Applied Aerodynamics Engineer
Confirmed live in the last 24 hours
Boom Supersonic

51-200 employees

Commercial supersonic airplane manufacturer
Company Overview
Boom Supersonic’s mission is to make the world dramatically more accessible. The company is developing supersonic aircrafts to enable cities that are rarely visited to become major travel destinations, let people attend meetings in far-off places and return for evenings with their loved ones, have global leaders solve crises in person, and let children grow up in a world where nothing is foreign.
Centennial, CO, USA
Experience Level
Desired Skills
Autodesk CFD
Aerospace Engineering
  • Bachelor, Master or Doctorate of Science degree in engineering with 5 to 12 years of experience in aerospace or an equivalent combination of technical education and aerospace experience
  • Solid foundation in aerodynamics and aircraft design
  • Strong knowledge of CFD and aerodynamic optimization
  • Excellent computer programming skills, with experience in a linux environment and use of codes - Python / Matlab / Simulink
  • Strong understanding of force and moment accounting for aerodynamic databases
  • Wind tunnel model development and test execution experience
  • Clear understanding of certification requirements impacts on design
  • Strong written and verbal communication skills and the ability to interface effectively with different groups internally and externally
  • Advanced Engineering Degree
  • Experience in commercial aircraft
  • Proficient in Catia or other CAD systems
  • Understanding of aircraft performance and related analysis methodology
  • Understanding of aircraft stability and control and related analysis methodology
  • Communicating complex technical results to a wide audience
  • Experience in generation of aerodynamic databases
  • Working hands-on with aircraft
  • Want to build a faster future? Come join Boom
  • Analyzing aerodynamic data across subsonic and supersonic flight conditions
  • Support or perform trade studies based on weight, drag, SFC, & acoustics
  • Research existing technologies and/or develop new approaches to optimize performance
  • Perform detailed CFD studies to increase fidelity of aerodynamic data
  • Develope aerodynamic shape optimization recommendations using CFD data
  • Document and present findings to peers and leadership and proposed enhancements
  • Collaborating with a variety of other engineering groups (loads, propulsion, flight controls)