Search the 19 jobs at Inversion Space

The Staff Aerodynamics Engineer will lead aerothermodynamic analysis and advanced aerodynamic modeling for re-entry vehicles, develop CFD tools, create high-fidelity simulations, mentor team members, and contribute to hypersonic systems design.

As a Marketing Manager, you will shape brand identity, expand reach, and drive customer engagement. Responsibilities include executing marketing strategies, leading campaigns across various channels, managing digital marketing, analyzing performance data, and building a high-performing team.

As a Mission Manager, you will manage customer relations through the entire lifecycle from requirements verification to mission completion, ensuring contract adherence and effective communication across multiple teams. Your role involves leading technical projects, addressing customer issues, and supporting business development efforts.

As the Director of Engineering for the Avionics team, you will lead the design and development of hardware and software for space vehicles, focusing on electronics controllers, power systems, RF systems, embedded software, GNC, and PCB design. You will build and mentor a high-performing team and ensure the successful execution of avionics systems for satellites and reentry vehicles.

As a Parachute Systems Engineer, you will oversee parachute designs from conceptualization to production, ensuring they meet design requirements through testing. You'll lead projects, support mechanical systems development on spacecraft, and execute drop tests. The role requires collaboration with customers and hands-on experience across parachute and hardware systems.

As a Senior GNC Engineer, you will develop guidance, navigation, and control capabilities for reentry vehicles, collaborating with various engineering teams to define requirements and design control algorithms while performing orbital mechanics analyses and overseeing component integration.

As a Lead TPS Engineer, you will be responsible for developing, testing, and qualifying thermal protection systems for reentry vehicles, leading the design workflow for flight heatshields, and optimizing manufacturing processes while collaborating with various teams and outside vendors.

As the Director of Engineering for Simulation, you will lead the simulation team responsible for developing infrastructure, tools, software, and hardware for spacecraft missions. Your role involves designing and implementing Hardware in the Loop (HITL) and Software in the Loop (SITL) systems and integrating these with various stakeholders while leading a talented engineering team.

The Director of Engineering will lead the Processing Core team, focusing on the design and technical development of software and hardware for flight computers and control systems of Inversion’s spacecraft. Responsibilities include managing an engineering team, overseeing the integration of systems into vehicles, and ensuring the delivery of high-reliability software infrastructure and safety-critical software.

The Director of Engineering for Reentry will lead the design and development of Inversion’s reentry systems and vehicles, ensuring precision landing from orbit. Responsibilities include architecture definition, performance analysis, and managing a team of engineers through the design and production of hypersonic vehicles.

The structural design engineer will lead the development of a multipurpose reentry vehicle payload bay, work with a team on innovative designs, research customer requirements, and define the loading specifications for testing and launch.

As an Avionics Engineer, you'll design and maintain electrical systems for precise landings of spacecraft. You'll work on circuit designs, conduct aerial drop tests, and ensure hardware robustness through various testing methods, collaborating closely with a multi-disciplinary team.

The Staff Aerothermal Engineer will lead external flow-field aerothermodynamic analysis for a high-performance re-entry vehicle. Responsibilities include developing CFD tools, creating high-fidelity simulations, mentoring team members, and integrating test data into aerothermal models. This highly specialized role demands expertise in hypersonic systems and a commitment to innovative problem-solving in a fast-paced environment.

As a Senior Parachute Engineer for Arc, you will design, test, and manufacture ram-air parachutes, ensuring they meet performance requirements while collaborating with sub-teams. Responsibilities include overseeing parachute systems and supporting other decelerator developments.

The Structures Engineer III is responsible for the design, analysis, testing, manufacturing, and integration of spacecraft hardware on the Arc vehicle. This role involves working closely with various engineering teams and requires strong mechanical design skills and communication abilities, as well as the capability to lead projects from concept to launch.

The People Operations Manager will manage HR functions including compensation, employee relations, onboarding, and compliance. This role involves partnering with leadership to drive people initiatives for talent engagement and retention while ensuring operational efficiency and enhancing employee experience.

The Principal Flight Computer Engineer will design and implement core computing elements for spacecraft, involving lifecycle responsibilities from development to testing. Key tasks include creating and integrating flight computer hardware, digital and mixed-signal circuit design, environmental testing, and assisting in flight software architecture.

The Senior Manager of Business Operations will drive cross-functional projects, enhance operational efficiencies, and utilize data insights to align business strategies with company objectives, while ensuring communication and collaboration between departments.

The Product Engineer III will connect various engineering groups while managing schedules and engineering goals for the Arc vehicle program. Responsibilities include high-level vehicle configuration management, product requirement setting, and should involve a hands-on engineering approach. The engineer will need to innovate and adapt quickly to complex engineering challenges.