Titan has a sea level


Saturn's largest moon Titan has an atmosphere and liquid cycle, much like Earth. But that's not the only similarity between our planet and this fascinating satellite.


Like Earth, Titan has an atmosphere, seen here as a hazy blue outline around the moon’s limb. But Cassini scientists have discovered another similarity between our planet and Saturn’s largest moon.
To the upper left of Titan in this image taken by the Cassini spacecraft is Tethys, another of Saturn’s satellites.
Credit: Cassini Imaging Team, ISS, JPL, ESA, NASA


Saturn’s largest moon Titan has a sea level just like Earth, according to a new study using data collected by the Cassini spacecraft.

Titan is incredibly Earth-like. It has a liquid cycle that causes rain to fall and form rivers and seas, although in Titan’s case these seas are made of hydrocarbons like ethane and methane instead of water.

It also has a thick atmosphere, unlike any other known moon in the Solar System.


Read more about Titan from BBC Sky at Night Magazine:


But now Cassini scientists have discovered another Earth-like property on Titan: an average sea level.

Titan’s seas follow a constant elevation relative to its gravitational pull, just like Earth.

Small lakes can be found several hundred metres above its sea level, again just like on Earth.


A false-colour image taken by NASA's Cassini spacecraft of Ligeia Mare, the second largest known body of liquid on Saturn's moon Titan. It is filled with liquid hydrocarbons such as ethane and methane.
Credit: NASA/JPL-Caltech/ASI/Cornell


“We’re measuring the elevation of a liquid surface on another body 10 Astronomical Units away from the Sun to an accuracy of roughly 40 centimetres,” says Alex Hayes of Cornell University, who led the study.

“Because we have such amazing accuracy we were able to see that between these two seas the elevation varied smoothly about 11 metres, relative to the centre of mass of Titan, consistent with the expected change in the gravitational potential.

"We are measuring Titan’s geoid. This is the shape that the surface would take under the influence of gravity and rotation alone, which is the same shape that dominates Earth’s oceans,”

The study also reveals that Titan’s liquid bodies are connected at a subsurface level, whereby hydrocarbons flow underneath the ground just like water flowing through porous rocks on Earth.

The revelation is part of new analysis of Cassini data that has also enabled scientists to map Titan’s topography.

The map shows new mountains and depressions and reveals Titan to be a bit more flat, or oblate, than previously thought.


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