A specialized course under Engineering and Technology
About the Course – Aerospace Engineering
Aerospace engineering is concerned with the design, construction and maintenance of aircraft, spacecraft, missiles and weapons systems. Its point of focus include flight safety, fuel efficiency, operating costs and environmental impact.
Aerospace engineers work in the research and development, testing or maintenance side of the profession. Calculating project costs and timescales, writing manuals and upgrading and developing new technologies are the major tasks of an Aerospace Engineer.
They are now also in all likelihood to examine how to use computer-aided format software for plans. Experienced aerospace engineers may look into air crashes and the malfunctioning of parts.
Students of aerospace engineering make use of maths, science and technology to the introduction of aircraft and accompanying equipment. Specialisms consist of aerodynamics, avionics, and propulsion and systems integration. Aerospace engineering courses can be of three to five years relying on the type of qualification. The aerospace engineering provides a broad understanding of the subject and the aerospace industry, preparing graduates for work in a vast range of organizations. After the first two years of the programme, students can specialize in their desired area.
Placement normally take place in the third year of the course. Aerospace engineering departments enjoy direct links with companies such as Rolls-Royce, Boeing, Intel, Caterpillar and QinetiQ, giving students on sandwich courses a range of placements to choose from in multiple continents. PhD programmes are also run by many universities in the subject.
Aircrafts are being redesigned to cause much less noise pollution and have higher fuel efficiency, which will assist maintaining demand for research and development. Growing interest in unmanned aerial systems will additionally cause a significant growth in the occupation. However, increase in research and development activities will be tempered via a projected decline in employment of aerospace engineers in the manufacturing industry.
Aerospace engineers’ works usually involve national defense–related projects or the design of civilian aircraft. Research-and-development projects, such as those related to improving the safety, efficiency, and environmental soundness of aircraft, will help maintain demand for employees in this occupation. Aerospace engineers who work on engines or propulsion will proceed to be wanted as the emphasis in design and manufacturing shifts to rebuilding existing plane so that they are much less noisy and more fuel efficient.
The increasing use of unmanned aerial vehicles will create greater possibilities for aerospace engineers as authorities locate domestic uses for them, such as finding missing persons lost in large tracts of woodland or measuring snow pack and other water resources. Commercial hobbies will additionally find growing uses for these unmanned vehicles, and employees in this occupation will find employment in designing and perfecting these vehicles for targeted uses.
Some of the jobs where the Aerospace Engineer is useful to include: Aerospace Engineer, Design Engineer, Maintenance engineer, Manufacturing systems Engineer
The median annual wage for aerospace engineers is $116,500. The median wage is the wage at which half the workers in an occupation earn more than that amount and half earn less. The lowest 10 percent earn less than $72,450, and the highest 10 percent earn more than $166,620.
Course Available by Providers
The courses are generally provided at Diploma, Bachelor (UG) and Master (PG) levels.
COURSES UNDER ENGINEERING AND TECHNOLOGY
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