Engineering Physics and Management – Faculty of Engineering

Engineering Physics and Management

Apply scientific and mathematical skills to complex engineering problems, coupled with a business education to enhance your technical expertise with management acumen.

Length
5 years
Degree
Bachelor of Engineering & Management (Co-op Available)
Program
Engineering
Options

Co-op

Program highlights

In Engineering Physics, we create advanced materials, devices and systems based on our fundamental understanding of physics. Our faculty and students are pushing the envelope of new technologies to solve the grand challenges of the future such as energy supply, human health, and information and communications technologies.

Curriculum

A broad foundation in electrical science, mechanics, thermodynamics, and data handling, plus electives guided by chosen specialization.

Innovation

Students develop micro/nanotechnology devices in advanced labs and gain hands-on experience with Canada’s most powerful university nuclear reactor.

Specializations

Four focus areas in the final years: Nuclear Engineering and Energy Systems, Nano- and Micro-Devices, Photonics Engineering, Biomedical Engineering.

Engineering Physics makes you think outside the box and gives you the tools to learn efficiently in all sorts of different environments. It covers the fundamentals of every engineering discipline, so it becomes much easier to pick up new topics.

Matt Vukovic, Engineering Physics and Management

Engineering and Management advantage

Courses include:

  • Three unique courses specifically designed for the program.
  • Ten commerce courses that represent the core of a business degree.
  • Two commerce electives (Level 3 or 4).
  • Two economics courses (ECON 1B03 is required for entry to the program and will be completed in your first year as one of your complementary electives).
Learn more about Engineering and Management

Admission requirements

Academic Prerequisites

This is an above level 1 specialization that requires successful completion of the Engineering 1 general first year, as well as ECON 1B03.

Use the Future Students admissions tool for entry requirements.

How to Apply Engineering Physics and Management degree requirements (Opens in new window)

Areas ofspecialization

The choice of specialization guides the choice of upper year technical electives.

The department’s final year laboratory course provides students with an opportunity to select advanced experiments that relate to their chosen specialization.For example, they may manufacture integrated circuits, fabricate solar cells, make a biosensor, or conduct experiments with the McMaster Nuclear Reactor. An overview of some of the topics included in the specialized streams is given below:

Nuclear Engineering and Energy Systems

  • energy systems
  • heat transfer and fluid mechanics
  • alternate energy sources
  • nuclear reactor physics and chain reactions
  • nuclear reactor design and analysis
  • radioactivity
  • interactions of radiation with matter

Nano- and Micro-Devices

  • electronics
  • physics of semiconductors
  • microelectronic devices
  • integrated circuits
  • device fabrication techniques
  • microelectromechanical systems (MEMS)
  • superconductivity

Photonics Engineering

  • physics and applications of lasers
  • optical instrumentation, optical sensors
  • fibre optic communications systems
  • electromagnetic theory
  • physical optics
  • semiconductor diode lasers
  • biophotonics

Biomedical Engineering

  • fabricate a biosensor
  • build optical systems for cancer treatment
  • use nanotechnology for disease detection
Students examining solar cell material

Your first year

All students in McMaster’s undergraduate engineering program share a common first-year, Engineering 1.

Engineering 1 provides a solid foundation in the fundamentals of engineering disciplines. Students take real problems in society and learn the technical and teamwork skills to solve them.

Explore all of our degree path options before choosing a focus discipline for second year and beyond.
Engineering 1
Student working on machine. Hands-on experience.

Co-op and experiential learning

Experiential learning provides students with hands-on opportunities beyond the traditional lecture-style format to gain valuable experience.

The Engineering Co-op Program is an optional program which provides you with the opportunity to work in real engineering positions before you graduate. The Centre for Career Growth and Experience (the Centre) administers the undergraduate co-op program.

Example employers:

  • IBM
  • Hydro One
  • Amec-NSS
  • Hatch Associates
  • Intel
  • Bell Canada
  • Texas Instruments
  • Bombardier Aerospace

Learn more about co-op.

McMaster Engineering has many engineering clubs, teams and societies you can join to enhance your practical knowledge and soft skills, provide support, or give you the chance to explore new activities. Clubs are an enjoyable way to enrich your student life and contribute to your social development and academic success.

  • Engineering Physics Society
  • McMaster Rocketry Team
  • McMaster Solar Car Team
  • McMaster NEUDOSE Team

Browse opportunities to get involved and gain experience.

Engineering programs have been enriched with interdisciplinary design courses, enabling students to work in teams on real-world problems. This practical experience builds their portfolios and hones skills vital for managing complex projects and utilizing emerging technologies. It prepares them for co-ops and future careers, fostering critical thinking, collaboration, and an understanding of societal issues.

Four project-based design courses that all students take include:

  • ENGINEER 1P13: Integrated Cornerstone Design Projects in Engineering
  • ENGINEER 2PX3: Engineering Design 2: Communications and Societal Impact
  • ENGINEER 3PX3: Engineering Design 2: Engineering Economics
  • CAPSTONE

Find out more

Explore the experiences catalogue

Careersand research

Career paths:

  • Multidisciplinary Design Engineer
  • Director of Business Development
  • Manufacturing Engineer
  • Controls Engineer
  • Systems Engineer
  • Business Analyst
  • Entrepreneur
  • Project Engineer
  • Optical Engineer

Research areas:

  • Nanotechnology, biological and chemical sensors, biomedical engineering, and solar electricity
  • Laser applications, ultrafast laser fabrication, advanced displays, optical design and instrumentation, biophotonics, advanced microscopy
  • Nuclear reactor engineering and safety, thermalhydraulics, nuclear waste management

Need moreinformation?

How to apply

Understand every step, from applying, to accepting your offer and joining us on campus!

How to apply

Department of Engineering Physics

We’re creating advanced materials, devices and systems that push the envelope of new technologies and solve grand challenges facing our world.

Learn more

Need moreinformation?

How to apply

Understand every step, from applying, to accepting your offer and joining us on campus!

How to apply

Department of Engineering Physics

We’re creating advanced materials, devices and systems that push the envelope of new technologies and solve grand challenges facing our world.

Learn more
Picture of Hatch Building

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