Max Fagin
About Max Fagin
Max Fagin is a Piloting Engineer at Blue Origin with extensive experience in aerospace engineering and research, having worked with organizations such as SpaceX, The Mars Society, and NASA.
Title
Max Fagin holds the title of Piloting Engineer at BLUE ORIGIN, where he has been employed since 2020.
Company: BLUE ORIGIN
Max Fagin works as a Piloting Engineer at BLUE ORIGIN, a position he has held since 2020. The company, located in Kent, Washington, focuses on building a road to space. Max's role encompasses responsibilities related to the manual piloting of spacecraft, including the Artemis Lunar Lander for test and flight operations.
Professional Experience
Max Fagin has accumulated diverse experience in various positions across multiple renowned organizations. His career includes roles such as Commander at The Mars Society, Senior Aerospace Engineer at Made In Space, and intern positions at SpaceX and NASA. At The Mars Society, he commanded the Mars Desert Research Station in Hanksville, Utah. He has also actively contributed to organizations like NASA Ames Research Center and Purdue University in capacities such as Research Assistant, Teaching Assistant, and Design Fellow.
Education and Expertise
Max Fagin possesses a Master of Science (M.S.) in Aeronautics and Astronautics from Purdue University, attained in 2015. He also holds a Bachelor of Engineering (B.E.) in Mechanical Engineering from Dartmouth College and a Bachelor of Arts (B.A.) in Physics and Astronomy from Vassar College. His expertise spans CAD/CAM, manufacturing engineering, astrodynamics, and orbit selection. Additionally, he completed a thesis on using supersonic retropropulsive trajectories to enhance Mars lander payloads.
Background in Space Missions
Max Fagin has significant experience with space missions. He has been involved with the Mars Desert Research Station as a crew member twice, serving roles such as an astronomer and commander. His efforts at BLUE ORIGIN include piloting the Artemis Lunar Lander and contributing to the Orbital Reef Space Station's configuration, mainly focusing on astrodynamics and orbit selection.