Engineering at UC
What is Engineering?
Engineers are designing the future. If you are interested in developing technology to improve the quality of our lives and provide solutions to meet the needs of our modern world, then Engineering is for you.
Studying Engineering will lead you into a challenging, flexible, and rewarding future with international opportunities. Engineers are responsible for the design and operation of the infrastructure which underpins our society including:
- Water and electricity supply
- Large structures such as buildings and airports
- Processing plants for food and forest products
- Consumer items like iPads and cars
- Manufacturing systems
Is Engineering for me?
If you enjoy mathematics and science, figuring out how things work, and working with other people to solve complex problems then you should consider becoming a professional engineer. UC offers a full range of engineering disciplines with courses ranging from nanotechnology to managing the forest landscape.
With a balance of first-class theoretical education and challenging practical work in industry, a Bachelor of Engineering with Honours degree will prepare you for a rewarding and diverse career.
Keep your options open
We give you the flexibility to study courses in your Engineering Intermediate Year which allow you to keep a variety of options open about your discipline in your Professional (second, third and fourth) Years. The nine disciplines you can choose from are:
Chemical and process engineers transform raw materials into processed, marketable products by chemical, physical, or biological means. They take science experiments performed in the laboratory and operate them on a commercial scale, taking into account economics, safety, and sustainability. Others are involved in the research and development of new products and processes, such as those in nanotechnology, biotechnology, or advanced materials.
For more information about Chemical and Process Engineering visit their website.
Civil engineers design, construct, project manage, and commission a wide range of facilities and infrastructure such as buildings, bridges, towers, dams, roads and railways, pipe networks, and treatment plants. These facilities provide people with a reliable, safe, sustainable, and modern environment to live in.
Electric power depends on civil engineers for the design and construction of dams, canals, and transmission towers. Many towns and cities are protected against flooding or the effects of fire and earthquakes by infrastructure designed and constructed by civil engineers.
Civil engineers have responsibility for managing people, equipment, resources, time, and money. Communication skills are vital, as all professional engineers need to effectively disseminate complex information to people of diverse backgrounds by providing detailed engineering reports, presentations, and taking part in public hearings and inquiries.
This is a broad field, and students may take courses to focus on a more specific area of civil engineering during their professional years of study to suit their interests.
For more information about studying Natural Resources Engineering visit their web pages.
Computers are at the heart of innumerable modern products, most of which would not be identified as computers. Computer engineering involves the development, both electronics and software, of such 'embedded' computers. It requires a combination of technical knowledge, science, and creativity with a strong emphasis on design to develop practical solutions to real-world problems.
Applications, industries, and devices associated with computer engineering include computer systems, portable electronics, autonomous robotics, biomedical devices, household electronics, telecommunications and networks, and manufacturing and infrastructure.
For more information about Computer Engineering visit their web pages.
Minor in Communications and Network Engineering
If you have an interest in the internet, and specifically in the "internet of things", the design and implementation of computer networks, and in a wide range of communications, the minor in Communications and Network Engineering would be a good choice to complement your Computer Engineering degree.
Electrical and Electronic Engineers harness one of the fundamental forces of the universe, electromagnetism, for the benefit of the world.
Electrical and Electronic Engineers create systems to provide efficient and sustainable power for homes and industry, the physical parts that transfer information between computers, and also the smart miniature devices we now have throughout the modern world.
Electrical and Electronic Engineering involves being creative with the generation, storage, and use of electricity; the design and programming of smart systems, such as robots and mobile devices; as well as the design and use of integrated circuits, sensors, and actuators. This discipline also involves the transmission and transformation of information using computers and communication networks, and the design of new electronic and computer products.
Electrical and Electronic Engineers have played a major role in the development of many technological advances, from personal computing and smart phones to autonomous vehicles and renewable electrical power. Digital television, unmanned aerial vehicles, robotics, medical imaging, and space exploration have all been possible in large part because of electrical engineering innovation.
For more information about Electrical and Electronic Engineering visit their web pages.
Minor in Power Engineering
The minor in Power Engineering is available for those with a particular interest in specialised electrical systems, including electrical distribution and usage in devices such as generators and transformers.
Forest engineering is a hybrid of engineering, forestry, and management. It requires people who can combine skills to solve engineering problems in the natural environment, with a focus on balancing economic, societal, and environmental requirements.
Forest engineers construct and evaluate the operational systems that make the forest industry ‘work’. This can include:
- designing and building new roads
- developing or modifying forestry equipment
- planning harvest operations
- optimising transport logistics
- integrating new technologies
- supervising employees and contractors
- ensuring safety standards are maintained.
Forest engineers work with public and governmental agencies. They look after the environment, and may steer projects through the resource consent process. Forest engineering graduates know the forest environment and forest products and processes, and they provide the essential link between the forest and the final product.
For more information about Forest Engineering visit their web pages.
Mechanical engineers design and develop everything that is moving or has moving parts – from airplanes to wind turbines to dishwashers, as well as everything from macroscopic (large) down to nanoscopic (very small). Mechanical engineers are systematic thinkers with a sense of social responsibility that leads them to constantly seek better ways of doing things.
Many mechanical engineers specialise in areas such as materials, dynamics and controls, product design, manufacturing, energy and thermodynamics, and mechanics. Others cross over into other disciplines, working on everything from artificial organs in bioengineering to enhancing the field of nanotechnology.
The mechanical engineer may design a component, a machine, a system, or a process, and analyse their design using the principles of work, power, and energy to ensure the product functions safely, efficiently, reliably, and can be manufactured economically. Central to a mechanical engineer's role is the design and the use of information technology.
Find out more about Mechanical Engineering by visiting their web pages.
Mechatronics is the field behind the "Smart Products and Systems" that increasingly dominate many aspects of our lives. It sits at the intersection of mechanical, electrical, and computer engineering, and combines sensors, software, and motors to create innovative and amazing new devices.
These mechatronic systems can be found manipulating the smallest bits of matter, in spacecraft, as well as throughout your home and town. From smart phones and TVs, to smart energy grids to smart cars and smart medical care and devices. They are everywhere, making life better, greener, healthier, more productive, and more interesting.
During the coming decades, we will see an explosion of these automated systems further aiding our lives. Robots are widely used to automate manufacturing processes for productivity benefits, quality consistency, and reduction/elimination of physically hard and/or hazardous labour. Mobile machines, such as Unmanned Aerial Vehicle (UAV), Autonomous Underwater Vehicle (AUV), and Autonomous Ground Vehicle (AGV), are deployed to operate in such environments.
The vast discipline of Mechatronics Engineering does not stop at the visible world. Micro and nano electro-mechanical systems (MEMS/NEMS) are an ever increasing branch of mechatronics research and technology for applications such as atom-scale microscopy and spectroscopy, micro and nano fabrication, big data storage, sensor technology, medical drug delivery, and many more.
For more information about mechatronics engineering please visit their web pages.
Natural resources and environmental engineers improve or maintain the sustainability of natural resources through creative design and wise application of technology. Natural resources engineering takes into consideration both the impact of humans on natural systems and the impact of natural systems on humans.
Natural resources and environmental engineering is the application of the physical (and social) sciences, using a system-based approach to design technology for the sustainable development, management, and conservation of our natural resources. These resources include land, soils, water, the atmosphere, renewable energy, and biological resources (such as plants and animals). Wastes are also considered resources, and can be recycled in a variety of ways, and end products utilised.
For more information about studying Natural Resources Engineering visit their web pages.
Our society relies in many ways on software or software-based systems, for example in transportation, entertainment, telecommunications, government, business, health, and avionics.
Very often software systems have a high degree of complexity, often consisting of millions of lines of code produced by large teams of engineers or programmers. We critically depend on their timely and cost-effective completion, and on their reliable and efficient operation. To meet all these targets, a disciplined and well-founded approach to the design, creation, and operation of software (or software-based systems) under real-world constraints (economical, ethical, technical, legal) is needed.
Find out more about studying Software Engineering by visiting their web pages.
Why choose UC?
QS World university rankings rate UC in the top 1 per cent of universities worldwide for engineering and technology. Our Civil and Natural Resources Engineering Department is ranked in the top 100 worldwide. Chemical and Electrical and Electronic Engineering are both ranked in the top 250.
UC is also the first university in New Zealand to receive a five-star rating from QS Stars. A typical five-star university is generally world class in a broad range of areas, enjoys a high reputation and has cutting-edge facilities and a renowned research and teaching faculty. UC has received a five-star rating for Engineering and Technology, Research, Teaching, Infrastructure and Internationalisation.
All of our degrees are accredited by Engineering New Zealand, formerly known as the Institution of Professional Engineers New Zealand and therefore recognised as meeting the academic requirements for professional engineers. Engineering New Zealand is a signatory to the Washington Accord, making an Engineering degree from UC an internationally recognised qualification.
UC is the only university in New Zealand to offer Natural Resources Engineering, Forest Engineering and Forestry Science. Our Diploma in Global and Humanitarian Engineering is also unique within Australasia.
Support for students
Our new student-led, College enabled, peer mentoring programme. All Engineering Intermediate Year students will be assigned to a peer mentoring group led by a current Professional Year engineering student who has successfully “been there and done that”.
What you will get?
- A weekly mentoring session for the first 10 weeks of Semester One
- Expert tips and tricks to help you thrive in your Intermediate Year including:
- How to start assignments
- Ways to juggle the workload
- Who to see for advice including all UC’s different support services
- Great places to study on campus
- The best food spots
- Somewhere you can ask questions about Engineering Intermediate Year
- A fun way to make connections with other students
- Free food
We also offer additional mentoring groups to support:
- Māori students
- Pasifika students
- International students
- Women students
Engineering students have access to specially designed computer laboratories and software. There are dedicated Engineering teaching and research laboratories in every discipline, with first-rate equipment, testing facilities and expert technicians available to provide you with the skills and support required for hands-on learning. There is also a specialist EPS (Engineering and Physical Sciences) library.
Student-run clubs like ENSOC (Engineering Students' Society), WIE (Women in Engineering), EWBNZ (Engineers Without Borders NZ), and IEEE Student Branch support learning and provide links to industry.
Add a Diploma in Global Humanitarian Engineering
UC offers the only Humanitarian Engineering qualification in Australasia.
If you'd like to
- Add a humanitarian focus to your degree
- Gain an employment advantage
- Help solve the world's biggest problems
Add a Diploma in Global Humanitarian Engineering to your Bachelor of Engineering and get an extra qualification without adding any extra time to your degree.
International experience as part of your degree is a benefit when you are looking for employment. As an engineering student at UC you have the opportunity to study for part of your degree at a university overseas through our Outgoing Exchange (current UC students) scheme.
The University of Canterbury is the only New Zealand university which is a member of the Global E3 consortium. This engineering exchange scheme allows students to apply to study at a number of international universities for a part of their degree, usually one semester.
The University of Canterbury campus is located in a suburb of Christchurch and acts as its own small community. You will find numerous cafes, restaurants, a bookshop and an events centre. Cultural diversity is excellent and the College of Engineering has strong links with China and Malaysia as well as students from around the world.
Innovation Champions foster and encourage ideas and inventions from College of Engineering to enable them to reach their commercial potential and make a positive contribution to New Zealand and the world. The college has 13 Innovation Champions:
- Keith Alexander - Mechanical Engineering
- Martin Allen - MacDiarmid Institute
- Tim Bell - Computer Science and Software Engineering
- Mark Billinghurst - HITLab NZ
- Conan Fee -Head of School, Product Design
- Paul Gaynor - Electrical and Electronic Engineering
- Richard Green - Computer Science and Software Engineering
- Alessandro Palermo - Civil Engineering
- Shusheng Pang - Chemical and Process Engineering
- Fred Samandari - Wireless Research Centre
- Rick Beatson - Mathematics and Statistics
- Rien Visser - Forestry
- Graeme Woodward - Wireless Research Centre
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