Engineering Courses! Make a choice easily

Engineering is a wide range of topics and with so many types of engineering courses to choose from, it can be difficult to narrow down which one is right for you. To help you decide, you should try and determine what you are passionate about.

What excites you and what do you spend your free time on? All types of Engineering include some form of Problem Solution (and usually focus on making life easier), but engineering-related solutions give you the biggest buzz?

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If you choose a topic that you are naturally interested in, you will find it easier to stay motivated in your course and participate in this topic while pursuing an engineering career.

* Aerospace engineering

Aerospace engineers are responsible for the research, design and production of aircraft, spacecraft, aerospace equipment, satellites and missiles. The work done by aerospace engineers makes fast mail delivery and Moon travel possible.

* Agricultural Engineering

Agricultural Engineers looking for solutions to problems involving the use of plants, animals and the natural environment. In the past, they mainly focused on improving crop and animal husbandry production. While this function continues, the scope of practice is expanding to include land and resource management, pollution issues, machinery for the cultivation of non-traditional crops, bioenergy development and value-added processing of biological materials.

* Automotive engineering

Automotive engineers design, build, maintain and operate self-propelled vehicles for use on land or at sea, in the air or in space.

* Bio and biosystems engineering

Bio and Biosytems engineers draw on Biotechnology found in the food, pharmaceutical, oil and textile industries and combine it with engineering design. Engineers in these areas may develop processes for microbes to produce antibiotics more effectively, or study how microbes can be used to digest oil spills.

* Biomedical engineering

Biomechanics and biomedical engineering combine the disciplines of Mechanical Engineering courses with human anatomy and physiology. Work in this area may include the design of prosthetics, the development of sports systems for patients with spinal injuries, and improve equipment for athletes in high-performance sports.

* Construction engineers

Construction engineers have knowledge of the planning, design, construction, operation, refurbishment and maintenance of buildings and understand the impact on the surrounding environment. Construction engineers explore all stages of a building’s life cycle. They identify problems and find appropriate solutions to improve the quality of life in the built environment.

* Chemical engineering

Chemical engineers apply chemical, mathematical and physical principles to the design and operation of industrial equipment and methods for the manufacture of chemical products. Fibers in clothing, soaps and detergents, leather, paints and plastics are all designed and produced by chemical engineers.

* Civil engineering

Civil engineering is one of the oldest types of engineering. It deals with the design, construction and management of municipal infrastructure, roads, railways, transport systems, airports, ports, bridges, tunnels and buildings. Civil Engineers also ensure the provision of high-quality water and sewage treatment facilities.

* Computer engineering

Computer engineering courses involves the design and prototyping of computing hardware and software. This course combines electrical engineering with computer science,and you may prefer to study Computer Engineering with one of these similar subjects.

* Electrical engineering-communication-GPS

Communications engineers plan, analyze, design, implement, operate, Test, maintain, and manage communications systems and networks. They play a key role in the continued development of the internet and related technologies.

* Electrical-Computer-Engineering

Engineers specializing in electronic systems focus on the design, analysis and manufacture of electronic circuits and devices.

* Electronic systems engineering

Engineers specializing in electronic systems focus on the design, analysis and manufacture of electronic circuits and devices.

* Engineering chemistry.

Chemistry, the way atoms and molecules react and interact, play a role in almost everything. They use their chemical knowledge to develop solutions to engineering problems. They often deal with issues related to the environment, oil and gas production, and material development.

* Engineering management

Another interdisciplinary area, engineering management has evolved in recent years, and the university has met the industry’s demand for management-focused engineers by developing specialized engineering management courses. These engineering courses combine industrial engineering skills with business expertise and are usually developed jointly by the College of engineering and business. You can also learn and manage one of the above branches of engineering.

* Environmental engineering-wind turbines

Environmental engineers develop viable solutions to problems that affect human and Natural well-being. They are committed to preventing environmental pollution by designing air and water quality control systems, vibration and noise reduction, and hazardous waste disposal systems. They also worked hard to clean up contaminated soil, water and air.

* Food engineer

Food engineers apply engineering concepts and principles to transform raw food into the highest possible quality safe consumer goods. They work in the fields of food handling, processing, packaging and distribution.

* Forestry-engineering

Forestry engineers study the effects of industrialization on nature, silviculture, hydrology and renewable resources. They are involved in the development of Sustainable Forestry and the design of timber harvesting and processing equipment.

* Geoengineering soil samples

Geological engineers apply geological data, techniques and principles to the investigation of natural materials such as rocks, soil and groundwater. They determine the suitability of the various locations of buildings, dams, highways, airports, pipelines and tunnels and participate in the design of these structures.

* Geotechnical engineering-geotechnics-weather stations

Geomatics engineers collect, display and analyze data about the Earth’s surface and its gravitational field for mapping, legal boundary delineation, navigation and monitoring of environmental changes. Most of their information comes from images provided by the network of satellites orbiting the Earth. Geomatics engineers also help aircraft navigate and locate offshore drilling platforms.

* Industrial / manufacturing engineer

Industrial and manufacturing engineers use their expertise in equipment, materials, procedures, human resources and production methods to help organizations increase efficiency, effectiveness and productivity. Industrial engineers focus on the management aspects of operations, while manufacturing engineers focus on the manufacturing process. Their wide range of knowledge enables them to work in almost all types of business.

* Material engineer

Material engineers study the properties of existing materials, find new ways to use them and develop new materials. Material engineers work in various fields. For example, the petrochemical industry requires material engineers, as many modern materials, such as synthetic rubber and plastics, are made from by-products of petroleum refining.

* Mechanical engineer

Mechanical engineering courses use the principles of mathematics, materials science, physics, and economics to design, manufacture, and maintain mechanical equipment. Our household appliances, ventilation systems, cars, ships and aircraft are designed, tested and manufactured by mechanical engineers.

* Metallurgical Engineering

Metallurgical engineers study the properties and properties of metals and other materials. They research, develop and monitor the process of extracting metals from ores, develop new alloys and metals to meet specific requirements, and produce both metallic and non-metallic products.

* Naval Engineering

Naval construction engineers and marine engineers conceive, design and build ships, offshore structures and other marine vehicles. They may work in the design, shipbuilding, fisheries, transportation, defense, or oil and gas industries.

* Geotechnical and petroleum engineering

Petroleum engineers are engaged in the exploration, exploitation, development and processing of oil reserves. Oil engineers are involved in such things as determining the optimal location for new wells to be drilled, operating oil facilities, and monitoring and predicting reservoir performance.

* Oil engineering

Oil engineers are engaged in the exploration, recovery, development and processing of oil and gas. Oil engineers are involved in tasks such as determining the optimal location for new wells to be drilled, operating oil and gas facilities, and monitoring and predicting reservoir performance.

* Engineering science-physics.

Engineering physicists study the role that physics plays in engineering. They are involved in electricity production, astronomical research and the design of spacecraft.

* Plastic Engineering.

Plastic engineers study the properties of polymer materials. They also designed custom machines.

* Production engineering

Production engineers design, control and continuously improve integrated systems of people, materials, machinery and funds for the production of goods and services. Their goal is to produce goods and provide high-quality services in a timely and cost-effective manner.

* Software engineering

Software engineers are trained in the specification, design, development and maintenance of software systems and products. They apply the principles of engineering and Computer Science in the design of large-scale and embedded software control systems.

* Systems engineer

Systems engineers assist and support policy development, planning, decision-making and related resource allocation or operational deployment. They study the interaction of science, organization, and the environment.

* Water Resources Engineer-Civil Engineering

Water engineers protect the water supply and ensure that the development of new resources does not disrupt natural processes and groundwater tables. They help assess sources of pollution, control flood damage and soil erosion, and resolve conflicts in water reserve.

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