NASA Completes Deployment of Solar Sail System | Aero-News Network
Aero-News Network
RSS icon RSS feed
podcast icon MP3 podcast
Subscribe Aero-News e-mail Newsletter Subscribe

Airborne Unlimited -- Most Recent Daily Episodes

Episode Date

Airborne-Monday

Airborne-Tuesday

Airborne-Wednesday Airborne-Thursday

Airborne-Friday

Airborne On YouTube

Airborne-Unlimited-09.09.24

Airborne-NextGen-09.10.24

Airborne-Unlimited-09.11.24

Airborne-AffordableFlyers-09.12.24

Airborne-Unlimited-09.13.24

Wed, Sep 04, 2024

NASA Completes Deployment of Solar Sail System

Follows Success in Sail-Hoisting Boom Test

NASA mission operators confirmed the successful testing of its sail-hoisting boom system at 1:33 pm EDT on August 29. This completes the full deployment of their Advanced Composite Solar Sail System, or ACS3, in space.

NASA’s ACS3 was designed for cost-effective deep space missions. It has the potential to serve several purposes, including space weather early warning, near-Earth asteroid reconnaissance, or communications for crewed exploration.

The spacecraft was constructed to be lightweight while maintaining durability and thrust. Its composite booms, made of a polymer material and reinforced with carbon fiber, are 75% lighter than previous metallic booms. They are also intended to “experience 100 times less in-space thermal distortion,” the agency said. In the future, depending on information gathered in the current mission, NASA hopes to build solar sails as large as 21,500 square feet.

“Just as a sailboat is powered by wind in a sail,” NASA explained, “solar sails employ the pressure of sunlight for propulsion, eliminating the need for conventional rocket propellant.”

The sail, launched on April 23, has an approximate area of 860 square feet and is attached to lightweight booms. It currently sits at around twice the altitude of the International Space Station.

Four cameras are located around the spacecraft’s center to capture panoramic imagery of the sail and its supporting booms. NASA is expected to make its photos available on September 4.

With the ACS3 deployed, NASA team members are able to begin testing its maneuvering capabilities. They will raise and lower its orbit levels to receive data, helping to build operation concepts for future sail-equipped missions.

The sail’s size may make it visible to skywatchers at the right time. NASA will be posting updates on how and when to locate the AMS3 in a given area.

The project is being managed by NASA Ames and was funded by their Small Spacecraft Technology program office.

FMI: www.nasa.gov

Advertisement

More News

Airborne 09.13.24: Twin Mustang 4 Sale!, SpaceX v US, ATL Collision

Also: Batavia Housing Encroachment, GAO Disses OA-1K, MTSU Incident, Iraq Buys H225Ms While everyone enjoys a classic warbird, there's a certain kind of buyer who looks fondly at t>[...]

ANN's Daily Aero-Term (09.11.24): Discrete Frequency

Discrete Frequency A separate radio frequency for use in direct pilot-controller communications in air traffic control which reduces frequency congestion by controlling the number >[...]

ANN's Daily Aero-Linx (09.11.24)

Aero Linx: International Auster Club Welcome to The International Auster Club. The oldest specific aircraft type club in the United Kingdom and possibly in the world. There are cur>[...]

NTSB Prelim: Apex Cross-5X

The Pilot Did Not Have Any Pilot Certificates Or Ratings On September 2, 2024, about 1215 central standard time, an Apex Cross-5X weight shift trike, N223CL, was substantially dama>[...]

Airborne 09.11.24: GA Sales Report, Teeny New DJI Drone, Polaris Dawn Launches

Also: KSM Food Truck Fly-In, 1700th ATR, Sportys' Updates, 'Fund an Angel' The General Aviation Manufacturers Association issued the Second Quarter 2024 General Aviation Aircraft S>[...]

blog comments powered by Disqus



Advertisement

Advertisement

Podcasts

Advertisement

© 2007 - 2024 Web Development & Design by Pauli Systems, LC