Study of Aviation Engineering


نتيجة بحث الصور عن ‪Study of Aviation Engineering‬‏

Man was haunted by the dream of flying from the foot, when he saw birds flying in the sky wondering how to fly them, there were several attempts to fly by people such as Abbas Ben Farnas and George Kylie.
The Genesis of Aviation Engineering is the first attempt by man to fly between the late 19th century and the beginning of the 20th century, where engineering was limited to experiments and ideas taken from other architectures.

Scientists have reached a set of important ideas that have formed a key to entering and expanding the aerospace engineering world, and attempts have been made to design a plane that enables man to fly in the air easily, until the Wright brothers were able to make the first aircraft with a fan and engine in 1903, after which there was a major development in this The field during the First World War was manifested in the design of the military aircraft that participated in the war, and over the years progress in aviation has continued until we know the aircraft used today, as well as the launch of satellites in outer space.
Therefore, it was necessary to develop a scientific specialization in the universities, called Aeronautical Engineering, which teaches aviation inside and outside the atmosphere, and is concerned with the graduation of experienced engineers, who have been named as aviation engineers.

 Aviation Engineering Specialization:

The duration of the study at the Faculty of Aerospace Engineering is 4 years in which the student learns in the first year of materials such as mathematics, physics and chemistry, in addition to the introduction to the science of aviation, and then begins the following year study the influential sciences related to aviation as thermodynamic dynamic and resistance, then begins Specializing in one of the branches of engineering, which is concerned with five main detectives:
  • The Air force or the so-called aerodynamics: the hue of the flag which means the exterior design of the plane such as: tail and wing so that the aircraft can generate the power necessary to overcome the force of gravity.
  • The stability and control: a science that means how to control and stabilize the aircraft in the air.
  • The propulsion Systems: The science that examines the engines of these engines is the generation of the force needed to lift the aircraft from the ground.
  • Construction and Structure: the science of manufacturing aircraft structures and materials used in the manufacture of aircraft structures.
  • Avionics: The science of avionics, autopilot, navigation, radar and communications systems.

Why you should choose an Aviation Engineering study:

Working in aviation engineering requires extreme caution and careful care to minimize accidental or forced landing of aircraft. Therefore, aircraft safety is one of the main objectives of aeronautical engineering, always searching for new, more modern designs to help reduce fuel consumption and reduce air pollution from the exhaust of aircraft engines. Therefore, aviation engineers have primary functions:
  • To find the necessary supplies needed to produce modern designs of highly efficient aircraft.
  • Approving the cost of production and establishing a production time plan according to the internationally recognized specifications.
  • Always communicate with the latest scientific and theoretical research in the field of aviation.
  • Production and selection of designs before they begin to be implemented.
  • Development of aircraft parts, operating systems and performance.
  • The ability to install parts and parts of the aircraft.
  • Put the products and make the necessary adjustments and re-choose them again.
  • Writing the necessary guidance and preventive reports.
  • Provide technical advice.
  • Analyze data to avoid errors.
  • Characterization of aircraft loads.

As for space engineering that is concerned with satellites, the aviation engineer is responsible for the following:
  • To determine the trajectory of the satellite and change its speed, taking into account the factors affecting the moon, such as the Sun, the moon and the rest of the stars.
  • Identification of driving satellite engines, which provide a significant driving force to deliver the moon to the selected track, and carry out space flights as long as possible.
  • Control the launch of the satellite or shuttle until it reaches the speed and path specified for it, and secure everything necessary to do its work without problems.

Areas of work available after the study of Aviation engineering

After studying at the university about everything related to aviation, the first thing that comes to mind is that the place of work of the aviation engineer is the airports, in which he is interested in the matters of the aircraft and the permanent disclosure before each flight and maintenance of what is necessary, so that the aircraft will be ready to do the flight assigned to it.
The aviation engineer can also work in:
  • Design and manufacture of aircraft, in developed countries that possess aircraft manufacturing plants.
  • Design and manufacture of aircraft engines, where the engineer works in the maintenance of thermal machines and turbines of various types.
  • Aircraft command, where some states have recently made the requirement that the captain of the aircraft be an aviation engineer.
  • Aircraft testing: The aviation engineer conducts experimental flights confirming the performance and efficiency of the aircraft.
  • Work in power plants i.e. stations that generate energy.
  • Work in the maintenance of helicopters and rocket factories, and affiliation with space agencies located in the developed countries.

Areas of postgraduate studies

The graduate of Aeronautical Engineering can pursue his studies and obtain a masters degree in his specialty, which deals with the following topics:
  1. Aeronautical engineering.
  2. Reform and management techniques.
  3. Aviation and space science techniques.
  4. Aviation management.

The duration of the master's study is two years, during which the student receives the following experience:
  • Having a greater ability to work, where the student has more skills, knowledge and experience in the specialization he has studied in a way that helps him to get higher and more senior jobs.
  • Acquire basic analytical skills, research and knowledge to solve problems, and work with their peers in engineering fields.
  • Postgraduate studies open the door to a wide range of potential career opportunities, effective communication and proper application of theoretical skills, and the identification of global engineering environments.

After completing the master's degree, the student can apply for a 3-year PhD in aviation.

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