NASA STEM Stars: Research Aerospace Engineer - Advanced Air Mobility | Summary and Q&A

TL;DR

NASA STEM Stars presents the 50th golden episode, featuring Dr. Andrew Lynn discussing the future of Advanced Air Mobility (AAM) and NASA's role in making it a reality.

Key Insights

• 👶 AAM envisions a future with new types of aircraft flying in urban and rural communities.
• 🖐️ NASA plays a crucial role in collaborating with various stakeholders to make AAM a reality.
• ✈️ AAM vehicles, like the lift plus cruise VTOL, combine airplane and helicopter features for vertical takeoff, landing, and forward flight.
• ♿ The benefits of AAM include improved access to hard-to-reach areas, community integration, and a focus on sustainability.
• 🧑‍🦼 AAM relies on electric motors and battery technology, with potential for alternative fuel sources like hydrogen.
• 🤗 The development of AAM requires flexibility, open-mindedness, and collaboration with experts in the field.
• 🎓 STEM education is essential for future aeronautical innovators to contribute to the advancement of AAM.

Transcript

stem fans are you ready let's hear it for the world-class nasa stem stars team from nasa centers across the country we present andrew lynn [Applause] hello and welcome to the 50th golden episode of nasa stem stars where students get the opportunity to connect firsthand with nasa engineers scientists and innovators my name is david alexander from th... Read More

Questions & Answers

Q: What is Advanced Air Mobility (AAM) and how is NASA involved?

AAM is about envisioning the future of aviation and developing new aircraft to transform air transportation. NASA plays a crucial role by collaborating with government agencies, companies, and communities to facilitate the realization of AAM.

Q: What would an advanced air mobility vehicle look like?

An AAM vehicle, such as the lift plus cruise VTOL, combines features of airplanes and helicopters. It has eight rotors that generate thrust for vertical takeoff and landing, along with a wing and a pusher propeller for forward flight.

Q: What are the potential benefits of Advanced Air Mobility?

AAM offers three significant benefits. Firstly, it provides enhanced access to areas that are difficult to reach, including urban rooftops and rural locations. Secondly, it aims to be accessible and beneficial to communities, offering various services. Finally, AAM aims to be sustainable, focusing on renewable fuels and minimal environmental impact.

Q: What types of engine systems and fuels will be used in AAM vehicles?

Most AAM vehicles will initially use electric motors powered by lithium-ion batteries. However, there are ongoing developments in battery technology and alternative fuel sources, such as hydrogen fuel.

Summary & Key Takeaways

• NASA's Advanced Air Mobility (AAM) mission aims to transform the skies by introducing new types of aircraft that can fly in urban and rural communities.

• AAM vehicles, such as the lift plus cruise VTOL, combine elements of airplanes and helicopters, using distributed electric propulsion for vertical takeoff and landing.

• The benefits of AAM include enhanced access to hard-to-reach areas, improved community services, and a focus on sustainability.