Differential equations of motion. Viscous and inviscid regions. Potential flow: superposition; thin airfoils; finite wings; compressibility corrections. Viscous flow: thin shear layer approximation; laminar layers; transition; turbulence modeling. Convective heat transfer: free versus forced convection; energy and energy integral equations; turbulent diffusion. Includes: Experiential Learning Activity Prerequisite(s): MAAE 3300 or MECH 3310. Lectures three hours a week, problem analysis two hours a week. [0.5 credits]
Differential equations of motion. Viscous and inviscid regions. Potential flow: superposition; thin airfoils; finite wings; compressibility corrections. Viscous flow: thin shear layer approximation; laminar layers; transition; turbulence modeling. Convective heat transfer: free versus forced convection; energy and energy integral equations; turbulent diffusion. Includes: Experiential Learning Activity Prerequisite(s): MAAE 3300 or MECH 3310. Lectures three hours a week, problem analysis two hours a week. [0.5 credits]
