QUASI-SATELLITE

A 'quasi-satellite' is an object in a 1:1 orbital resonance with its planet that stays close to the planet over many orbital periods.
A quasi-satellite's orbit around the Sun takes exactly the same time as the planet's, but has a different eccentricity (usually greater), as shown in the diagram at right. When viewed from the perspective of the planet the quasi-satellite will appear to travel in an oblong retrograde loop around the planet.
In contrast to ''true'' satellites, quasi-satellite orbits lie outside the planet's Hill sphere, and are unstable. Over time they tend to evolve to other types of resonant motion, where they no longer remain in the planet's neighbourhood, then possibly later move back to a quasi-satellite orbit, etc.
Other types of orbit in a 1:1 resonance with the planet, include horseshoe orbits and tadpole orbits around the Lagrangian points, but objects in these orbits do not stay near the planet's longitude over many revolutions about the star. Objects in horseshoe orbits are known to sometimes periodically transfer to a relatively short-lived quasi-satellite orbit,^[1] and are sometimes confused with them. An example of such an object is .

Known quasi-satellites

Earth currently has the known quasi-satellites 3753 Cruithne, , and , and Venus has the quasi-satellite . These objects remain in quasi-satellite orbits for times of tens to hundreds of years.
Based on simulations it is believed that Uranus and Neptune could potentially hold quasi-satellites for the age of the solar system (about 4.5 billion years) ^[2], but a quasi-satellite's orbit would remain stable for only 10 million years around Jupiter and 100,000 years around Saturn. No actual quasi-satellites of these planets are currently known.
In early 1989, the Soviet ''Phobos 2'' spacecraft was injected into a quasi-satellite orbit around the Martian moon Phobos, with a mean orbital radius of about 100 km from the moon.^[3] According to computations, it could have then stayed trapped in the vicinity of Phobos for many months. The spacecraft was lost due to a malfunction of the on-board control system.

References

1. ''Discovery of an asteroid and quasi-satellite in an Earth-like horseshoe orbit'', M. Connors et al, , , Meteoritics & Planetary Science, 2002
2. ''The stability of quasi satellites in the outer solar system'', P. Wiegert and K. Innanen, , , The Astronomical Journal, 2000
3. http://www.federalspace.ru/Doc1Show.asp?DocID=16 (the orbit is erroneously called "quasi-synchronous")

External links

★ Quasi-satellite Information Page

★ Earth's New Travelling Companion: Quasi-Satellite Discovered

★ Astronomy.com: A new "moon" for Earth

★ Discovery of the first quasi-satellite of Venus – University of Turku news release (August 17th, 2004)

This article provided by Wikipedia. To edit the contents of this article, click here for original source.

	Walden Tours
	Doubletree Fallsview Resort & Spa by Hilton - Niagara Falls
	Papillon Helicopters
	American Express Mills Travel Travel Selloffs for Canadians
	Routes Car and Truck Rental-Toronto Pearson Airport
	Expedia Cruise Ship Centers
	Canada Travels
	Victoria's Mansion Inn and Guest House
	Magic Falls Rafting Company
	Travel cruises and more

$Cafe Havana, Guam\$	Cafe Havana, Guam's First Cuban Restaurant is Now Open
	Discover Adventure and History in Rabaul, Papua New Guinea
	Getting to Machu Picchu: Everything You Need to Know
	Mystical Nzulezu or Nzulezo: Village on Stilts near Beyin, Ghana
	Prince of Wales Hotel Unveils New SpecialTEA Spa Treatments
	Celebrity Chef Restaurants On Any Budget

Home

Blogs

Deals

Videos NEW!

Tips

Articles

Languages

QUASI-SATELLITE

Known quasi-satellites

See also

References

External links

Customer Service

Most Popular

Useful

Find

Username:	Password:

	or Sign up here