List of Lucrative Professional Engineering Courses to Study In Nigeria today, studying a Engineering course is considered as a big deal for all life science students. People go extra miles just to make sure that they are able to secure admission into an Engineering course probably because of the high pay and job security.
However, not all Engineering courses are born equal. Exactly, you can be a Engineering students and still not get employed or even get underemployed.
So you will want to pick a course with a lower number if you have the chance.
You must also know that Engineering courses in Nigeria are extremely competitive as thousands of students seek admission every single year. So there are two basic ways of getting them, it is either you have what is called “connection” or you perform extremely well in the examinations.
Engineering is a broad discipline that is often broken down into several sub-disciplines. Although an engineer will usually be trained in a specific discipline, he or she may become multi-disciplined through experience.
The innovative application of scientific principles to design or create structures, devices, apparatus, or manufacturing processes, or works using them singly or in combination; or to build or operate the same with full awareness of their design; or to forecast their actions under particular operating conditions; all with respect to an intended role, operational economics, and safety to life and Properties
Gaining Admission to Study an Engineering Course in Nigeria
The requirements to study a engineering course is quite simple, all you need is a minimum of 5 credits in SSCE with the right subject combination.
After that, you can decide to go through the JAMB process or otherwise partake in the JUPEB programthat will grant you admission into 200L with the help of direct entry.
So let us get into the business of today, List of Engineering Professional Lucrative Courses to study in Nigeria.
List of Lucrative Professional Engineering Courses to Study In Nigeria
- chemical engineering,
- civil engineering,
- electrical engineering,
- mechanical engineering.
- Aerospace Engineering,
- Marine Engineering,
- Computer Engineering
Chemical engineering is the application of physics, chemistry, biology, and engineering concepts to commercialize chemical processes such as commodity and specialty chemical manufacturing, petroleum refining, microfabrication, fermentation, and biomolecule development.
Infrastructure (airports, highways, railways, water supply and treatment, and so on), bridges, tunnels, dams, and buildings are all examples of civil engineering. Structural engineering, environmental engineering, and surveying are some of the sub-disciplines of civil engineering. It has long been thought to be distinct from military engineering.
Broadcast engineering, electrical circuits, engines, motors, electromagnetic/electromechanical sensors, electronic devices, electronic circuits, optical fibers, optoelectronic devices, computer systems, telecommunications, instrumentation, control systems, and electronics are examples of electrical and electronic systems that are designed, studied, and manufactured by electrical engineers
Mechanical engineering entails the research and development of physical and mechanical devices such as power and energy systems, aerospace/aircraft products, weapon systems, transportation products, generators, compressors, powertrains, kinematic chains, vacuum technology, vibration isolation equipment, production, robots, turbines, audio equipment, and mechatronics.
Aerospace engineering includes, among other things, the design and manufacture of aircraft, satellites, rockets, and helicopters. It closely studies a vehicle’s pressure differential and aerodynamics to ensure safety and efficiency. Since the majority of the studies are about fluids, it can be applied to any moving object, such as cars.
Marine engineering encompasses all activities that take place on or near the ocean. Examples include ships, submarines, oil rigs, structures, watercraft propulsion, on-board design and production, plants, and harbors. It needs a combination of mechanical, electrical, and civil engineering experience, as well as some programming abilities.
CE is a branch of engineering that combines many aspects of computer science and electronics to produce computer hardware and software. Computer engineers usually have training in electronic engineering (or electrical engineering), software design, and hardware-software integration in addition to software engineering or electronic engineering.