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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This course extends fluid mechanic concepts from Unified Engineering to the aerodynamic performance of wings and bodies in sub/supersonic regimes. 16.100 generally has four components: subsonic potential flows, including source/vortex panel methods; viscous flows, including laminar and turbulent boundary layers; aerodynamics of airfoils and
Author(s):
Tag(s):
- aeronautics and astronautics
- aerodynamics
- airflow
- air
- body
- aircraft
- aerodynamic modes
- aero
- forces
- flow
- computational
- cfd
- aerodynamic analysis
- lift
- drag
- potential flows
- imcompressible
- supersonic
- subsonic
- panel method
- vortex lattice method
- boudary layer
- transition
- turbulence
- inviscid
- viscous
- euler
- navier-stokes
- wind tunnel
- flow similarity
- non
More OCW like this |
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This course develops the theory and design of hydrofoil sections, including lifting and thickness problems for sub-cavitating sections, unsteady flow problems, and computer-aided design of low drag cavitation-free sections. It also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, control surface,
Author(s):
Tag(s):
- mechanical engineering
- turbine
- rotor
- computer-aided design
- propulsion
- lifting line
- thrust
- torque
- vortices
- boundary layers
- wake adaptation
- cavitation
- fluid flow
- fluid dynamics
- lifting surface panel method
- vortex lattice method
- lifting flow
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