the Time Capsule
The Online Time Capsule

Save any information or prediction to be opened in the future.

Post Your Online Time Capsule

* It's Free. No registration is needed. No subscription. No need of shovel or digging.
Has a doge icon and supports us. You can send ANY amount of dogecoin. Donation adress: DKJGUDaeMnjqW28hwPftiAtXMoYpthzrf6
Time to open it *
Opened capsules Opened 432
Sealed capsules Sealed 211

Sealed with Dogecoin The Planetary Society’s second LightSail spacecraft performs full demonstration of solar sailing in Earth orbitAge: 8 months

Sealed in 03 August 2015 21:34:06 Opened at: 04 April 2016 04:00:00
Pasadena, CA (January 26, 2015) – The Planetary Society today announced the first of its LightSail spacecraft will embark on a May 2015 test flight. Funded entirely by private citizens, the solar sail satellite will hitch a ride to space aboard an Atlas V rocket from Cape Canaveral Air Force Station in Florida. The mission will test LightSail’s critical functions, a precursor to a second mission slated for 2016. That second flight will mark the first controlled, Earth-orbit solar sail flight and ride along with the first operational launch of SpaceX's Falcon Heavy rocket.

“There's an old saying in aerospace, 'One test is worth a thousand expert opinions.’ After six years of development, we're ready at last to see how LightSail flies," said Bill Nye (The Science Guy), CEO at The Planetary Society.

"LightSail is technically wonderful, but it's also wonderfully romantic. We'll sail on sunbeams,” added Nye. “But wait, there’s more: this unique, remarkable spacecraft is funded entirely by private citizens, people who think spaceflight is cool."

Solar sailing works by using sunlight for propulsion. When solar photons strike LightSail's reflective Mylar® sails, their momentum is transferred to the spacecraft, gradually accelerating it through space. While the push from photons is miniscule, it is continuous and unlimited. Solar sails can eventually reach greater speeds than those obtained from chemical rockets. LightSail consists of four identical triangular sails attached to four 4-meter booms, resulting in a square solar sail when fully deployed.

The 2015 test flight will not carry the spacecraft high enough to escape Earth's atmospheric drag, and will thus not demonstrate controlled solar sailing. Once in orbit, the spacecraft will go through a checkout and testing period of about four weeks before deploying its solar sails. After the sails unfurl, LightSail will test its attitude control system and study the behavior of the sails for a few days before it is pulled back into the planet's atmosphere. Key images and data on the spacecraft's performance will be sent to ground stations at Cal Poly San Luis Obispo and Georgia Tech.

Dr. Neil deGrasse Tyson, Hayden Planetarium director and Planetary Society board of directors member, added, “With the expected launch of LightSail -- a craft propelled among the stars on the pressure of light itself -- the expanse of space becomes a literal analogue to the open seas. If space is tomorrow's ocean, then Earth’s surface is its shoreline.”

LightSail is packaged into a small spacecraft called a CubeSat. CubeSats have made low-cost space missions a reality for universities and research groups. However, providing propulsion for these tiny satellites has been a major challenge. LightSail will demonstrate the viability of solar sailing for CubeSats. The spacecraft was designed by Stellar Exploration, Inc., in San Luis Obispo, Calif. LightSail's lead contractor for integration and testing is Pasadena, Calif.-based Ecliptic Enterprises Corporation, a space avionics and sensor systems firm best known for its popular RocketCam™ family of video systems used on rockets and spacecraft.

“Starting with a clever ‘3U’ CubeSat design from Stellar Exploration, a small team at Ecliptic was tasked a year ago with completing the final integration and testing of this first LightSail spacecraft,” said Rex Ridenoure, CEO of Ecliptic. “We experienced several design, hardware, software and testing issues along the way, but thanks to excellent technical support from Stellar Exploration, Boreal Space, Half Band Technologies, Cal Poly, Georgia Tech and others, we surmounted them all and succeeded in securing approval to launch.”

The Planetary Society’s second LightSail spacecraft is scheduled to fly in 2016. This mission will build on the results of the test flight to conduct a full demonstration of solar sailing in Earth orbit. LightSail will be packaged inside a spacecraft called Prox-1 built by students at Georgia Tech. The spacecraft duo will be launched aboard a SpaceX Falcon Heavy rocket to an orbit of about 720 kilometers (450 miles).

The Planetary Society's solar sailing involvement was started by Society co-founder Louis Friedman more than a decade ago. The LightSail project is managed by Doug Stetson, founder and principal partner of the Space Science and Exploration Consulting Group.

“LightSail is truly ‘the people’s satellite.’ Thanks to our members, the dream of citizen supported solar sailing will become a reality; the vision goes back to our founders, Lou Friedman, Bruce Murray, and Carl Sagan. We encourage space fans worldwide to join us on LightSail’s journey. Together we can change the world.” Nye concluded.

For complete LightSail coverage, visit sail.planetary.org.
Observers 0 Views : 393 Owner: Gokulino
comments powered by Disqus