![]() Two bugs, one of which could cause crashes, have been fixed.įor the new moon (lunation number 287), the new release ( Hurwitz) is out. The following animation by the case of a ballistic capture around the Moon, where the trajectory can be seen to fall into the Moon’s potential well.įor the new moon (lunation number 288), the new release ( Ὑπατία) is out. This provides valuable context when planning low-energy transfers and other trajectories involving the Lagrange points. When this frame is used as the plotting frame, the equipotentials of the centrifugal plus gravitational potential are drawn, so that the Lagrange points can be seen. The computation of the equipotentials has been improved to make the results more useful for the outer planets, and its performance has been improved.Ī cryptic error message has been improved.įor the new moon (lunation number 289), the new release ( ابن الهيثم) is out.Ī new rotating and pulsating reference frame has been added it is in this frame that the Lagrange points are defined for the elliptic restricted three body problem. Thanks to this contribution.įor the new moon (lunation number 290), the new release ( 伊藤) is out. The manœuvre markers (specifically their Frenet trihedra) are now draggable. Thanks to this contribution.įor the new moon (lunation number 291), the new release ( 岩澤) is out. No user-visible changes in this version as we have been laying the groundwork for a mechanism that would help optimize burns to meet certain criteria.įor the new moon (lunation number 292), the new release ( Jacobi) is out.Ī pinnable hover tooltip is displayed when the cursor is hovered over a manœuvre marker, emulating the stock KSP node markers. We provide a patch to turn SLIPPIST-1 into the TRAPPIST-1 system see the installations instructions.įor the new moon (lunation number 293), the new release ( Jensen) is out. Your concerns may be addressed more quickly there than on the fora (bear in mind however that there isn't always someone around who can answer your question right away if no-one is around, you may want to stay on the channel for a while).ĭownload the binary (Macintosh, Ubuntu, and Windows): Principia Jensen for 1.8.1, 1.9.1, 1.10.1, 1.11.0–2, and 1.12.2–5 If you wish to ask questions, you may want to do so on the #principia IRC channel on EsperNet, the #principia channel on the KSP- RO Discord, or #principia. with Kopernicus), you need to make sure that the system is stable. Since Principia makes all bodies attract each other according to Newtonian gravitation, the stability of the solar system is a concern when using stock KSP, Principia modifies the Jool system so that it is stable. There is also a guide to low orbit rendezvous that should help with understanding the target LVLH frame. Note that bug reporting procedures differ significantly from those of other mods because of our custom logging system, our use of fatal failures, and our journalling system (which, if activated, allows us to replay the events that led to a crash for later debugging).Ī tutorial is available on the topic of going to the Mun in various ways, applying the concepts described above. ![]() In addition, please read the FAQ and bug reporting guide. Many aspects of the mod are unfinished, and this is detailed on that page. Please read the wiki page detailing the concepts carefully a lot of things behave differently when using principia, in particular map view and flight planning. ![]() Note that the mod only works with 64-bit versions of KSP. Principia is not built in the same way as most other mods (most of it is native code, with a thin C# interface layer), so that compatibility issues may arise depending on the platform.īinaries are available for Windows, Linux (built on Ubuntu, your mileage may vary when using these on other distributions), and Macintosh (thanks to DiGriz). NASA: National Aeronautics and Space Administration MIT: Massachusetts Institute of Technology IMCCE: Institut de Mécanique Céleste et de Calcul des Éphémérides IEEE: Institute of Electrical and Electronics Engineers GPGPU: General-Purpose Computing on Graphics Processing Units BIPM: Bureau International des Poids et MesuresĬR3BP: Circular-Restricted 3-Body ProblemĬGPM: Conférence Générale des Poids et MesuresĬIPM: Comité International des Poids et MesuresĬRTP: Curiously Recurring Template PatternĮR3BP: Elliptic-Restricted 3-Body ProblemĮTHZ: Eidgenössische Technische Hochschule Zürich
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