![]() Remove particle shader from F1 and E1 waterfall due to performance and look problems when clustered.įix conflict between Extraplanetary launch pads compatibility patch and Simple Constructionįix Deadly Reentry compatibility with engine thermals patchįix Filter extensions config when used without BDB Realnames Extras patchįix Keyhole dual adapter decoupler direction New SRM upper stage plume (Thanks to Al2Me6 and Kochi for providing FX used in this plume), applied to all vac/upper stage SRB motors. Updated moduleBDBdepthMask to handle translucent shaders (Thanks to CineboxAndrew) Soilscoop experiment definition from Coatl ( MM patch will unify the def if Coatl is also installed)Īdd Centaur interface mesh to Atlas V 4xx interstage adapter Mitsubishi MB-60 engine in fixed and deployable variants, a concept engine once proposed as a Delta IV upgrade (and for H2A and possibly SLS) SNAP 29 RTG with conformal radiator (sized for S4B diameter)ĭedicated radiators for cryocooling Saturn stages Allows users to easily lash together S4B or SII sized stages side by side on orbit. Side docking guide rail which allows for up to 3 docking ports to easily line up for multi docking. Orbital assembly components for Saturn S4B sized stages including in line docking interstage adapter, 4 way APS. Includes new C-1 auxiliary engine, Saturn S4B dual payload adapter, star 24 deorbit motor, and 40 components making up the orbiter and lander including several new science instruments. Prestigious end game probe, which is dual launched on Saturn V, each probe consisting of a full fledged orbiter and lander. Improvements to realfuels compatibility with Scout solidsĬhanged Pegaus Micrometeorite Experiment Panel from a electric part to a science part Updated Extraplanetary Launchpads support TAC life support command pods update thanks to birdog357 Features a variant of the Juno tank texture with Latin alphabet lettering and a no letters variant New BDB Extras Patch for alternate Juno/Redstone textures. Features a green outer nozzle for the XLR81-8096 and white inner nozzles for the Agena-B and Agena-D XLR81 variants New BDB Extras Patch for realism-inspired alternate XLR81 Agena engine textures. New IVAs developed in collaboration with FreeIVA developer JonnyOThan for most station parts missing IVAs including the Skylab MDA, Airlock, and ETS Research Module. New fairings and adapters for Carrack (from ETS) and the proposed Athena III by Estreetrockets Low profile 4.25m (s4b sized) stack decoupler MORL space station including station core, solar panels, Plutonium Brayton-cycle generator, and resistojet electric RCS Minotaur I parts including M55A1, SR19, Orion 50XL and Orion 38, both fairingsĬomplete revamp of Helios parts, featuring additional Helios parts not previously in BDB, like dust analyzer experiment, zodiacal light photometer experiment, low gain antenna, and specialized adapter It may be a good idea to start with flaps deployed and bind toggling them to the "gears" action group.Surveyor parts including historical lander and conceptual orbiter This is useful for reducing speed and altitude while maintaining a level attitude for a landing approach. This retraction represents extending flaps, which increases lift and drag, thus reducing stall speed. The control surfaces can be also controlled by action groups: Deploy: The direction of the extension - Normal/Inverted.State: The default state of the control surface - Normal/Deployed.The Active/Inactive label by the axis indicates whether the control surface responds to input in the given axis. Typically placed at the end of the wings. Roll (ailerons): rolls the craft around the longitudinal axis, running from nose to tail through the center of mass.Typically placed on the vertical tail fin(s). Yaw (rudders): turns the craft left and right around the yaw axis, running up and down through the center of mass.Typically placed on the horizontal tail fins. Pitch (elevators): lifts and lowers the nose of the craft around the pitch axis, running from left to right through the center of mass.To provide a good level of control in a given axis, they should be placed far away from the center of mass in the appropriate direction: These can be done in the SPH or VAB, and even after launch (except State). Disabling undesired axes can prevent the craft from over-reacting to control inputs. Control surfaces provide greater control and stability to rockets and aircraft, though they are of no use outside of an atmosphere.Įach of the control surfaces has tweakables to enable or disable each control axis. Adjusting the reaction to the different axesĪ control surface is an aerodynamic part that provides reactive force when in motion relative to the surrounding atmosphere.
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