ENGINEERING

In engineering, you learn how to apply our knowledge in science and mathematics to conceptualise, design, construct and operate products and systems that solve human problems. 

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Majors in Engineering
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Electronic engineering is an engineering discipline which utilizes nonlinear and active electrical components (such as semiconductor devices, especially transistors, diodes and integrated circuits) to design electronic circuits, devices, VLSI devices and their systems. The discipline typically also designs passive electrical components, usually based on printed circuit boards.
This course course aims to provide students with a broad base of engineering, computational and analytical skills, as well as the specific knowledge and experience required for careers in the aeronautical industry. After this course, students will be able to acquire and apply fundamental knowledge of mathematics, science and engineering principles to solve complex mechanical and aeronautical engineering problems
This programme is different in nature from traditional engineering programmes, that includes mechanical and aeronautical engineering which emphasize heavily on the design aspects of engineering. The elements of aircraft design which are more relevant to maintenance activities such as advanced material technologies, durabilities and repairs are included in order to increase the student readiness to face the demand of highly sophisticated aircrafts.
Automotive engineering is a branch of vehicle engineering, incorporating elements of mechanical, electrical, electronic, software and safety engineering as applied to the design, manufacture and operation of motorcycles, automobiles and trucks and their respective engineering subsystems. Graduates can create the latest design for vehicles, utilising knowledge in engine and transmission, vehicle dynamics, analysis of vehicle structure and electronics.
Automotive technology is the practical application of knowledge about self-propelled vehicles or machines. Students studying automotive technology learn about engine construction, fuel and ignition systems, power trains, brakes, transmissions, electronic and diagnostic equipment, and more.
Biomedical engineering, or bioengineering, is the application of engineering principles to the fields of biology and health care. Bioengineers work with doctors, therapists and researchers to develop systems, equipment and devices in order to solve clinical problems.
Chemical and materials engineering is a fascinating discipline involved in building and sustaining the world around us as well as designing new materials for the future. The study of chemical and materials engineering enables students to transform basic academic education into professional engineering skills. Graduates apply their knowledge of energy, raw materials, process chemistry, process dynamics and other matters to achieve the highest possible product quality and process efficiency to provide for societal needs while demonstrating a concern for the environment.
Civil engineering is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including works like roads, bridges, canals, dams, and buildings. Civil engineers must consider many factors in the design process, from the construction costs and expected lifetime of a project to government regulations and potential environmental hazards such as earthquakes.
Computer engineering is a mix study of computer science and electrical engineering to further advancements in digital technology, computer networking and systems. The computer engineering curriculum places emphasis on both hardware and software aspects of system design and ensures that the design experience, which includes both analytical and experimental studies, is integrated throughout the program in a sequential manner leading to advanced work.
Electrical and Electronic Engineering continues to transform the way we live – from the latest consumer products through to sophisticated scientific and industrial technologies. Electronic and electrical engineers are highly employable and can find work in many industries, including electronics, automotive, IT, telecoms, manufacturing, power, transport, utilities and construction.

Electrical engineering is the design, building and maintenance of electrical control systems, machinery and equipment. Some electrical engineering concerns are also found in mechanical and civil engineering.

The term electrical engineering often includes electronics engineering. While electrical engineers mainly focus on large-scale production and distribution of electrical power, electronics engineers are concerned with smaller electronic circuits and often also work with computers and other modern technologies.

General engineering and technology focus on the understanding of applied engineering and a generic knowledge of technological equipment, methods and processes. It involves mathematical and computer skills, understanding of mechanics, material physics and statistics. Graduates can have career in architecture offices, construction companies, engineering firms, or in research and developmen firms.
Industrial engineering is a branch of engineering which deals with the optimization of complex processes, systems, or organizations. Industrial engineers apply science, mathematics, and engineering methods to complex system integration and operations.

Manufacturing Engineering is a branch of professional engineering concerned with the understanding and application of Engineering Procedures in Manufacturing Processes and Production Methods. Manufacturing Engineering requires the ability to plan the practices of manufacturing; to research and to develop tools, processes, machines and equipment; and to integrate the facilities and systems for producing quality product with the optimum expenditure of capital.

The Manufacturing or Production Engineer's primary focus is to turn Raw Material into an Updated or Finished Product in the most effective, efficient & economic way possible.

Mechanical engineering is the discipline that applies engineering, physics, and materials science principles to design, analyze, manufacture, and maintain mechanical systems. Students will able to construct and evaluate alternative design concepts, undertake detailed engineering analysis and mechanical design as well as manufacture prototypes and evaluate its performance.
Mechatronics is a multidisciplinary field of engineering that integrates mechanics, electronics, computer science and control theory. Mechatronics engineers develop, improve and optimise products and their functionality. Mechatronics engineer will improve the performance, features and functionality of products like cars, aircraft systems, medical and surgical devices and dishwashers.
Petroleum engineering is a field of engineering concerned with the activities related to the production of hydrocarbons, which can be either crude oil or natural gas. Exploration and production are deemed to fall within the upstream sector of the oil and gas industry, whilst downstream sector is the refining of petroleum crude oil and the processing and purifying of raw natural gas, as well as the marketing and distribution of products derived from crude oil and natural gas.
Telecommunications engineering is an engineering discipline centered on electrical and computer engineering which seeks to support and enhance telecommunication systems. Telecommunication engineers are responsible for designing and overseeing the installation of telecommunications equipment and facilities, optical fiber cabling, IP networks, and microwave transmission systems.
Career opportunity after Graduating