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by droithomme
2414 days ago
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You bring up a good point regarding the relative speeds. Pluto on average travels 4.7 km/sec or 16,800 km/hr. New Horizons, on a 9 yr mission to arrive, was traveling 50,700 km/hr as it passed Pluto. So it was going much faster than Pluto, however it was passing almost orthogonal to Pluto's trajectory. It seems an orbiter would want to arrive using some complex slingshot mission around various solar system objects, and taking a catch up trajectory that approaches Pluto more tangentially to its orbit rather than orthogonally. That seems more doable than when I first balked at this. Since gravity assist/slingshots can be used to slow down as well as speed up perhaps it zooms out there fast, then slingshots to nearly meet the speed and direction of Pluto, meeting up with it at its orbital path sideways and only needing a small correction at the end to insert itself into orbit. |
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Pluto's orbital period is 248 years. If you aim to match its velocity when you arrive, the journey takes a significant fraction of those 248 years. Compare Mars, where the orbital period is 22 months, and a Hohmann transfer orbit takes 9. A similar trajectory to Pluto would be on the order of 80 to 90 years.
It's not just about the magnitude of the speed vector, it's also the direction. To match and orbit Pluto, you need that 4.7 km/sec to be tangent to the sun. You need to start out slow enough so that your radial velocity can fall to zero by the time you get there. You can't apply more radial velocity to get there faster, either by launch or slingshot, if there isn't equivalent fuel or mass to decelerate you; you'll overshoot as New Horizons did.