Pluto's "Thick" Air Isn't Going Anywhere 42
astroengine writes "When the proposition for NASA's New Horizons mission to Pluto was put forward, there was an air of urgency. The dwarf planet is moving away from the Sun in its eccentric orbit, so astronomers were concerned that the Plutonian atmosphere would freeze out and collapse onto the surface as fresh nitrogen-methane snow before they could get a spacecraft out there to observe it. But according to new research [arXiv], it appears there's little risk of a Pluto air freeze-out. From recent occultation measurements, it appears the atmosphere is becoming denser and more buoyant, meaning it will remain as an atmosphere all (Pluto) year 'round — 248 Earth years long."
Re:Can you imagine living on Pluto? (Score:3, Informative)
Denser will make landing easier (Score:4, Informative)
With a denser atmosphere (rather than none), it'll become easier indeed to brake and land.
When for instance you compare atmospheric entry and landing within the Earth atmosphere and the Martian one, the main difficulty on Mars is the much less dense atmosphere: aerobraking, transonic parachute deployment, end-of-trajectory thrusters all happen in a matter of dozens of seconds on Mars, while on Earth you have many minutes at least.
The denser atmosphere the best for safe arrival ;-)
(and that explains, too, the many crashes on Mars)
I participated in the Titan landing for Cassini/Huygens : I clearly remember the Titan atmosphere as a "thick" one, like on Earth (now we had other issues at the time, among others the terrible uncertainty on gas composition itself).
But I'm close to consider landing on Mars, though, is harder than on Titan.
How exactly will it be on Pluto, I hope to see ;-)