HIRING ALERT! 🚀 If you are interested in working for Neutron Star Systems and want to shape the future of the space industry, look at the jobs offers below! 🚀 Junior Electric Propulsion Engineer - work on developing AF-MPD systems for use in space mission; you need a good understanding of physics as applied to the acceleration of high-energy and high-temperature gases 🚀 Senior Thermal Engineer - carry out all the necessary thermal heat transfer calculations and be part of the overall design team ensuring the thruster can operate continuously without temperature overload of critical systems 🚀 Marketing Manager - oversee the marketing activities of the company and build a strong social media brand 🚀 Plasma Simulation Engineer - Modeling and simulation of plasma flows for electric propulsion systems Who we are: We’re a mix of young and talented and senior and experienced people with a groundbreaking idea that we hope will contribute towards a better tomorrow. We provide smart solutions for companies of all sizes and pride ourselves on our unparalleled, dedicated service. We offer competitive compensation packages, an employee share program, flexible working arrangements, and opportunities for career growth and development. If you are interested in any of these jobs, please write an email to recruiting@neutronstar.systems , sending your CV and a cover letter telling us why you are enthusiastic to join our team! #hiring #news #space #SpaceCareers #joinus #opportunity
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* Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE * Analyzed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions * Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications * Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace
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I just completed GE Aerospace's Explore Engineering Job Simulation @[Forage](urn:li:organization:68514998). In the simulation I: * Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE. * Analyzed and compared diverse energy sources for propulsion systems including cost, energy density, storage requirements, and how they impact design decisions. * Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications. * Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace.
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I just completed GE Aerospace's Explore Engineering on Forage. In the simulation I: 1. Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE. 2. Analyzed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions. 3. Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications. 4. Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace. Check out the simulation here: https://lnkd.in/eEwG_p9F
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I just completed GE Aerospace's Explore Engineering on Forage. In the simulation I: >>Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE >>Analyzed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions >>Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications. >>Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace
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I just completed GE Aerospace's Explore Engineering on Forage. In the simulation I: Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE Analyzed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace GE Aerospace #Engineering #SAF #SustainableEnergy Ps. You can also experience the Job simulation here https://lnkd.in/dvrSmCYk
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I just completed GE Aerospace's Explore Engineering on Forage. In the simulation I: · Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE. · Analysed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions. · Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications. · Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace Check out the simulation here: https://lnkd.in/eNby_kBY
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I just completed GE Aerospace's Explore Engineering on @[Forage](urn:li:organization:68514998). In the simulation I * Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE. * Analyzed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions * Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications * Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE AerospaceCheck out the simulation here: https://lnkd.in/gbiXVmbN
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I just completed GE Aerospace's Explore Engineering on Forage. In the simulation I: 1. Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE. 2. Analysed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions. 3. Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications. 4. Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace. Check out the simulation here: https://lnkd.in/gaxmA-Tz
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I just completed GE Aerospace's Explore Engineering on Forage I'm thrilled to share that I've completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE. This project allowed me to dive deep into the world of propulsion systems and explore the possibilities of next-generation energy sources. * Completed a job simulation where I advised on alternative energy sources for a hypothetical Aerospace team at GE * Analyzed and compared diverse energy sources for propulsion systems, including cost, energy density, storage requirements, and how they impact design decisions * Conducted in-depth research on bypass ratio and compression ratio and their impact on turbofan engine design, including fan diameter, noise, installation considerations, material limitations, and emissions implications * Developed a technical presentation to effectively communicate the limiting factors associated with bypass and compression ratios that helped guide the decision-making for a next-generation propulsion system at GE Aerospace. This project taught me the importance of considering multiple factors when evaluating alternative energy sources for propulsion systems. From energy density and storage requirements to emissions implications and material limitations, every aspect plays a crucial role in determining the feasibility of a particular energy source. As the aerospace industry continues to evolve, it's essential to explore innovative solutions that can reduce our carbon footprint while maintaining performance and efficiency. This project has given me a deeper understanding of the complexities involved in designing next-generation propulsion systems and the importance of collaboration between engineers, researchers, and industry experts. #Aerospace #PropulsionSystems #AlternativeEnergy #Sustainability #Innovation #Engineering #GE #JobSimulation
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