explore eng @mcmaster
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FSC placeholderSEPT 2012
Contact usFaculty of EngineeringMcMaster University1280 Main Street West, JHE–A214Hamilton, ON, L8S 4L7Tel: 905-525-9140 ext.27174
goeng1@mcmaster.ca
engineeringwww.eng.mcmaster.ca/future
PROGRAM LIST & GUIDE
McMaster
Shaping the world we all know
in more waysthan you could
imagine.
03
Are you a problem solver?
Do you enjoy finding creative solutions?
Do you like to invent new ways of doing things?
if so, then engineering could be the career for you!
engineers design and build much of the world around us. They are problem solvers
who can be found in every line of work and in any location around the world. From
advances in medical equipment, to improving transportation and housing, engineers
are involved in many aspects of society that touch us all. Whether you’re interested
in traditional areas such as electrical or mechanical engineering to emerging areas
in bioengineering and nanotechnology, you will gain the experience and skills you’ll
need to get involved in building the world that you envision.
engineering provides the flexibility and background for a future embracing many
diverse and rewarding fields. engineers make significant contributions to medicine,
sports, communications, research, production, environment, education, natural
resources, law, computers, architecture, entertainment and business.
if you are creative, inventive and concerned with the complex interactions between
technology and society, then engineering is a career you should consider. With a
Bachelor of engineering (B.eng.) degree you will have developed the research and
analytical skills that will help you succeed, whether you choose a traditional field
of work or follow a non-traditional career path.
EnginEEring & You
CONTENTS
03 Our Vision04 Welcome06 Student Life @ Mac08 Clubs & Teams10 Students are saying12 Engineering I
Engineering Programs:14 Chemical16 Chemical & Bioengineering18 Civil20 Computer
22 electrical24 electrical & Biomedical26 engineering Physics
28 Plan Your Degree
30 Materials32 Mechanical34 Mechatronics36 Software38 Software (embedded Systems)40 Software (game Design)
Program Options: 42 Management44 Society46 international Studies48 Co-op & Career Services
50 Computer Science (B.A.Sc.) 52 Bachelor of Technology
54 Mac eng Online55 Tours & events55 Contact Us
McMaster’s reputation for innovation and excellence continues to be the focus of the Faculty of engineering. The globe and Mail Canadian University report 2012 gave McMaster top marks
in: quality of education, most satisfied students, reputation with employers, atmosphere and recreation, and athletics.
research infosource, a leading r&D intelligence paper, ranked McMaster as one of the Top five Canadian research Universities and ranked McMaster second in research intensity.
McMaster was ranked in the Top 100 Universities in the World according to the institute of Higher education at Shanghai Jiao Tong University in China.
McMaster is one of only five Canadian universities listed in the Top 100 World Universities according to the Times Higher education Supplement 2012. The QS World University ranking 2012 ranked McMaster in the Top 200.
Our Vision
McMaster’s Faculty of engineering is committed to achieving and maintaining international excellence in education, scholarship, and community service. We strive to be Canada’s leading student-centered, research-intensive engineering Faculty.
We work to ensure that our educational and research programs satisfy the growing demand for engineers in our evolving society, and emphasize a culture of mutual respect among faculty members, staff and students.
Why Choose McMaster?
04 05
As a new engineering student, you will be faced with many choices as
you navigate your way through University, pursue academic success and
begin to discover your strengths and aspirations. Our engineering Student
Services office, with a Director of engineering i and academic advisors, is
there for you from your first day of classes until graduation to assist and
support you in working toward a satisfying career in engineering.
At McMaster engineering, students join an innovative and inclusive
community dedicated to developing socially responsible, globally-minded
engineers. We foster a love of learning and sense of personal dedication
to excellence within a broader societal context of engineering. Our
students are encouraged to ask questions, to become engaged with both
their studies and the Mac eng community of students, faculty and staff.
We believe deeply that students excel by challenging themselves
intellectually and creatively, and that this is best accomplished with a
supportive network of faculty and staff dedicated to nurturing and guiding
them through those challenges.
It would be my pleasure to welcome you as a member of this
exciting, diverse community so that you may discover your place
in the field of engineering and pursue your future goals.
Opening our minds to new ideas and experiences allows us to discover fresh
possibilities each day. Our goal in the Faculty of engineering is to cultivate an
environment that encourages everyone to achieve his or her full potential.
We do this by promoting a culture of interdisciplinary study, collaboration, diversity,
and achievement. Moreover, we continuously strive to provide the resources
that allow our students, staff and faculty to transform possibilities into realities,
through experiential learning opportunities.
This deeply embedded approach in our undergraduate programs is a core focus in
the Faculty of engineering, providing students with a rich and fulfilling university
experience. Our Faculty is always evolving in terms of what we do and how we do
it. For example, we have introduced several new programs that address emerging
fields of knowledge and skills needed by industry and society.
Furthermore, we are driven by the imperative to train engineers to think and work
sustainably through the development of eco-effective design approaches.
We have also expanded our international ties to provide students with greater
opportunities to experience the global community in which we work and live.
Feel free to visit us to feel the excitement and see how our students engage
right from day one.
I look forward to welcoming you to McMaster as engineers-in-training.
David WilkinsonDeAn, FACULTy OF engineering
Kenneth ColeyASSOCiATe DeAn, FACULTy OF engineering
WELCoME to McMaster Engineering
06 07
A ‘city within a city’, the McMaster community offers a wealth of activities and services to enhance your University experience.
Community
McMaster University, nestled in the Westdale neighbourhood, enjoys a small-town atmosphere with all the conveniences of a large city. McMaster’s scenic, tree-lined campus is close to all amenities. nearby you will find entertainment and shopping districts, art galleries, theatres, parks and recreational facilities. On-site transit provides access to all major cities, including Toronto, directly from campus.
established in 1887, McMaster moved to Hamilton in 1930. Located on the western shore of Lake Ontario, Hamilton is home to over 7000 acres of recreational conservation areas. The royal Botanical gardens and the Bruce Trail offer outdoor activities for all levels of enthusiasts while Hamilton’s revitalized waterfront with Pier 4 Park and Bayfront Park has received international recognition. Visit hamilton.ca, westdalevillage.ca or www.rbg.ca for more details.
ExCEL
The Faculty of engineering is preparing to build a new experiential learning centre, exCeL, which will provide students with a space to develop their skills as engineers and leaders. it’s a living laboratory for sustainable technologies as well as a community space for student teams, clubs and societies. Find out more at www.eng.mcmaster.ca/excel/.
Student Life & Services
McMaster offers numerous student services to help ease your transition into university. Check them out at studentaffairs.mcmaster.ca or visit the listed links on the following page.
The Office of the registrar’s website is a great place to start your research about admission requirements, the application process, deadlines and campus tours. you can submit questions through Ask McMaster or even take a virtual tour. See future.mcmaster.ca.
Student Life @ MaC
Find out more at:
Student Wellness Centre (SWC) wellness.mcmaster.ca
Student Success Centre - Orientationstudentsuccess.mcmaster.ca/orientation.html
Student Accessibility Services (SAS)sas.mcmaster.ca
international Student Servicesoisa.mcmaster.ca
Meal Plansmealcard.mcmaster.ca
residence & Off-Campus Housinghousing.mcmaster.ca
Student Accounts - Tuition/Feesmcmaster.ca/bms/student
Student Financial Aid & Scholarshipssfas.mcmaster.ca
ATHLETICS & RECREATIONmarauders.ca
David Braley Athletic Centre & ron Joyce Stadium
ivor Wynne Centre with olympic-sized pool
Sport Medicine & rehabilitation Centre
Varsity & intramural sports
indoor track, squash & racquetball courts, climbing wall, fitness centre, cycling studio
“We are more convinced every day that our students benefit greatly from the work they do outside the classroom. The value of experiential education cannot be overestimated.” Dr. David Wilkinson
08 09
Engineers Without Borders eWB, founded in 2000, taps into engineers’ passion to find
solutions to one of the world’s most complex challenges: poverty. McMaster’s eWB chapter
members work on campus and in the community to increase awareness of the complexities of international development. The chapter holds social events and presents workshops and presentations to more than 800 elementary and high school students annually.
each year, two students travel to Africa for the summer as Junior Fellows. The summer placement
provides them an opportunity to work hand in hand with a rural community, using culturally appropriate technology
to improve the quality of life.
After the placement, the Fellows return to McMaster and share their experience and lessons learned with the chapter and community.
if you’re interested, check out mcmaster.ewb.ca or email mcmaster@ewb.ca.
Clubs & Teams
McMaster Solar Car ProjectSolar Power is a very real step towards a pollution-free world and the McMaster Solar Car Project is taking that step. Students compete at international solar car events pursuing sustainable transport through solar-powered racing.www.macsolarcar.com
SELECT(Student Engagement - Leadership Education - Career Training)
SeLeCT is designed to provide experiential learning through mentorship, team projects and hands-on training. SeLeCT prepares our undergraduates for the ‘real world’ with essential skills for life. Discover more at www.eng.mcmaster.ca/select/
Mac Eng Musicalmacengmusical.com
Hit musicals written, composed, produced and performed by engineering students:
The Phantom of the Mac eng Alice through the Silicon-Dioxide Lens Hooke The nightmare Before exams The Transducers Mathemadness Artsy & the geek The Whiz The eng King
CLUBS & STUDENT ACTIVITIESfuture.mcmaster.ca/student-life/clubs-athletics/
Mac students may participate in any of the numerous clubs and activities that cater to almost any interest including:
McMaster Student Union (MSU) McMaster engineering Society (MeS) engineering Spirit group (‘redsuits’) Campus newspapers & radio station (CFMU) Drama, choir, orchestra McMaster Mini Baja McMaster racing Club (SAe) Custom Vehicles Team (MecVT) Concrete Toboggan
Women in EngineeringThe Women in engineering Society offers programs aimed at helping female engineering students transition to university life and feel like part of our family. As they get to know their peers, develop friendships and find mentors, women at McMaster have the opportunity to take leading roles in all engineering clubs and events (i.e. MeS executive, the annual musical, teaching assistants, faculty
committees). McMaster engineering is a caring community with no limits on what you can contribute or achieve. Find out more at:www.eng.mcmaster.ca/engalumni/women_in_eng
10 11
i have always loved building things, fixing things, and taking things apart to see out how they work, so mechanical engineering was a natural fit for me. After hearing from my older brother what an amazing time he had
as a Mac eng student, choosing McMaster was easy; one of the best decisions i’ve ever made!
Mac has a fantastic reputation, a beautiful campus, and offers great extracurricular activities. As president of the Ski & Snowboard Club, a member of the redsuits, and a member of an inner-tube water polo team, i’ve gained skills that can’t be learned in a lecture hall and made amazing friends. My time in Mac eng has shown me the best years of my life so far, and prepared me for whatever i may encounter in the next chapter of my life.
Jack McCormack | Mechanical Engineering IV
What our students are saying
engineering i gave me a solid understanding of the broader discipline and allowed me to discover my passion for chemistry and biology. That foundation helps me collaborate with other types of engineers on interdisciplinary projects, and has better prepared me for the workplace. As an nSerC undergraduate research award recipient, i’ve had the chance to work with Dr. Shiping Zhu in a Chemical engineering research group, gaining valuable hands-on experience.
As part of the Mac community, i’ve joined student groups such as the McMaster engineering Custom Vehicle Team, the Student representative Assembly and McMaster engineering Society. i’m also a part of the Bioengineering Society, the African Caribbean Association, intramural sports, and a mentor for a local FirST robotics team. McMaster’s welcoming atmosphere and rich student life has made it the right place for me.
Andrew Toye Ojo | Chemical & Bioengineering Co-op III
McMaster has a reputation as a great engineering school, and i love the beautiful campus. When i started my program, i didn’t know what type of engineering suited me, so the common first year ‘eng i’ helped make my decision easy. i chose the international Studies program option and have focused my
elective courses around environmental and social studies topics. This will give me a well-rounded view of how engineering impacts the world.
in September, i will be greeting and orienting the incoming class as a Welcome Week representative
or “redsuit”. i am also in the Women in engineering Society. McMaster engineering has given me so much that i truly feel like this is my ‘home away from home’.
russul AL-rawi | Civil Engineering and International Studies III
When i was in grade 11, the McMaster engineering Fireball Show came to my high school. i was already in love with science and math, but the Show inspired me to consider engineering as a career. Then i visited the campus for a tour, and it immediately felt like home. i just knew i was going to go into McMaster engineering. Mac’s attractive campus makes you feel like you’re in your own little village when you’re at school; you will always run into someone you know, regardless of time or place. The Faculty of engineering is a tight-knit community, with a strong cultural backbone, and everyone is so friendly and welcoming.
erin Middaugh | Engineering Physics & Society III
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COMMON FIRST YEAR
At McMaster, engineering students take a common Level i program with the following courses: general Chemistry engineering Design and graphics engineering Mathematics introductory Mechanics engineering Computation Structure and Properties of Materials Waves, electricity and Magnetic Fields engineering Profession and Practice Safety Training Complementary Studies electives
BEYOND LEVEL I
At the end of engineering i, studentsselect one of the following programs: Chemical Chemical & Bioengineering Civil Computer electrical electrical & Biomedical engineering Physics Materials Mechanical Mechatronics Software Software (embedded Systems) Software (game Design)
PROGRAM OPTIONS Co-op international Studies Management Society
Engineering iFind out about Computer Science (B.A.Sc.) on page 50 and Technology (B.Tech.) on page 52.
eng i students gain a solid background in engineering fundamentals, while enjoying the opportunity to bond with all their peers in the Faculty regardless of future discipline choices.
McMaster’s undergraduate engineering program, with its common first year (eng i), provides students the opportunity to explore all of our numerous degree options before choosing an appropriate discipline in second year.
engineering i students work on design projects derived from a variety of engineering disciplines. Students gain a solid background in engineering fundamentals, while enjoying the opportunity to bond with all their peers in the Faculty regardless of future discipline choices.
Annually, each department provides presentations and runs seminars to help students make informed decisions before choosing their discipline for Level ii.
Our faculty members’ involvement and leadership in research and graduate education results in specialized knowledge being passed on to our undergraduates.
McMaster’s supportive learning environment includes:
a director of eng i, course coordinator, academic advisors, and specially trained teaching assistants
the student-run McMaster engineering Society (MeS)
the new, five-storey, 125,000 sq. ft. engineering Technology Building (eTB)
the H.g. Thode Library of Science & engineering
engineering Co-op and Career Services
The spirited ‘redsuits’ to welcome you to Mac eng
For key facts about admission requirements, academic policies, programs and courses, the Undergraduate Calendar is an essential tool.
Check it out at registrar.mcmaster.ca/calendar.
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Chemical Engineering
What is Chemical engineering?Have you ever wondered how to transform primary resources such as petroleum, natural gas and metals into car parts? What is involved in the production of plastics such as Teflon®? How would you build a fuel cell?
Chemical engineers use the basic principles of chemistry, math, physics, biology and economics to design, operate and troubleshoot processes used to manufacture materials, develop energy sources and create new products from the nanoscale to automobiles. These processes convert chemical components and energy from one form to another and the products are the building blocks of almost everything around us.
FOCUS OF STUDY
Chemical engineering students will develop:
a strong foundation in the basic sciences
problem solving, team, self-assessment and lifelong learning skills
an understanding of the concerns of real industrial clients
computer programming skills
RESEARCH AREAS polymer production and
processing technology
control of chemical processes
bioengineering
interfacial engineering and nanotechnology
membrane separations for biological materials or water treatment
WHAT MAC GRADUATES DO
Our Chemical engineering graduates have gone on to work in a variety of organizations including: nova Chemicals, Zenon environmental, Dow Chemical, Dofasco, Proctor and gamble, 3M, Uniroyal, Xerox Canada, DuPont, HeMOSOL, Huntsman Corporation, AstraPharma, Petro Canada. They may find career opportunities in which they may:
process and refine fuels (gasoline, natural gas, propane)
develop sustainable energy systems
manufacture silicon chips
produce the food we eat
resolve environmental problems
develop materials for water or fire proof clothing
manufacture drugs, medical devices or biocompatible materials
Some chemical engineers choose to pursue graduate degrees including Master of Applied Science (M.A.Sc.), Master of engineering (M.eng.) and Doctor of Philosophy (Ph.D.). Many chemical engineering graduates continue their careers in areas such as medicine, dentistry, law, business or teaching.
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Chemical Engineering & Bioengineering
What is Chemical engineering & Bioengineering?Chemical engineering & Bioengineering is a unique five-year program offered in the Department of Chemical engineering at McMaster. Leading to a Bachelor of engineering and Biosciences degree (B.eng.Biosci.), it combines the core chemical engineering undergraduate curriculum with courses from the biological sciences and bioengineering. graduates from this program will have essential chemical engineering skills and knowledge plus unique qualifications that will allow them to make significant contributions to the growing fields of biotechnology and bioengineering.
FOCUS OF STUDY
This program offers students core undergraduate chemical engineering training required for traditional careers as well as biological sciences courses in all areas of biotechnology, including medicine, processing and the environment. Students take courses in biology, human anatomy and physiology, biochemistry of macromolecules, cellular and molecular biology and the application of biological processes to chemical engineering through courses in bioseparations and bioreactors.
Our leading edge facilities include expanded computer labs and laboratories in the bioengineering field to study topics such as hemodialysis, fermentation and biomaterials.
RESEARCH AREAS biomaterials
tissue engineering
bioseparations
biopharmaceutical production and environmental biotechnology
regenerative medicine
biological wastewater treatment
biosensors
WHAT MAC GRADUATES DO
graduates from this program are extremely versatile, facing opportunities in both traditional chemical engineering and in Canada’s growing biotechnology industry. Home to over 530 biotechnology companies, Canada currently has the second highest number in the world, following the United States.
Our graduates participate in the development of:
pharmaceutical products with eco-friendly processes
biocompatible biomedical devices
efficient and better food and beverage production methods
This program provides an excellent basis for graduate research programs in biomedical engineering, bioprocessing as well as other professional degrees such as medicine and law.
IMPORTANT ADMISSION NOTEIt is recommended that students
interested in the Chemical Engineering
& Bioengineering program should have completed Biology SBI4U
(or equivalent senior biology course) in
high school, in addition to the standard
engineering admission requirements.
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Students develop expertise in our Sustainable infrastructure Design Studio, equipped with AutoCAD, giS and specialized analysis software or the Applied Dynamics Laboratory, a large-scale structural testing facility. The Sustainable Water Quality Laboratory has state-of-the-art equipment for the assessment of physical/chemical/biological techniques for effective wastewater treatment and the achievement of water quality objectives. There is also a geotechnical Laboratory with equipment to test soil compaction, consolidation and strength.
Civil Engineering
What is Civil engineering?Look around you! Civil engineers have had a hand in virtually every infrastructure system you see in our urban environment, and continue to modify, expand or rehabilitate them as required. Civil engineering is the technology of planning for, and safely designing, constructing, maintaining and rehabilitating community infrastructure. Using common materials such as steel, concrete, wood, masonry and soil, civil engineers design and construct buildings, bridges, tunnels, dams, foundations, tanks, and many other facilities.
Civil engineering students examine design concepts that employ new materials, and construction procedures that improve community infrastructure development and sustainability.
FOCUS OF STUDY
Civil engineering at McMaster integrates fundamental theory, practical laboratory work, experience in both analysis and design, and real-life examples. This comprehensive program will help you develop the proper skills to enter this exciting, challenging, and rewarding profession. Our undergraduates study: analysis and design of buildings and bridges structural and geotechnical systems materials analysis and design (steel, concrete, masonry, wood) foundation design water quality engineering environmental systems modeling ecological aspects of environmental engineering environmental impact and sustainability water and wastewater treatment
RESEARCH AREAS
The need has never been greater for problem solvers who want to make a difference. increasing population, deteriorating municipal infrastructure, climate change, and stressed ecosystems all add up to a complex set of challenges and interesting opportunities for the civil engineers of tomorrow. Some areas of research are: innovative techniques to increase the life of
concrete and masonry structures mitigation of damage due to earthquake, blast
and other extreme load situations fibre-reinforced polymers and materials used
in bridges and structures sustainable community designs solid waste management systems watershed planning and storm water
management groundwater cleanup and site remediation
WHAT MAC GRADUATES DO
McMaster graduates in civil engineering continue to have a significant impact on the practice and development of the profession. Our graduates work in consulting, construction and private businesses, academia and all levels of government. Within these environments, graduates specialize in: design and construction of buildings and infrastructure systems
earthquake engineering planning and public policy investigations and remediation of structures environmental and water resources engineering
sustainable transportation systems
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RESEARCH AREAS biomedical engineering
CAD/optimization/simulation, communications
computer engineering
image processing and multimedia
microelectronics
computer networks and signal processing
photonics/optoelectronics
WHAT MAC GRADUATES DO
Computer engineers are currently in high demand in Canada. graduates find employment in areas which are heavily dependent on computers such as:
automotive industry
police forces and the military
communications
electronics
insurance
banking
computer hardware and software design
Whereas one graduate may join a biomedical firm and design the software for diagnostic imaging equipment, another may start a company that develops commercial software. All of these jobs benefit the society in which we live and significantly contribute to the economy.
Computer Engineering
What is Computer engineering?Computer engineering uses scientific discoveries and practical knowledge in digital circuit technology to create devices and systems aimed at benefiting people. it encompasses computer hardware, electronics, digital communications, multimedia, signal processing, robotics, and other related technologies. Computer engineers apply structured engineering design principles and methodologies to solve problems and develop products.
FOCUS OF STUDY
Like other engineering programs at McMaster, this program will teach you fundamental principles and not focus solely on technologies that may quickly become obsolete. Students will find that, once they have completed the program, they easily learn to use whatever tools and techniques are current at that time.
COMPUTER ENGINEERING VS. SOFTWARE ENGINEERING
Computer engineering focuses on computer hardware and its interaction with software, while software engineering focuses on the logical development of software, with less regard to the underlying hardware.
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RESEARCH AREAS biomedical engineering
CAD/optimization/simulation
image processing and multimedia
microelectronics
microwaves, networks
photonics/optoelectronics
power engineering
signal processing
WHAT MAC GRADUATES DO
electrical engineering offers an extremely broad background, preparing students for an array of opportunities in the workplace.For example, one graduate may decide to join a telecommunications company and design circuits for the next generation of cell phones, while another may join the Canadian Space Agency and design a satellite-borne radar system used to assist icebreakers in the Arctic. These and many others are examples of the vast and varied opportunities available to electrical engineers:
telecommunications design
power systems design
electronics
internet
satellite communications
marketing
electronic commerce in the banking industry
software systems
Electrical Engineering
What is electrical engineering?electrical engineering involves the design of devices and systems that employ the flow of electrons to achieve useful purposes. it encompasses electrical power generation and distribution, electronics, wired and wireless communications, optoelectronics, signal processing, robotics, computers, radar, medical imaging and many other technologies.
FOCUS OF STUDY
electrical engineering students at McMaster develop a strong background in mathematics, chemistry, physics and communication skills. They also study fundamental courses in other departments such as the properties of materials, biomedical electronics, optical communication components and devices.
electrical engineering students have access to the electronics, Control and Computer Laboratory with advanced equipment such as digitizing oscilloscopes, high-end computers and function generators. They may also use the Communications research Laboratory, and the Power research Laboratory where they are exposed to the most modern equipment in the telecommunications and power areas such as:
microwave network analyzers
electromagnetic anechoic chambers
power electronic research apparatus
Ontario’s intended use of “smart grid” technology will allow two-way communication between power producers and consumers, increasing efficiency and supporting renewable energy.
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What is electrical & Biomedical engineering?Biomedical engineering is a fast growing field that involves the application of engineering science and technology to the solution of problems in medicine and biology. Scientific and technological medical advances, as well as financial pressures on Canada’s national health care system, have generated strong social and economic interests in the development of biomedical technologies.
FOCUS OF STUDY
electrical & Biomedical engineering at McMaster is a unique four-year undergraduate program that combines an electrical engineering degree with key courses in the biological sciences.
Over the past decade, conceptual and technological advances in biological and medical sciences along with advances in information technology, instrumentation, biomaterials, and nanotechnology have created a need for engineers who specialize in this field.
By the end of the third year, students in this program will have completed all of the pre-medicine courses required by the Medical College Admission Test (MCAT) for entrance into medicine at most Canadian and American medical schools. At that time, students also have the option to continue with our enriched fourth year curriculum, which provides an opportunity to complete a master’s degree by the end of an additional fifth year.
RESEARCH AREAS biomedical imaging and signal processing
analysis of cardio-respiratory control
implantable biological sensors
computational, theoretical and experimental neuroscience in motor, sensory and other neurological systems
computer-based systems and techniques for recording and analyzing physiological signals
medical robotics
WHAT MAC GRADUATES DO
Our students may choose to pursue careers as electrical engineers, or decide to enter the field of biomedical engineering developing new medical technologies and systems. They may also pursue graduate studies in electrical or biomedical engineering, neurosciences, medical physics and medicine. They could work in areas such as:
wireless environmental or medical sensor systems
computer-assisted minimal access or robotic surgery
magnetic resonance (Mri) or other imaging methods
patient diagnostic or monitoring instrumentation
electronic patient devices for hearing, vision or muscle control
Electrical & Biomedical Engineering
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What is engineering Physics?engineering physics is about understanding and designing with very small objects such as electrons, photons and neutrons. The behaviour of electrons, photons and neutrons is the key to an array of diverse technologies such as electronics, optical and wireless communications, photovoltaics, sensors, lasers and advanced power sources.Quantum mechanics, electromagnetic theory of light, nuclear transitions, electronic band gaps; solar energy; there is no question that engineering physics involves studying interesting concepts. These tools are being used to develop advanced technologies of today and tomorrow. We train students in the fastest evolving technologies, emphasizing fundamentals that never go out of date.
FOCUS OF STUDY
engineering Physics deals with the application of fundamental physical sciences to the solution of complex technological problems. in upper years of study, students have the opportunity to specialize in one or all of:
nano- and Micro-Device engineering
nuclear engineering and energy Systems
Photonics engineering
Many undergraduates regularly work in our state-of-the-art facilities, either for a senior project, as an intern, or as summer researchers hired by the department. Among those facilities are the Optoelectronic Device Processing Laboratory (“clean room”), the Photonics research Laboratories, the Semiconductor growth Facilities, and the Cellular and Molecular Sensing Laboratory. McMaster partners with high technology companies on many projects, providing possible career networking opportunities for our graduates.
RESEARCH AREAS
Our faculty and graduate students are involved in a wide range of research specializing in electronic and optical materials, electro-optic systems, photonics, biosensing, and nuclear engineering. graduates are well prepared to adapt to the rapid changes in technology certain to occur throughout their careers as the program emphasizes applications in:
lasers applications
biophotonics
biosensing
microelectronic devices
nuclear engineering
nanotechnology
renewable energy
photovoltaics (solar cells)
WHAT MAC GRADUATES DOA degree in engineering physics provides the broadest scientific background of any engineering degree available in Canada. engineering physics graduates are seen as natural leaders of broad engineering teams necessary in today’s competitive environment.
They bring a unique and versatile set of skills to careers in electrical or materials engineering, energy production, biomedical engineering or other technological disciplines. They have an important role to play in virtually any company utilizing advanced technologies such as photonic and electronic materials; development of microelectronic devices; integrated sensor systems; automated processing and fabrication systems; biomedical equipment; the production of medical isotopes; electronic packaging and power generation.
Engineering Physics
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Plan Your Degree * F = Fall Term W = Winter Term S = Summer TermEach term is a 4 month period.
After a common first year, B. Eng. students select a discipline: Chemical, Chemical engineering & Bioengineering, Civil, Computer, electrical, electrical & Biomedical, engineering Physics, Materials, Mechanical, Mechatronics, Software, Software engineering (embedded Systems) or Software engineering (game Design).
Disciplines may be combined with a Management, Society or international Studies option to provide many unique degree options. These options, however, are not available with: Chemical engineering & Bioengineering, electrical & Biomedical engineering, Software engineering (embedded Systems) and Software engineering (game Design).
*Note: Chemical engineering & Bioengineering (B.eng.Biosci) is a unique five-year program, which, when combined with an extended co-op becomes a six-year program.
Co-op: Our extremely flexible co-op program is available with 4, 8, 12, or 16-month work term options, which provide valuable career preparation experience. Students may opt to complete 4-month co-op terms during the summer months, adding up to the required 12 month minimum commitment. Alternately, they may select an extended co-op term (8, 12, or 16 months) after their next to final year of study to meet or exceed the minimum.
After a common first year, B.Eng. students select a discipline
YEAR OF STUDY FIRST YEAR SECOND YEAR THIRD YEAR FOURTH YEAR FIFTH YEAR SIXTH YEAR
TERM 1F 1W 1S 2F 2W 2S 3F 3W 3S 4F 4W 4S 5F 5W 5S 6F 6W
B.Eng Eng 1 Discipline Discipline Discipline
B.Eng (Co-op) Eng 1 Co-op(4 months)
Discipline Co-op(4 months)
Discipline Co-op(4, 8, 12 or 16 months)
Discipline
B.Eng.Biosci.* Eng 1 Discipline Discipline Discipline Discipline
B.Eng.Biosci.* (Co-op)
Eng 1 Co-op Discipline Co-op Discipline Co-op Discipline Co-op(4, 8, 12 or 16 months)
Discipline
B.Eng.Mgt. or B.Eng.Society
Eng 1 Discipline+ Management, Society
or International
Discipline+ Management, Society
or International
Discipline+ Management, Society
or International
Discipline+ Management, Society
or International
B. Eng.Mgt. (Co-op) or B.Eng.Society (Co-op)
Eng 1 Co-op Discipline+ Management, Society
or International
Co-op Discipline+ Management, Society
or International
Co-op Discipline+ Management, Society
or International
Co-op(4, 8, 12 or 16 months)
Discipline+ Management, Society
or International
Bachelor of Technology
B.Tech. Technology 1 Discipline Co-op Discipline Co-op (8 months) Discipline Co-op Discipline
Computer Science
B.A.Sc. Comp Sci 1 Co-op Discipline Co-op Discipline Co-op (4, 8, 12 or 16 months) Discipline
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What is Materials engineering?
Materials engineering uses the knowledge of chemistry, physics, mathematics and biocompatibility to design new materials and improve older ones for the development of advanced technology. it embraces all aspects of the multitude of materials we use. Materials engineering studies the conversion of natural substances into products for structural, microelectronics, optical, and biomedical use, by using chemical and physical methods. These materials may include metals and alloys, ceramics, glass, polymers, microelectronic devices and bio-compatible products and composites.
FOCUS OF STUDY
The study of materials is crucial for most engineering fields, and few universities in Canada offer this discipline. McMaster’s Materials engineering program has a common core, emphasizing basic physical chemistry, thermodynamics and kinetics, materials structure and materials processing fundamentals. Major emphasis is placed on the relationship of materials properties to processing and to their engineering function for proper materials selection in engineering design. Upper year students may specialize in areas such as:
metallurgy
nanomaterials
polymers
electronic materials
Materials Engineering
RESEARCH AREAS
Materials engineering research is carried on in several centres, including the Canadian Centre for electron Microscopy, McMaster Steel research Centre, gMC Centre for Automotive Materials & Corrosion, the McMaster Manufacturing research institute and the Brockhouse institute for Material research.
exciting research areas in the department include; organic/polymer electronics, polymer fuel cells and systems, lightweight automotive materials and the development of sustainable steelmaking processes and products. Some of our faculty and graduate students work in the rapidly developing areas of nano-engineering and thin-films.
WHAT MAC GRADUATES DO
Materials engineers work in a variety of areas, including the extraction, production, processing, design and selection of materials for:
aerospace components
automotive materials industry
transportation systems
information and communications systems
optical and optoelectronic components
biomaterials
electronic devices
recycling and development of environmentally friendly materials
energy production (nuclear, fuel cells)
Canadian researchers
have created a prototype
of a high-tech, flexible,
paper-thin touch screen
which can be folded
or rolled.
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What is Mechanical engineering?Mechanical engineering is a diverse discipline that encompasses nearly all types of physical components, devices and systems ranging from microscopic gears to giant space stations. Specifically, mechanical engineers use the principles of physics and mathematics to conceive, research, design, manufacture, test, control and maintain a wide variety of mechanical systems such as cars, airplanes, automated systems, and power plants.
FOCUS OF STUDY
Mechanics is a branch of physics that deals with the interaction of forces on a physical body and its environment. Our Mechanical engineering program is generally divided into three major areas:
Manufacturing and materials design and developing manufacturing processes studying the properties of materials and developing new materials
Mechanics and design innovative design of mechanical systems
Thermal-fluid sciences study of liquid and gas flow, heat transfer, thermodynamics and combustion
For students interested in a combined B.eng./M.eng. degree (in manufacturing), McMaster offers a five-year program to provide this option. For example, a mechanical engineering student could graduate at the end of year five with a B.eng. in mechanical engineering plus an M.eng. in Manufacturing.
RESEARCH AREAS
Through strong ties to industry, government, and other Centres of excellence, our researchers work with others around the world to create knowledge and find engineering solutions to many societal problems and challenges.
WHAT MAC GRADUATES DO
Mechanical engineering is involved in the production of nearly all physical devices and technological systems. graduates of the Mechanical engineering program may pursue: equipment design and manufacturing automotive and aerospace engineering human factors engineering control systems biomechanical engineering nanotechnology mechatronics systems developing renewable energy sources
& “green” technologies
Mechanical Engineering
engine performance control heat pumps vibration analysis
gas turbines robot programming metal cutting
motor materials
The Thermofluids Laboratories, which have two atmospheric wind tunnels, single- and multi-phase flow loops, boiling heat transfer and turbulence facilities with a wide range of instrumentation. Additional laboratories utilize machine tools, industrial robots, laser measurement systems, dynamic analysis equipment and cutting edge software. We also have a fully equipped machine shop which the students may use to build prototypes of their designs. Our extensive laboratory facilities allow hands-on experience with:
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What is Mechatronics engineering?Mechatronics engineering is a modern discipline that transcends the boundaries between embedded systems, mechanical, electrical, and computer engineering. Mechatronics engineering is commonly defined as “the discipline that focuses on the design and control of electro-mechanical devices” or “the integration of electronics, control engineering and mechanical engineering.”
Today’s designers are faced with the task of combining elements of these fields while coping with the miniaturization of components and use of prefabricated parts. The synthesis of different technologies is already included in modern precision engineering. Continuing developments in miniaturization and fabrication continue to provide further challenges for mechatronics engineers.
The demands of current and future technologies require engineers with interdisciplinary skills. The breadth of education required by mechatronics engineers will not only provide such skills in the short term, but will enable them in the long term to effectively adapt to rapidly shifting technologies.
FOCUS OF STUDY
McMaster University has designed an innovative Mechatronics program that offers a balance of mechanical, electrical and software engineering focusing on software-controlled, electro-mechanical systems design. This program gives students a solid foundation in these areas, then exposes students to a suite of innovative mechatronics specific lab-based courses for a hands-on experience that provides significant advantages in today’s job market.
RESEARCH AREAS
The synthesis of different technologies and various disciplines leads to research in many areas, such as: robotics automation control systems embedded systems, microcontrollers mechanical systems electro-mechanical devices electrical devices
WHAT MAC GRADUATES DO
Mechatronics engineers are employed in all sectors, including: manufacturing (controlling robots) automotive industry (hybrid cars) aeronautics industry (fly by wire) plant control (i.e. chemical, pharmaceutical industry)
robotic surgery
Mechatronics Engineering
The Google Driverless Car is a project that uses artificial intelligence and Google Street View to drive a car without input from a human operator.
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What is software engineering?Software engineers master the fundamentals of engineering like their colleagues in electrical, chemical, civil, computer, and mechanical engineering but specialize in the design and development of computer systems and software.Software is essential because it would be prohibitively expensive to manufacture custom hardware for each industrial application. it is used to tailor computer systems to meet the diverse needs of industries such as banking, aviation, communications and chemical companies. it is the program, the set of instructions that control the computer, which turns a general purpose piece of hardware into something that performs specific tasks. it is software engineers who bear the ultimate responsibility for the usability, safety and reliability of the final product.
FOCUS OF STUDY
At McMaster, we have applied well-established principles of engineering education to the software engineering specialty. Our students study all aspects of engineering in first year before they move on to focus on software engineering. Upon completion of the program, students will be able to design: efficient human/computer interfaces economically viable software product lines software interfaces for team projects
Software engineering students also learn how to: use logic-based automated development tools systematically inspect and test software develop computer security systems estimate a computer systems’ projected performance write user-friendly, technical documentation
RESEARCH AREAS
McMaster’s research group in software engineering is known throughout the world and has received a great deal of support from both government and industry. Bell Canada and the natural Sciences and engineering Council of Canada (nSerC) established an industrial research Chair in Software engineering at McMaster and Bell Canada subsequently provides support for McMaster’s Software Quality research Laboratory (SQrL). Because of this strength, our Faculty was the first in Canada to develop a software engineering program accredited by the Canadian engineering Accreditation Board.
WHAT MAC GRADUATES DO
Since software is now used in every type of organization, and in designing every type of device, career opportunities for software engineers are essentially unlimited. McMaster prepares students for a career in this rapidly changing field by emphasizing fundamental design principles, material that will still be useful and valid decades from today. graduates of this program may pursue careers in:
biomedical field communications computer industry power, chemical or automotive industry
Software Engineering
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What is an embedded system?An embedded system is a special-purpose system in which the computer is completely encapsulated by or dedicated to the device it controls. Unlike a general-purpose workstation or personal computer, an embedded system performs one or more pre-defined tasks, usually with very specific requirements. Since the system is dedicated to specific tasks, software engineers can optimize it, reducing the size and cost of the product. embedded systems are often mass-produced, benefiting from economies of scale.
Did you know that over 90% of the software deployed today is not running on a personal computer but is embedded in products such as cell phones, cars, MP3-players and medical devices? Just have a look around your home, or even in your pockets and in your bag and you will most likely find embedded systems.
FOCUS OF STUDY
The Software engineering (embedded Systems) program exposes students to the elements of embedded systems design such as electrical power and electronics; physical interfacing of digital and analogue electronics with the computer; and, software design for embedded systems and digital signal processors (DSP). Hands-on labs give students the opportunity to design, document, implement and test embedded systems.
RESEARCH AREAS
Some of the diverse research areas conducted within the department include: computer vision control systems discrete-event systems robotics software design, software specifications embedded systems, microcontrollers mechanical systems electromechanical devices electrical devices power electronics
WHAT MAC GRADUATES DO
graduates are equipped to pursue careers in: automotive industry
(digital dashboard, advanced stability control) aeronautics (gPS, instrumentation) cell tower control software
laboratory instrument development
Software EngineeringEmbedded Systems
In 2013, global smartphone shipments are predicted to rise to account for more than half of all cellphones at52 percent.
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What is Game Design?Software engineering and game design involves animation, real-time simulation, multimedia and the aspects of designing and implementing interactive games and data visualization. electronic games are major drivers in the development of computer hardware and software. graphics processors, 4D virtual reality modeling, real-time systems and control, animation tools, user interfaces and sensory feedback have all been heavily influenced by the demands of game designers. in turn, the technology from the gaming industry is driving countless other fields including digital image processing, audio and visual modeling, flight simulation, military training, design prototyping, architectural visualization and animation.
entirely new fields outside engineering, such as interactive arts and digital music, are being made possible by the technology. new areas of research, such as computationally efficient mathematical models to accurately simulate physical environments, are also emerging.
FOCUS OF STUDY
This program complements courses in software engineering with a selection of courses studying the design and implementation of interactive computer games and data visualization. it emphasizes user interfaces, real-time reactive systems, physically accurate simulations, and the human aspect of software. The curriculum gives students an introduction to physics and psychology as well as an understanding of multimedia.
Students will develop the creative ability to tell stories, design compelling worlds and animate interesting characters within the technical and scientific aspects of software engineering. in addition to the focus on game design, this program produces first-rate software engineers who can: design world-class user interfaces for any kind of software understand the balance between simulation accuracy and efficiency understand the human aspect of software communicate with artists and multimedia developers
After graduating with a B.eng. degree, students can add a graduate degree by staying for one more year and completing the Advanced Credit M.eng.
RESEARCH AREAS
Our researchers in engineering study computer architecture and graphics processors, virtual reality modeling, real-time systems and control, real-time animation, and computer game interface design. The multimedia aspect of our research involves digital imagery, audio and visual digital media, animation and interactive digital culture.
WHAT MAC GRADUATES DO
As well as being considered highly competitive for other software development jobs, graduates of this program often find employment in: computer gaming aircraft simulators military training simulators user-interface design computer graphics and animation
data visualization virtual product testing
Software Engineeringgame Design
With nearly 400 companies across the country, Canada’s video game industry ranks 3rd in the world based on employment statistics.
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What is engineering & Management?This unique five-year program includes all the learning of a fully accredited engineering degree with the core learning of a fully accredited business degree. The program provides an interesting and challenging educational experience and, upon graduation, an expanded range of career options and a competitive edge in the employment market. engineering & Management is available with all engineering disciplines except Chemical engineering & Bioengineering, electrical & Biomedical engineering, Software engineering (embedded Systems) and Software engineering (game Design). See page 28 for a list of possible degree program options.
entry into the program is by competitive application, based upon grade point average in engineering i. Students enter the program at the beginning of second year, and must have completed economics 1BO3 in year i with a minimum grade of ‘C’(5.0).
in addition to the courses required for their specific engineering discipline, engineering & Management students take the following courses:
ENGINEERING & MANAGEMENT COURSES
Three integrated engineering & Management courses integrate the technical and business perspective and teach skills such as effective business communication, team building, project management, creative group processes, and innovation management.
Discussions include how companies develop technical products while providing benefits to their customers and financial return to the firm. The capstone course requires students to work on a major project with a local business, or business start up, which contributes to the solution of a technical/business problem.
WHY ENGINEERING & MANAGEMENT?
Students of this program have distinct advantages as they: acquire both business and engineering skills are highly valued by employers often receive a premium salary in their first job have expanded career choices,
particularly in management positions are able to access an accelerated,
one-year MBA are able to access an accelerated,
one-year Meei from the entrepreneurship Stream
are better positioned to start their own technology based business
WHAT MAC GRADUATES DO
Our graduates are versatile, dynamic and motivated and find employment in fields such as: project management, business management, production/operations management, technical marketing, consulting, r&D management, engineering design or as entrepreneurs.
Engineering & Management
OPTIONAL ENTREPRENEURSHIP STREAM
engineering & Management students are eligible to apply to join an entrepreneurship Stream in which students will take courses in the Masters of engineering entrepreneurship and innovation program. in this program, students work to create their own business while they acquire entrepreneurial skills.
accounting business
analysis
business strategy
economics
finance human
resources
marketing organizational
behaviour
electives
44 45
What is engineering & society?The Faculty of engineering at McMaster University is the first and only one in Canada to offer a program of this kind. Building on the framework of the conventional engineering curriculum, the engineering & Society program examines the complex interactions between technology and society. it allows students to focus elective courses in an area of interest outside the Faculty, providing a valuable interdisciplinary opportunity.
This program as a whole is designed to develop broadly-educated, resourceful engineers who candirect their own learning,communicate well, and interact effectively with others.
The engineering & Society option is available with all engineering disciplines except Chemical engineering & Bioengineering, electrical & Biomedical engineering, Software engineering (embedded Systems) and Software engineering (game Design). Students apply for admission to the program near the end of their first year and are accepted upon successful completion of engineering i.
ENGINEERING & SOCIETY COURSES History of Technology Technology and Society Society Capstone Design Preventive engineering: environmental Perspectives inquiry in an engineering Context i, ii and iii
Focus Electives groups of courses focused on a central theme or subject area example areas include: geography, languages, drama, philosophy, music or business students may be eligible to obtain a minor in their chosen area
WHY ENGINEERING & SOCIETY?
There are many unique features and advantages to this program including: meeting industry’s need for broadly-
educated engineers acquiring a multi-disciplinary education exploring the human side of engineering developing self-directed learning and independent
research skills investigating the complex interactions between
technology and society
WHAT MAC GRADUATES DO
Most employers are looking for engineers who are competent in more than their technical area. They highly value strong communication and critical thinking skills.
Here are a few of the companies that our graduates are working for: 3M Bell ge Zenon iBM global Services environment Canada Proctor & gamble Arcelor Mittal (Dofasco) Canadian nuclear Safety Commission
Our engineering & Society graduates have a broad range of opportunities available to them: environmental consulting, public industry research, social-technical policy, city planning, green design for sustainability, conservation authorities, federal, provincial & municipal governments, third world development, resource industries, industrial relations, communications, and any industry related to the graduate’s specialization.
Engineering & Society
“We need our graduate engineers to be able to see the big picture, and use their creativity to make our society increasingly sustainable and resilient.”Dr. Brian Baetz
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What is engineering & International studies?The effects of globalization are profound, particularly in the engineering profession, where companies routinely draw talent and resources from the entire world. it is not unusual to find, for example, complex systems
designed by dispersed north American and european teams, manufactured in China, programmed using software developed in russia, sold in South America, with technical support from india. in such an environment, an engineer must be able to function in a multitude of cultural settings and be able to coordinate widely-dispersed and heterogeneous teams. The engineering & international Studies program is designed to help develop engineers with these capabilities.
ENGINEERING & INTERNATIONAL STUDIES COURSES
in an engineering & international Studies program, students take all discipline-specific engineering courses of a regular four-year program over five years interspersed with courses in anthropology, history, political science, and religious studies. Through inquiry and project management courses, global issues are explored in great depth.
WHY ENGINEERING & INTERNATIONAL STUDIES?
This program has been introduced to train future engineers to better understand the complexities associated with global project management. Students in this stream will develop an understanding of, and sensitivity to, the different cultural, political, religious and historical backgrounds of potential collaborators. They will also obtain additional technical training in areas that are particularly important in international settings, such as international project management.
WHAT MAC GRADUATES DO
The objective of this option is to develop highly skilled engineers who are able to function globally with an appropriate background. graduates will be ideally suited to work for either private or public industries, as well as government and non-government agencies with a global focus.
Looking Ahead
An engineer is a creator and inventor, concerned with the complex interactions between technology and society. The integration of engineering disciplines paves the way to an exciting and limitless future. McMaster’s commitment to focusing on interdisciplinary collaboration provides an ideal environment leading to that success.
integrating leading-edge research into our programs sustains, fosters, and promotes innovation in our academic environment. The Faculty of engineering offers a broad range of graduate studies within three established graduate schools.
WALTER G. BOOTH SCHOOL OF ENGINEERING PRACTICEmsep.mcmaster.ca
This school (SeP) was created to meet the need for engineers to understand the increasingly complex issues they face both globally and within local communities. Through its three centres, SeP promotes interdisciplinary studies at the master’s level, through the: Xerox Centre for engineering entrepreneurship & innovation Arcelor Mittal Dofasco Centre for engineering and Public Policy gMC Centre for engineering Design
McMASTER SCHOOL OF COMPUTATIONAL ENGINEERING AND SCIENCecomputational.mcmaster.ca
This School (CeS) offers programs that leverage McMaster’s internationally renowned expertise in computation and its applications in science and engineering. CeS exposes students to cutting edge, industrially relevant multidisciplinary training in: Computational Physical Sciences Computational Optimization, Design and Control Computational Biosciences
McMASTER SCHOOL OF BIOMEDICAL ENGINEERINGmsbe.mcmaster.ca
McMaster’s Faculties of engineering and Health Sciences have come together to create a unique research and training opportunity.This school (SMBe) provides a unique collaborative environment that leverages our existing expertise in medical sciences and engineering, and links current and emerging areas of molecular, medical and bioengineering research.
Engineering & international Studies graduate Studies
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Engineering Co-op & Career Services
engineering Co-op & Career Services (eCCS) offers valuable services to our undergraduate students. Our primary focus is to work with students as they develop career and employment related goals. All McMaster engineering programs include the co-op option; however, co-op is not mandatory for graduation. in order to achieve a co-op designation, students are required to complete a minimum of 12 months of work experience. Securing work terms is a highly competitive process; marks are important. eCCS assists students in the search for suitable co-op opportunities, but students are also encouraged to source their own work terms.
McMaster’s engineering co-op program provides maximum flexibility for both students and employers. Possible co-op program options include: three 4-month summer terms (May-Sept.) one 4-month summer term plus one 8-month consecutive term (September - April) one 12- to 16-month consecutive term
CO-OP REGISTRATION engineering students may register up until term 1 of their final year of study. Students must be in good standing in the Faculty of engineering to register for and
continue in the co-op program. Successful completion of engineer 1ee0 (co-op prep course) is mandatory.
Students completing the co-op requirement via consecutive 12- or 16-month terms must have completed their next-to-last year of study prior to beginning the work term.
Co-op & Career Services
PORTFOLIO BUILDING
eCCS maintains a portfolio for each co-op student, detailing his or her experience including: work term reports and evaluations; employer evaluations; and work samples that a student may wish to add. This portfolio can be used to help secure employment upon graduation.
CAREER SERVICES
Career services are available to all students registered in the Faculty of engineering. To assist in the career and employment planning process, eCCS offers: on-campus recruitment employer and staff-led workshops resume critiquing service by staff and trained peer helpers one-on-one counselling sessions corporate information sessions career resource centre
CONTACT INFORMATION
eCCS is located in engineering Student Services, JHe A214. We are available Monday to Friday between 8:30 a.m.and 4:30 p.m. you can reach us at (905) 525-9140 ext. 22571 or email engcar@mcmaster.ca.
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Computer Science (B.A.Sc.)
Whether it be keeping in touch with someone across the globe or predicting the effect of climate change, every aspect of our world is impacted by computer technologies. Many of today’s fastest-growing companies were founded by computer scientists. McMaster’s Computer Science program is designed to be flexible and meet the needs of an ever-expanding market.
The Department of Computing and Software, in the Faculty of engineering, offers two four-year Bachelor of Applied Science (B.A.Sc.) programs in Honours Computer Science and in Honours Business informatics. Students enter a common first year, Computer Science i, before specializing in Level ii.
in your core courses, you will learn:
how to analyze programs for scalability in relation to managing data sizes and user requirements
to define problems through dialogue with users and subject-matter experts problem-solving strategies developed by computer scientists over the last
few decades
in addition, you can apply your elective courses to your interest in a wide range of subjects like psychology, history, geography or political science.
HONOURS COMPUTER SCIENCE
The Honours Computer Science program offers courses designed to develop students into highly knowledgeable and skilled systems analysts, database specialists, programmers, and system administrators. Additionally, it prepares students for an accelerated master’s degree.
The program is built around three core areas: programming, software design and systems. Students are trained in modern systems-oriented topics such as distributed, networked, secure, high-performance, and web-based systems.
HONOURS BUSINESS INFORMATICS
Business informatics involves designing information systems to provide maximum utility and value in an organization. First of its kind in Canada, McMaster’s Honours Business informatics program looks at how people work and how organizations function, and considers the design and implementation of iT systems that support their operation. The program combines the fundamentals of computer science and business studies with a focus on the planning, development, implementation, operation, optimization and economic use of information and communication systems. The business courses are offered by McMaster’s Degroote School of Business.
WHAT MAC GRADUATES DO
Computer ScienceSince software is essential in almost every area of business, computer scientists find careers in every industry:
creating a start-up company writing physics engines building user-interface (Ui) frameworks designing distributed systems and more
Business InformaticsBusiness informatics specialists liaise between iT and business administration staff. They are often in high demand for:
business process modeling e-business management iT-support optimization database system design & maintenance
Computer Science (B.a.Sc.)
Canadian researchers have created a prototype of a high-tech, flexible, paper-thin touch screen which can be folded or rolled.
52 53
Like science, math, and computers?
Learn best by doing? interested in business?
The B.Tech. program is designed for students like you. you’ll earn both a McMaster University degree and an advanced diploma from Mohawk College in a program that combines classroom studies in technology and management with labs and industry experience.
FOCUS OF STUDY
employers have asked for graduates that are versatile, innovative, and ready to hit the ground running in an evolving industry. For this reason, B.Tech. students learn in three dimensions – they study theory and management practices in lectures, gain hands-on skills in labs, and experience the engineering industry first-hand during one 4 month and one 8 month co-op work placement:
www.Learningin3D.ca
B.Tech. streams:
Automotive and Vehicle Technology: Learn about the design, operation and manufacturing of advanced combustion, hybrid and alternative fuel vehicles. Work with CAD for component and system design and the use of simulation tools. Study vehicle safety, design, mechatronics, advanced electronic control systems, and the selection of advanced materials for vehicle manufacturing applications.
Biotechnology: Study genetic engineering, cell biology, molecular and microbiology, analytical instrumentation, and bio processing. Learn about the latest research in immunology, virology, genomics, proteomics, and bioinformatics.
Process Automation Technology: Develop highly tuned analytical and design skills, and gain specialized knowledge in sensors, instruments, actuators, industrial networks, process control and automation, SCADA, programming, statistical process control, internet technologies and integration of plant floor data with business systems.
WHAT B.TECH. GRADUATES DO
B.Tech. graduates are workplace-ready, able to move from the shop floor to the executive suite, or onwards to studies in Master’s or Ph.D. programs.
Automotive and Vehicle Technology graduates are in the driver’s seat! They design and manufacture automotive and vehicle components, systems, and cars of the future. Our graduates: develop new hybrid and green vehicle technologies design power and control systems, engines, and bodies conduct crash tests and safety audits streamline production processes in manufacturing plants
Biotechnology graduates join the public and private sectors to conduct cutting edge research and innovation – Canada ranks among the top 5 countries in biotechnology! Our graduates: conduct research and development in bioindustry (biofuel, food, and
pharmaceutical industries) monitor quality control & assurance of biomaterials specialize in areas such as bioinformatics, genetic & protein engineering,
nanobiotechnology, and bioremediation apply forensic biology techniques in areas such as criminal forensics
Process Automation Technology graduates use hardware and software to improve the efficiency of plants and labs in fields such as petrochemicals, pharmaceuticals, and primary steel. Our graduates: design control systems and assembly lines develop and program robotics program computer databases and processing software advise on safety policies and procedures for automated
technologies
Contact:Lindsay Carroccirecruiting & Promotion Coordinator905-525-9140 ext. 20221btech4u@mcmaster.caLearningin3D.ca
Technology i (B.Tech.)
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Tours & Events
Personalized engineering tours are available Monday to Friday from 10:30 am to 2:30 pm upon request. Book now with goeng1@mcmaster.ca or (905) 525-9140 ext.27174.
We recommend you also arrange a general campus & residence tour for the full McMaster experience at future.mcmaster.ca/tours/ or call (905) 525-9140 ext. 23650. (Advanced notice of two to three days is recommended.)
if you’re a high school student deciding which university is right for you, why not check out our Engineering Experience Weekend in May? Stay overnight in residence, compete in a scavenger hunt, design challenge, win awards and get the ‘inside scoop’ from current Mac eng students. Contact engoutreach@mcmaster.ca for more details.
L.E.A.P.LeAP is a summer program at McMaster which introduces high school students to engineering through lectures, hands-on activities, labs and industry tours. Headstart option allows students who will be entering engineering i to earn two course credits (1P03 & 1C03), thereby reducing the course load in the first year of study. Find out more at: leap.mcmaster.ca.
Contact UsMcMaster UniversityFaculty of engineering (JHe A214)1280 Main Street West, Hamilton, On L8S 4L7Email: goeng1@mcmaster.ca | Web: www.eng.mcmaster.ca/futureTel: 905-525-9140
Engineering I Outreach general inquiries ext. 27174
Engineering Student Services ext. 24646
Mac Eng online Tours & Events
you canlearn more,right now!
how?
Explore Engineering @ Mac: Student profiles and special lectures for high school orientation:
youtube.com/goeng1mac Take a step inside our labs and facilities in our new panoramic website:
exploreMcMaster.com
Check us out:Stay posted & stay in touch: facebook.com/goeng1mac
Twitter.com/goeng1mac
Connect with our students: “Hear it from Her” blog: goeng1mac.blogspot.com Mac eng Chat Sessions: www.eng.mcmaster.ca/future/chat
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