The Hyper X was a hypersonic aircraft, but its scramjet suffered for less than ideal inlet flow because shocks formed on the upstream ramps and that threatened to separate the laminar boundary layer. To solve this problem, researchers thought about tripping the hypersonic boundary layer, but is it possible? Find out here in this podcast! If you want to help support us in making educational aerodynamic videos, you can through our Patreon: https://www.patreon.com/Premier_Aerodynamics CHECK OUT our new OpenFoam CFD course that covers everything from literally installing it to running your own DES simulations, and everything in between: https://premieraerodynamics.com/Courses/ CHECK OUT our new Intermediate CFD course that covers what you need to go into industry and do high quality simulations: https://premieraerodynamics.com/Courses/ Want an easy way to make your experiments 2-4% more accurate? Check out The Atmosphere Hawk to make your aerodynamic experiments better: https://premieraerodynamics.com/Atmosphere-hawk Paper: https://ntrs.nasa.gov/api/citations/20040084395/downloads/20040084395.pdf, licensed under: Public Domain #Aerodynamics #Aero #CFd #ComputationalFluidDynamics #FluidMechanics #AirfoilHeating #WingHeating #AirfoilLift #AirfoilDrag #WingLift #WingDrag #Hypersonics #HyperX #X-43 #Hyper-X #hypersonicAircraft #Scramjet #BoundaryLayerTripping #VortexGenerator