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An Engineering course and career can take you around the world, working on a wide range of exciting and life-improving projects and products. If you enjoy the sciences, maths, design and technology, an engineering course may be the right choice for you. Which Engineering course is right for you? It's important to consider which area of engineering study you will specialise in, as they can lead to very different careers. Civil engineers build the structures that define our civilisation – bridges, buildings, transport systems. Electrical engineers study how technology can build new products, or develop new processes for manufacturing and design. Or you could design and build planes, space aircraft, robots, medical equipment, or even computer programmes. Types of Engineering courses You can study engineering courses at diploma, undergraduate and postgraduate level. Most highly paid engineering consultants have a postgraduate engineering degree. Some also study joint degrees, combining engineering courses with law, business, computing or even medicine. Aeronautical or Aerospace Engineering This branch of Engineering concerns itself with the design, construction and testing of commercial and military aircraft, even missiles and spacecraft. Aerodynamics, Acoustics, Thermodynamics are a few of the specifications possible within this branch. Agricultural Engineering This branch of Engineering focuses on the agricultural sector and hence concerns itself with the design and development of farm implements and the production and processing of agricultural commodities. Automobile Engineering Automobile Engineering is concerned with the design, development, manufacture and maintenance of automobiles. Chemical Engineering Trained in several fields such as physics, chemistry, mathematics, electrical and mechanical engineering, chemical engineers apply their knowledge towards the design, construction and maintenance of plants and equipment for the manufacture of chemical products. Civil Engineering This branch of Engineering deals with the design and construction of Infrastructure, such as bridges, dams, harbours, railroad system etc. A civil engineering career offers many different challenges and opportunities in all parts of the world. Computer Engineering The primary function of a computer engineer is the design, manufacture and maintenance of computers and its hardware. Electrical and Electronic Engineering Electrical and Electronic Engineers are engaged in a wide variety of professional activities encompassing research and development as well as design and manufacture. They are involved in industrial applications ranging from semi conductor device technology, information system and communication through automation and electronic system to power system. Industrial Engineering This branch of Engineering deals with the design and construction of Infrastructure, such as bridges, dams, harbours, railroad system etc. A civil engineering career offers many different challenges and opportunities in all parts of the world. Instrumentation Engineering This branch of engineering deals with the design, construction and maintenance of instruments and instrument units. Manufacturing Engineering Professional manufacturing engineers are responsible for all aspect of the design, development, implementation, operation and management of manufacturing system. Manufacturing is the most important element in any engineering process manufacturing engineers are key personnel in many organisation. The manufactured products range from aeroplanes, turbines, engines and pumps - to integrated circuits and robotic equipment - to automobile components and other batch-producted items. Marine Engineering Marine engineers engage in construction and maintenance of sailing vessels. Mechanical Engineering The largest branch of engineering, mechanical engineering deals with the design and maintenance of machines and manufacturing systems. Professional mechanical engineers use modern technology to meet the demands of society. They have wide career opportunities and are the key personnel in all branch of industry, from planning, development and design, research, to manufacture, sales, testing, installation and maintenance. Metallurgical Engineering This branch of engineering deals in specialised chemical, physical or mechanical disciplines and materials engineer develop the new types of metal alloys for special, industrial purposes. Mining Engineering The branch deals with the extraction and processing of minerals and the development of new mining equipment. Information Engineering No computing experience is assumed for those entering the course and all units start at the introductory level. The pace of instruction rapidly accelerates and students are expected to underpin their studies with a great deal of private study and practical effort. Telecommunication Engineering Telecommunication Engineers deal with systems, satellite, T.V. Radar, Navigation etc.. As the systems are fairly new, there are bugs to work out, but also has tremendous opportunities to improve the network. The students of telecommunication engineering, as with other engineering disciplines, learn science and math, but the courses and labs emphasize how to apply this knowledge to industrial situations. By this practical approach, these engineers gain technical skills that are both highly developed and extensive. These engineers are also well indoctrinated in "people-oriented" skills like public speaking, project management, and technical writing, enabling them to be effective communicators. In addition, required electronic courses in the curriculum provide a strong background in computer hardware and C-language programming. Textile Engineering The textile industry is in a period of rapid and revolutionary modernization and automation, increasing the need for engineering graduates with skills in engineering, design, chemistry, management, computers, apparel, marketing/sales, and quality control. Textile Engineers meet this challenge. Textile Engineering combines the principles of engineering with specific knowledge of textile equipment and processes. The curriculum draws from other engineering disciplines including mechanical, electrical, and industrial and chemical engineering. The emphasis is on science and engineering. Students planning to pursue a degree in textile engineering will find it advantageous to have a strong background in mathematics. |
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