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Aviation Engineering

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Program name Aviation Engineering
Program duration 8 semesters
Credits 140 ECTS
Program language ENGLISH
Tuition Fee (National students) 30 000 000 UZS
Tuition Fee (International students) -
Admission requirments Exam-based (Exam structure: Math, Physics, English language). IELTS 5.5 (equivalent of it or above)
Program Description Aerospace engineering is a field of engineering focused on the design, development, testing, and production of aircraft, related systems and equipment. Aerospace engineers typically work on a wide range of projects, from designing commercial airplanes and military jets to spacecraft for exploration of the solar system and beyond. Key areas within aerospace engineering include aerodynamics (the study of how air flows around objects), propulsion systems (engines and rockets), materials science (developing lightweight yet strong materials), avionics (electronics used in aviation), and control systems. The field is crucial for advancing our capabilities in transportation, defense, communications, and exploration of space. Aerospace engineers often work in interdisciplinary teams alongside physicists, mathematicians, and other engineers to solve complex problems and push the boundaries of technology. During the programme you have opportunity to choose being a pilot or an engineer. Regarding the student's ablity, knowledge and interest the programme is divided by two fields.
Program Content The students will learn the fundamental concepts, knowledge and skills through high quality lectures, seminars, tutorials, laboratory sessions, design classes, and hands-on workshops, similar to how most other subjects are taught. In addition to exam-based testing, you will also be evaluated continually through reports, computer exercises, lab work, HomeWorks, project works and essays. Key areas of study and application within aerospace engineering include:
Major courses:
- Aerodynamics: This involves the study of how air interacts with moving objects. Engineers analyze airflow patterns to optimize vehicle design for efficiency and performance.
- Propulsion: Aerospace engineers design propulsion systems such as jet engines, turbofans, rockets, and thrusters. These systems generate the necessary thrust to propel aircraft and spacecraft through the air or space.
- Structures and Materials: Engineers work on designing lightweight yet strong materials and structures that can withstand the forces experienced during flight or launch. This includes materials like composites, metals, and alloys.
- Aircraft Design: For aircraft, engineers consider additional factors such as life support systems, thermal control, radiation shielding.
- Flight Dynamics and Control: Engineers study the dynamics of flight, including stability, maneuverability, and response to external forces. They develop control systems to maintain stability and ensure precise maneuvering of aircraft.
- Avionics and Control Systems: Avionics refers to the electronic systems used in aviation and space applications, such as navigation, communication, and monitoring. Control systems ensure that vehicles operate safely and effectively through automated or manual controls.
Career Perspectives Aerospace engineers work in a variety of settings, including government agencies (like NASA), aerospace companies (Uzbekistan airways, Boeing, Airbus, SpaceX), defense contractors, research institutions, and universities. They may specialize in areas such as aerodynamics, propulsion, structures, avionics, or systems engineering.
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