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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
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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 subject provides an introduction to fluid mechanics. Students are introduced to and become familiar with all relevant physical properties and fundamental laws governing the behavior of fluids and learn how to solve a variety of problems of interest to civil and environmental engineers. While there is a chance to put skills from calculu
Author(s):
Tag(s):
- civil and environmental engineering
- fluid mechanics
- fluids
- civil and environmental engineering
- differential equations
- calculus
- flow
- movement
- wave forms
- bernoulli's theorem
- wavelets
- mechanics
- solids
- hydrostatics
- mass
- momentum
- energy
- flow nets
- velocity
- laminar flow
- turbulent flow
- groundwater
- hydraulics
- backwater curves
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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 covers fundamentals of thermodynamics, chemistry, flow and transport processes as applied to energy systems. Topics include analysis of energy conversion in thermomechanical, thermochemical, electrochemical, and photoelectric processes in existing and future power and transportation systems, with emphasis on efficiency, environm
Author(s):
Tag(s):
- mechanical engineering
- thermodynamics
- chemistry
- flow
- transport processes
- energy systems
- energy conversion in thermomechanical
- thermochemical
- electrochemical
- and photoelectric processes
- power and transportation systems
- efficiency
- environmental impact
- performance
- fossil fuels
- hydrogen resources
- nuclear resources
- renewable resources
- fuel reforming
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