Free Download Fundamentals Of Aerospace Engineering
Published 3/2023
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.53 GB | Duration: 8h 24m
Complete Course on Fundamentals of Aerospace Engineering
Free Download What you’ll learn
Aerodynamics: the study of the behavior of fluids (especially air) when they interact with solid objects, including principles of lift and drag and the design o
Propulsion: the study of the design and operation of engines, including turbojet, turbofan, and rocket engines, and principles of thrust and efficiency.
Flight mechanics: the study of the motion of aircraft and spacecraft, including principles of stability, control, and performance.
Systems engineering: the study of the integration of all of the subsystems in an aerospace vehicle, including avionics, control systems, and communication syste
Requirements
Calculus: Students should have a good understanding of calculus, including differential and integral calculus.
Physics: Knowledge of physics is important, including mechanics, thermodynamics, and electromagnetism.
Computer Programming: Basic programming skills are useful in analyzing aerospace systems and designing experiments.
Aerodynamics: Knowledge of fluid mechanics and aerodynamics is essential for understanding the behavior of aircraft, spacecraft, and missiles.
Description
The course "Fundamentals of Aerospace Engineering" is an introductory level course that provides students with a broad overview of the principles and practices of aerospace engineering. The course is designed to provide a solid foundation for students who are interested in pursuing a career in the aerospace industry, as well as for those who are interested in further study in aerospace engineering.The course typically covers topics such as:1. Aerodynamics: the study of the behavior of fluids (especially air) when they interact with solid objects, including principles of lift and drag and the design of airfoils.2. Propulsion: the study of the design and operation of engines, including turbojet, turbofan, and rocket engines, and principles of thrust and efficiency.3. Flight mechanics: the study of the motion of aircraft and spacecraft, including principles of stability, control, and performance.4. Materials and structures: the study of the properties and behavior of materials used in the construction of aircraft and spacecraft, including principles of stress and strain and the design of structural components.5. Systems engineering: the study of the integration of all of the subsystems in an aerospace vehicle, including avionics, control systems, and communication systems.By the end of the course, students should have a solid understanding of the fundamental principles of aerospace engineering and how they can be applied to the design, analysis, and operation of aerospace systems. They should also have the ability to apply their knowledge to solve engineering problems and evaluate the performance of aerospace systems.By the end of the course, students should have a solid understanding of the fundamental principles of aerospace engineering and how they can be applied to the design, analysis, and operation of aerospace systems. They should also have the ability to apply their knowledge to solve engineering problems and evaluate the performance of aerospace systems.Fundamentals of Aerospace Engineering is suitable for a variety of audiences who are interested in the principles and practices of aerospace engineering. These may include:1. Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field.2. Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses.3. Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering.4. Enthusiasts: The course may also be of interest to individuals who have a general interest in aerospace engineering and would like to learn more about the field.While some prior knowledge of physics, calculus, and mechanics may be helpful, the course is designed to be accessible to students from a variety of backgrounds and experience levels. The course may be particularly suitable for students who have a strong interest in science, technology, engineering, and mathematics (STEM) fields.
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: The Scope
Lecture 2 The Scope of Engineering
Lecture 3 The Aerospace Industry
Lecture 4 Military Air Forces
Lecture 5 Infrastructures on Earth
Lecture 6 Aviation Research Agenda
Lecture 7 SESAR
Section 3: Generalities
Lecture 8 Classification of aerospace vehicles
Lecture 9 Rotorcraft
Lecture 10 Parts of The Aircraft
Lecture 11 Empennage
Lecture 12 Hypotheses
Lecture 13 System References
Section 4: Aerodynamics
Lecture 14 Aerodynamics
Lecture 15 Euler Equation
Lecture 16 Viscosity
Lecture 17 Speed of Sound
Lecture 18 Generation of Aerodynamic Forces
Lecture 19 Characteristic Curves
Lecture 20 Flow Over a Finite Wing
Lecture 21 High-Lift Devices
Section 5: Aircraft structures
Lecture 22 Aircraft structures
Lecture 23 Properties
Lecture 24 Materials in Aircraft
Lecture 25 Fuselage Loads
Lecture 26 Structural Elements and Functions of the Fuselage
Section 6: Aircraft instruments and systems
Lecture 27 Aircraft instruments and systems
Lecture 28 Sources of Data
Lecture 29 Power Plant Instruments
Lecture 30 Aircrafts’ Cockpits
Lecture 31 Fuel System
Lecture 32 Flight Control Systems Fly-By-Wire
Section 7: Aircraft propulsion
Lecture 33 Aircraft Propulsion
Lecture 34 The Jet Engine
Lecture 35 Compressor
Lecture 36 Turbine
Lecture 37 Turbofans
Section 8: Mechanics of flight
Lecture 38 Mechanics of flight
Lecture 39 Aircraft Equations of Motion
Lecture 40 Performances in Turn Maneuvers
Lecture 41 Range and Endurance
Lecture 42 Payload-Range Diagram
Lecture 43 Fundamentals of Control
Lecture 44 Longitudinal Stability and Control
Section 9: Air transportation
Lecture 45 Air transportation
Lecture 46 ICAO
Lecture 47 Chicagos’s convention
Lecture 48 The Market of Aircraft for Commercial Air Transportation
Lecture 49 Future Market of Aircraft
Lecture 50 Airlines’ Cost Strucutre
Lecture 51 Operational Costs
Lecture 52 Landing and air navigation fees
Lecture 53 Sources of Environmental Impact
Lecture 54 Aviation NOx Climate Impact
Section 10: Airports
Lecture 55 Airports
Lecture 56 The Demand of Air Transportation
Lecture 57 The Runway
Lecture 58 The Terminal
Lecture 59 Air Traffic Management (ATM) services
Lecture 60 Airport Navigational Aids
Section 11: Air navigation
Lecture 61 Air navigation
Lecture 62 History
Lecture 63 The International regulation (juridic) framework
Lecture 64 Air Traffic Management (ATM)
Lecture 65 ATS Routes
Lecture 66 Airspace Organization in Regions and Control Centers
Lecture 67 Navigation Charts
Lecture 68 Communication Systems
Lecture 69 Aeronautical mobile service
Lecture 70 Navigation Systems
Lecture 71 Radiotelemetry
Lecture 72 Global Navigation Satellite Systems (GNSS)
Lecture 73 Non-Directional Beacon (NDB)
Lecture 74 Surveillance Systems
Lecture 75 Automatic Dependent Surveillance-Broadcast (ADS-B)
Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field.,Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses.,Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering.
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