circuits and Systems ELEC 486 Fibre Optic Communications CHEE 442 Biomedical Engineering

Mechanical Option:

Mechanical Option List B (3 courses):

MECH 420 Vibrations MECH 423 Intro to Microsystems

MECH 424 Life Cycle Engineering MECH 425 Engineering for Sustainable Dev.

MECH 430 Thermal Systems Design MECH 435 Internal Combustion Engines MECH 439 Turbomachinery MECH 441 Fluid Mechanics III MECH 444 Computational Fluid Dynamics MECH 448 Compressible Fluid Flow MECH 452 Mechatronics Engineering MECH 456 Introduction to Robotics MECH 465 Computer-Aided Design MECH 480 Aerospace Engineering MECH 492 Biofluids MECH 494 Kinematics of Human Motion MECH 495 Ergonomics and Design CHEE 442 Biomedical Engineering

Materials Option: ENPH 480F Solid State Physics

Materials Option List B (2 courses):

MECH 423 Intro to Microsystems MECH 470 Deformation Processing MECH 476 Engineering of Polymers and

Composites MECH 478 Biomaterials MECH 479 Nano-Structured Materials MECH 483 Nuclear Materials MECH 484 Introduction to Ceramics CHEE 340 Biomedical Engineering

Computing Option:

Computing Option List B (3 courses):

ELEC371 Microprocessors ELEC374 Digital Systems Engineering ELEC377 Operating Systems ELEC408 Topics in Biomedical Engineering ELEC409 Bioinformatics Analytics

CHEE 340 Biomedical Engineering CMPE330 Computer Integrated Surgery CMPE365 Algorithms CMPE434 Distributed Systems CMPE452 Neural and Genetic Computing CMPE454 Computer Graphics CMPE457 Image Processing CMPE458 Programming Language Processors CMPE472 Medical Informatics

Sample Fourth Year Programs: (+ ENPH 431,453,454, and 2 Comp. Studies)

Photonics Nanomaterials

ENPH 455 ENPH 481 ENPH 460

Photonics Thesis Solid State Device Physics Laser Optics

ENPH 455 ENPH 444

Nanomaterials/Surface Engineering Thesis Advanced Quantum Mechanics

ELEC 461 ELEC 486 ENPH 483

Digital Communications (Electrical Option) Fibre Optic Communications (Electrical Option) Nanoscience and Nanotechnology

ENPH 480 ENPH 483 ENPH 413 MECH 479

Solid State Physics Nanoscience and Nanotechnology Advanced Computational Physics Nano-Structured Materials (Materials Option) or

or ENPH 444

Advanced Quantum Mechanics

MECH 423 Intro to Microsystems (Mechanical Option)

Computer Modeling /Simulation Nuclear Energy

ENPH 455 Computer Simulation Thesis ENPH 455 Nuclear Physics Thesis ENPH 460 Laser Optics ENPH 490 Nuclear Physics ENPH 413 Advanced Computational Physics ENPH 491 Nuclear Reactor Physics ENPH 312 Mathematical Physics ENPH 495 Introduction to Medical Physics CMPE 365 Algorithms (Computing Option) ENPH 413 Advanced Computational Physics CMPE 434 CMPE 452 CMPE 324

Distributed Systems (Computing Option) Neural and Genetic Computing (Computing Option) or Operating Systems (Computing Option)

MECH 430 MECH 483

Thermal Systems (Mechanical Option) or Nuclear Materials (Materials Option)

Medical Physics

ENPH 455 Medical Physics Thesis ENPH 495 Introduction to Medical Physics ENPH 490 Nuclear Physics ENPH 460 Laser Optics CHEE 442 Biomedical Engineering ELEC 408 Topics in Biomedical Engineering (Elect/Computing Option) or MECH 478 Biomaterials (Materials Option) or

MECH 494 Kinematics of Human Motion (Mech Option)

Science (M.A.Sc.) Program (4+1 years)

• New opportunity now in its fifth year

• Engineering Physics students can apply for M.A.Sc. Graduate Degree during winter term of 3rd year.

• Students accepted to the Fast-track program will complete their B.Sc. degree after 4 years (with the rest of their class cohort), and will complete their M.A.Sc. degree 16 months later.

• Fast-track students will have paid summer employment (~ $10k) during the summers after 3rd & 4th years.

• Fast-track students take ENPH 456 (summer after 3rd year) and ENPH 457F/W to replace ENPH 455 and two 4th year electives, and take two Graduate-level courses during 4th year (that then transfer for credit to the M.A.Sc. degree program).

• After 4th year (and graduation with a B.Sc. degree in Engineering Physics), fast-track students immediately begin a graduate research project (during the summer), take the remaining two Graduate-level courses (F/W after 4th year), and complete and defend a thesis during the following summer.

For more information: www.queensu.ca/physics

• Melissa Balson, Program Assistant 4mjb5@queensu.ca Stirling 205B

• Prof. Jun Gao Undergraduate Chair in Engineering Physicsjungao@queensu.ca Stirling 208F

Dsfsd