Introduction to 8 core majors of University of Toronto Engineering (Undergraduate)

Let's introduce the engineering major of University of Toronto .

Introduction to the Department of Engineering

• QS 2021 ranking list, Toronto University ranked 25th, ranked first among all Canadian universities.
• is ranked 22 in the world in QS World University Rankings by subjects- Engineering & Technology in 2020, and it is also the Canadian university ranking first .
• The various engineering majors of the University of Toronto belong to the Faculty of Applied Science and Engineering (Faculty of Applied Science and Engineering), referred to as the Engineering Department, and is one of the ace majors of the University of Toronto.

The Department of Applied Science and Engineering is a world-renowned community of researchers and students dedicated to solving the world's most pressing challenges through collaboration and interdisciplinary research and experiential education.

Through rigorous technical training, unparalleled extracurricular activities and professional experience opportunities, the Department of Engineering prepares the next generation of engineering technology leaders and changemakers to release their unlimited potential.

The departments, departments and research institutes of the Department of Engineering are among the best in Canadian engineering education and research.

Engineering Department provides students with Canada's most interdisciplinary engineering education. Students can customize their degree through major, minor and certificate courses, thereby increasing the breadth and depth of learning.

This academic flexibility starts in the first year,Strong8strong can choose three different entry points.

In other words, has set up three major professional directions for freshmen in the engineering department , which are:

1. Core 8 Programs (8 core majors) [1+3 model]
2. TrackOne / Undeclared (General Engineering/ Freshman Undirected) [1+3 Mode]
3. Engineering Science (Engineering Science) [2+2 Mode]

The degree obtained by Core 8 and TrackOne It is Bachelor of Applied Science, and the degree obtained by Engineering Science is Bachelor of Applied Science in Engineering Science.

Let's take a look in detail below.

Introduction to the 8 core majors of the University of Toronto Engineering

The 8 core majors are:

1. Chemical Engineering
2. Civil Engineering
3. li7 Engineering li12li Engineering
4. Electricalli7 Engineering li12li Engineering
li12 Mechanical Engineering
5. Mineral Engineering

If students in grade 12 have been able to clarify their future career development direction,Then you can choose to apply for Core 8 directly.

These 8 core majors include the most common and popular engineering majors. Let’s talk about it in detail.

1. Chemical Engineering

Chemical engineers combine chemistry, biology, mathematics and engineering to solve practical problems and create new processes and products.

As a chemical engineering student, you will learn how to solve problems that have a significant impact on society, such as reducing our environmental footprint, creating sustainable development processes and improving human health. Our professors do cutting-edge research: develop renewable energy and materials, use biotechnology to purify pollution, sustainably produce products, and manufacture artificial organs, etc.

As a freshman and sophomore, you will lay a solid foundation in compulsory courses such as chemistry, physics, mathematics and engineering principles. In the third and fourth years, you can explore any of the 10 minor majors in the Engineering Department and choose courses in the following fields, such as biomolecular and biomedical engineering , bioprocess engineering , Chemical and materials process engineering chemical and materials process engineering , environmental science and engineering environmental science and engineering , informatics informatics , pulp and papermaking pulp and paper ,Surface and interface engineering surface and interface engineering , and sustainable energy sustainable energy . Students can also participate in related project research.

2. Civil Engineering Civil Engineering

Civil Engineering is committed to the design, construction and maintenance of buildings and infrastructure, from the deepest tunnel to the tallest building.

Civil engineering students will choose courses in the fields of construction science, construction management, environmental engineering, mining and surveying, structural engineering, and transportation engineering and planning. In every field, Toronto is a real laboratory for students.

The knowledge you learn here will help you design solutions that can directly affect the quality of life around the world: rebuild deteriorating urban infrastructure; design buildings to withstand natural disasters; develop advanced technologies for complex transportation networks; supply Clean water and treat wastewater; establish alternative energy systems.

You will learn on the most advanced equipment in the world. As a sophomore, you will start with mathematics, calculation, chemistry, physics , applied structural mechanics, fluid mechanics, hydraulics, materials, measurement, geology, computer graphics and engineering ecology. Upper-level courses will provide hands-on experience.

The Department of Civil Engineering has always been ranked first in Canada.

3. Electrical & Computer Engineering Electrical & Computer Engineering

Electronics and computer engineers deal with two key issues of the current era: the exchange and control of digital information, and the generation and distribution of energy.

Your professors are conducting cutting-edge research on the fastest-developing technology in the history of the world: using natural energy from the sun, wind, earth and ocean; building breakthrough biomedical equipment to improve the quality of life; making you better Store data in a cloud disk safely and faster; develop an application that may become a must-have for the next smart phone.Multi-touch sensing is just one of the pioneer technologies we have developed. When chooses "Electrical or Computer Engineering", you will have the opportunity to shape the future of technology.

In the first two years of these two majors, you will learn engineering design and communication, mathematics, digital systems, electronics, communication systems, computer architecture and software. In the senior year, you will focus on one of the following six areas: Analog & Digital Electronics ; communication, signal processing and control Communications, Signal Processing & Control ; Networks ; Electromagnetics & Energy Systems ; Photonics & Semiconductor Physics ; Software Software .

At the University of Toronto, Electrical Engineering and Computer Engineering belong to the same department. Duda is the only university with a large number of world-class leading experts in the fields of electronic and computer engineering. At the same time, the two majors of are the highest and one of the largest in Canada. There are 79 professors in .

4. Industrial Engineering

Industrial Engineering aims to improve the way people interact with technology and systems.They help various industries operate safely and efficiently to achieve profitability. Strong8strong's industrial engineering major is the best of its kind in Canada. Professors bring research results into the classroom, so that students have the opportunity to participate in groundbreaking work of practical significance.

You will start by learning the basics of industrial engineering: statistics, operational research, and human-oriented system design. As a sophomore, you will study courses in engineering psychology, human performance, scheduling, and healthcare systems. In the third year, you can choose courses in the following fields: human factors Human Factors ; operations research Operations Research ; information engineering Information Engineering . In the senior year, students will complete a one-year practical project aimed at solving practical problems of a certain client. Through the course, students will develop strong problem-solving skills and proficient in leadership teams.

After graduation, your "panorama" ability can be used to simplify the operating room, distribute products globally, improve online customer relationships, or analyze stock trading. Industrial engineering and business are closely related, and many graduates choose to continue their MBA courses, become management consultants or engage in related jobs such as hospital management.

5. Material Engineering

Materials engineers are committed to optimizing the composition and manufacturing methods of materials. New materials can achieve better performance and sustainable technology.

Students will learn from professors the following: create advanced materials for efficient energy storage and conversion technology, use silicon extracted from rice husks to reduce the cost of solar cells, and develop lightweight and high-quality materials for aerospace and automotive applications Performance materials, etc.

This is where advanced engineering meets cutting-edge science. Students will study how to design and manipulate the structure and properties of materials at the molecular and atomic levels.Based on knowledge of chemistry, physics and mathematics, students will increase their professional engineering knowledge in nanotechnology , biomaterials, adaptive polymers, advanced semiconductors, photovoltaics, forensics and many other exciting fields.

Senior students can focus on: Biomaterials Biomaterials, Design of Materials, Manufacturing with Materials and Sustainable Materials Processing. The University of Toronto ranks first in the field of materials science in Canada. After graduation, students will join a network of alumni who are leaders in creating global sustainable solutions.

6. Mechanical Engineering

Mechanical engineers focus on working principles. From automobiles to medical equipment, most technical objects are designed according to the principles of mechanical engineering. Mechanical engineering is a discipline that involves using the laws of physics to analyze, design, manufacture, and maintain mechanical systems.

Many courses are world-renowned for their application and practice. Theoretical learning will be realized through practical operation of students in the laboratory and work site. Students will take courses in physics, risk assessment, thermodynamics, biomechanics and sustainable energy. Students will also understand the physical principles of mechanical design-appearance; how each part works; how to make it safe, economical, efficient, easy to use and responsible for the environment.

As a junior, students will focus on one of the following fields: bioengineering Bioengineering , energy and environment Energy & Environment , manufacturing Manufacturing ,Mechatronics Mechatronics and solid mechanics Solid Mechanics . In the senior year, students will join a student team to work with an industry client to solve the problems their company is facing.

Mechanical engineers understand the world as parts in motion, and the market is always in short supply. Our graduates have careers in many fields, such as designing communication systems, computers, auxiliary medical equipment, low-carbon technology, automotive design, power generation, nanotechnology, and composite materials.

7. Mineral Engineering

Everything that humans use is captured, planted or mined, that is, obtained from nature. Therefore, mineral engineering is an applied science that studies the interaction between humans and the earth.

The content of the students' courses is quite extensive, covering chemistry, civil engineering, materials, machinery, computer engineering, as well as mathematics, physics and geology. Students will learn about mineral exploration, mine design and management, mineral processing and mining finance. After graduation, the students' professional knowledge will lead the mining industry to become more sustainable, safe and efficient.

After the first year, the class size will be much smaller, students can have a strong sense of community, and everyone will have more opportunities to learn and communicate. In the fourth year, students will join a team of students and industry engineers, aiming to provide a solution to a practical engineering problem.

Toronto is the world's mining and financial capital. There are a large number of mining company headquarters-there are 1,600 of them within five kilometers of the campus. Many students are in short supply. After graduation, you can usually get many attractive Job Offers. After completing this major, students can focus on the following fields: Applied Geology , Geological Engineering ,Geotechnical engineering Geotechnical and mining and geomechanics Mining & Geomechanics .

You can find many mining engineering graduates all over the world, from the deepest underground to the skyscraper meeting rooms of the world's most powerful companies. They found diamond deposits, searched for oil, built large tunnels, processed multi-billion dollar hydroelectric projects, and designed underground cities.

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