Aeronautical engineering is the branch of engineering dealing with the development and manufacture of aircraft and space vehicles. It comprises two major and intersecting branches: aerospace engineering and aerospace mechanics. The former branch deals mainly with the propulsion of airplanes while the latter deals with their systems. Both the branches have a common aim of achieving greater performance and efficiency of flight by using the latest technology.
The main purpose of any aerospace engineer is to design and manufacture products that can achieve better flight characteristics. Avionics engineering also falls in this category, though it deals more with the electronics part of aerospace engineering rather than with propulsion and flight systems. This branch deals more with flight systems and the controls for the various flight programs.
There are three major categories in the field of aerospace engineering. Each of these categories has its own specific focus. They include aerospace mechanics, aerospace engineering, and avionics engineering. All three groups have their own unique features and roles to play in the aviation sector.
An aerospace mechanic is one who deals with the engineering of the airframe or aircraft. Such engineers usually specialize in aircraft maintenance and manufacture. These engineers usually work with a team of technicians that includes mechanics, aerospace engineers, and aerospace mechanics.
On the other hand, an aerospace engineer is one who works on the design and development of an aircraft. He or she is responsible for the design and development of the structural components that form the aircraft.
An aerospace engineer is highly specialized in one or more fields of aviation engineering, and he or she has a wide range of responsibilities to perform. He or she must be familiar with the various types of engines, fuel and oxidizers used in an aircraft and the different processes involved in manufacturing such engines and fuels.
Aerospace engineers also help in testing aircraft for compliance to safety standards before they are launched. Since these aircraft have several parts and components, they must be able to withstand the rigors of flight without having to make changes.
Engineers in aviation also assist the flight crew with problems that might arise during flight such as engine failure. and provide assistance to the pilots.
Aerospace engineers also play an important role in the development of new aircraft and parts for existing aircraft. Some of these aerospace engineers can even design commercial airplanes and helicopters, but they do not actually manufacture these items themselves.
Aerospace engineers also oversee the testing of various parts of an aircraft. All parts are tested in laboratories to ensure that all components function properly so that the flight system will continue to operate correctly.
After the testing is completed, the aircraft is sent to flight test pilots for a series of flights. This is the final stage before it is released to the general public.
Engineers also play a critical role in ensuring that the airplane or helicopter is safe for flight. They are responsible for keeping an eye out for any faults that need fixing, for instance problems with the hydraulic systems or any cracks in the structure that might create a hazard.
Engineers in . . . . . . aviation can be very creative in thinking of ways to solve problems. For example, they may come up with the idea of using the aircraft's engines to create a magnetic lift. Although this seems crazy, they can come up with many clever ideas that will help in achieving this goal.
A responsible aerospace engineer is one who is willing to take risks in order to try new and innovative solutions. He or she will always keep a close watch on potential threats that might affect the performance of the aircraft, but will not hesitate to try to come up with better solutions in the interest of safety.
In addition, an aerospace engineer should also be capable of managing a large team of people. Because he or she is an important part of the production process, this engineer needs to be able to deal with several different tasks simultaneously in order to be effective.
Finally, an aerospace engineer must be willing to accept constructive criticism and learn from his or her mistakes. since there will be times when the airplane will never fly perfectly, but the airplane will work just fine for a period of time.