We are constantly wonderstruck by jumbo jets, missile launchers and space shuttles; images of satellites orbiting the earth and distant planets beamed back to earth by super-intelligent probes continue to hold us in thrall. We owe it all to Aerospace Engineers – the true geniuses who put humankind and machines in space.
If you are seeking to learn about Aerospace Engineering Courses Online for the first time, the subject might seem overpowering for those who have not researched the subject before, but you are likely to be fascinated by the information you come across.
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Aerospace Engineering Courses Online
Have you ever flown in an airplane and are you curious about how flying works? Are you interested in the fundamental concepts behind flying? How does a wing generate lift? And how can we fly as optimally as possible?
This course provides an introduction to the fundamentals of aeronautics, using a tour through the history of flight, starting with ballooning and continuing on to airplanes and helicopters.
Experts from the Faculty of Aerospace Engineering of Delft University of Technology will help you explore and discover the fundamentals of flight, in three blocks. First, you will explore the history of flight including ballooning and obtain a basic understanding of aircraft and the earth’s atmosphere. Topics include stability, navigation, propulsion and the structure of aircraft. Block two examines the principles of aerodynamics. You will learn for instance how the shape of an airfoil or wing impacts the amount of lift generated. Block three covers flight mechanics, including various flight phases, such as descending, climbing or cruise, and the most optimal flying conditions for each phase.
At a glance
- Institution: DelftX
- Subject: Engineering
- Level: Introductory
- Prerequisites:High school level mathematics & physics
- Language: English
- Video Transcript: English
What you’ll learn
- The impact of the history of flight on aircraft today.
- How the earth’s atmosphere can be modelled and how we can use this for aircraft design.
- Stability, structures, navigation and propulsion of aircraft.
- The fundamental aerodynamic concepts for flying an aircraft.
- How airfoils and wings generate lift.
- Flight mechanics of aircraft.
- How aircraft can optimally climb, descend and cruise.
Jacco M. Hoekstra
Free Online Aerospace Engineering Courses
- Advanced Control System Design. Indian Institute of Science Bangalore. …
- Aero elasticity. …
- Foundation of Scientific Computing. …
- High Speed Aero Dynamics. …
- Instability and Transition of Fluid Flows. …
- Introduction to Aerodynamics. …
- Introduction to Helicopter Aerodynamics & Dynamics. …
- Optimal Control, Guidance and Estimation.
Aerospace Engineering Courses
Helicopter Performance, Stability and ControlAeroelasticityRotor and Wake AerodynamicsNon-linear ModelingUrban Air MobilityAircraft Performance – Physics and SimulationAeroacousticsAeroacoustics: Noise Reduction Strategies for Mechanical SystemsAeroacoustics: Measurement TechniquesIntroduction to Aerospace Structures and MaterialsIntroduction to Aeronautical EngineeringModeling, Simulation and Application of Power and Propulsion SystemsAdvanced DynamicsSmart StructuresDesign of Lightweight Structures I: Composites & MetalsAir Safety InvestigationLinear Modeling (including FEM)Fatigue of Structures & MaterialsLearn moreSustainable Aviation: The Route to Climate-Neutral Aviation
Mit Aerospace Engineering Online Course
Professors, students, and researchers come to MIT from all corners of the globe to explore their passion for air and space travel and to advance the technologies and vehicles that make such travel possible.
We build on our long tradition of scholarship and research to develop and implement reliable, safe, economically feasible, and environmentally responsible air and space travel.
Our industry contributions and collaborations are extensive. We have graduated more astronauts than any other private institution in the world. Nearly one-third of our current research collaborations are with MIT faculty in other departments, and approximately one-half are with non-MIT colleagues in professional practice, government agencies, and other universities. We work closely with scientists and scholars at NASA, Boeing, the U.S. Air Force, Stanford University, Lockheed Martin, and the U.S. Department of Transportation.
Our educational programs are organized around three overlapping areas:
Aerospace information engineering
Focuses on real-time, safety-critical systems with humans-in-the-loop. Core disciplines include autonomy, software, communications, networks, controls, and human-machine and human-software interaction.
Aerospace systems engineering
Explores the central processes in the creation, implementation, and operation of complex socio-technical engineering systems. Core disciplines include system architecture and engineering, simulation and modeling, safety and risk management, policy, economics, and organizational behavior.
Aerospace vehicles engineering
Addresses the engineering of air and space vehicles, their propulsion systems, and their subsystems. Core disciplines include fluid and solid mechanics, thermodynamics, acoustics, combustion, controls, computation, design, and simulation.