PART { name = nuclearEngine module = Part author = NovaSilisko mesh = model.mu scale = 1 rescaleFactor = 1 node_stack_top = 0.0, 1.40383, 0.0, 0.0, 1.0, 0.0 node_stack_bottom = 0.0, -1.731957, 0.0, 0.0, -1.0, 0.0 fx_exhaustFlame_blue = 0.0, -1.6, 0.0, 0.0, 1.0, 0.0, running fx_exhaustLight_blue = 0.0, -1.6, 0.0, 0.0, 0.0, 1.0, running fx_smokeTrail_light = 0.0, -1.6, 0.0, 0.0, 1.0, 0.0, running sound_vent_medium = engage sound_rocket_hard = running sound_vent_soft = disengage sound_explosion_low = flameout TechRequired = nuclearPropulsion entryCost = 45000 cost = 10000 category = Engine subcategory = 0 title = #autoLOC_500436 //#autoLOC_500436 = LV-N "Nerv" Atomic Rocket Motor manufacturer = #autoLOC_501627 //#autoLOC_501627 = Jebediah Kerman's Junkyard and Spacecraft Parts Co description = #autoLOC_500437 //#autoLOC_500437 = Despite the big scary trefoil painted onto the side of this engine, its radioactive exhaust, and tendency to overheat, the LV-N Atomic Rocket Motor is harmless. Mostly. Note that the LV-N is the only LV series engine to run solely on Liquid Fuel - the future is glowing bright! attachRules = 1,0,1,0,0 mass = 3 heatConductivity = 0.06 // half default skinInternalConductionMult = 4.0 emissiveConstant = 0.85 // engine nozzles are good at radiating, NTRs even better dragModelType = default maximum_drag = 0.2 minimum_drag = 0.2 angularDrag = 2 crashTolerance = 12 maxTemp = 2500 // = 4000 bulkheadProfiles = size1 radiatorMax = 0.35 //Default = 0.25 but nuke engines are meant to run hot tags = #autoLOC_500438 //#autoLOC_500438 = active atom efficient engine inter liquid (nerv nuclear nuke orbit propuls radio reactor vacuum MODULE { name = ModuleEngines thrustVectorTransformName = thrustTransform exhaustDamage = True ignitionThreshold = 0.1 minThrust = 0 maxThrust = 60 heatProduction = 250 fxOffset = 0, 0, 1.6 EngineType = Nuclear exhaustDamageDistanceOffset = 1.86 PROPELLANT { name = LiquidFuel ratio = 0.9 DrawGauge = True } atmosphereCurve { key = 0 800 key = 1 185 key = 2 0.001 } } MODULE { name = ModuleJettison jettisonName = fairingL bottomNodeName = bottom isFairing = False jettisonedObjectMass = 0.1 jettisonForce = 1 jettisonDirection = 1 0 0 } MODULE { name = ModuleJettison jettisonName = fairingR bottomNodeName = bottom isFairing = False jettisonedObjectMass = 0.1 jettisonForce = 1 jettisonDirection = -1 0 0 } MODULE { name = ModuleAnimateHeat ThermalAnim = overheat } MODULE { name = ModuleAlternator RESOURCE { name = ElectricCharge rate = 5.0 } } MODULE { name = ModuleTestSubject useStaging = True useEvent = True situationMask = 121 CONSTRAINT { type = REPEATABILITY value = ALWAYS prestige = Trivial } CONSTRAINT { type = REPEATABILITY value = BODYANDSITUATION prestige = Significant } CONSTRAINT { type = REPEATABILITY value = ONCEPERPART prestige = Exceptional } CONSTRAINT { type = ALTITUDEENV test = GT value = 4000 prestige = Trivial } CONSTRAINT { type = ALTITUDEENV test = LT value = 8000 prestige = Trivial } CONSTRAINT { type = ALTITUDEENV test = GT value = 2000 prestige = Significant } CONSTRAINT { type = ALTITUDEENV test = LT value = 4000 prestige = Significant } CONSTRAINT { type = ALTITUDEENV test = GT value = 1000 prestige = Exceptional } CONSTRAINT { type = ALTITUDEENV test = LT value = 2000 prestige = Exceptional } CONSTRAINT { type = ALTITUDE test = LT value = 300000 situationMask = 16 body = _NotSun } CONSTRAINT { type = ALTITUDE test = LT value = 600000 situationMask = 32 body = _NotSun } CONSTRAINT { type = SPEED test = GT value = 0 situationMask = 8 prestige = Trivial } CONSTRAINT { type = SPEED test = LT value = 600 situationMask = 8 prestige = Trivial } CONSTRAINT { type = SPEED test = GT value = 300 situationMask = 8 prestige = Significant } CONSTRAINT { type = SPEED test = LT value = 1200 situationMask = 8 prestige = Significant } CONSTRAINT { type = SPEED test = GT value = 600 situationMask = 8 prestige = Exceptional } CONSTRAINT { type = SPEED test = LT value = 2500 situationMask = 8 prestige = Exceptional } CONSTRAINT { type = SPEEDENV test = LT value = 200 prestige = Trivial } CONSTRAINT { type = SPEEDENV test = GT value = 100 prestige = Trivial } CONSTRAINT { type = SPEEDENV test = LT value = 100 prestige = Significant } CONSTRAINT { type = SPEEDENV test = GT value = 50 prestige = Significant } CONSTRAINT { type = SPEEDENV test = LT value = 50 prestige = Exceptional } CONSTRAINT { type = SPEEDENV test = GT value = 20 prestige = Exceptional } } MODULE { name = ModuleSurfaceFX thrustProviderModuleIndex = 0 fxMax = 0.7 maxDistance = 50 falloff = 2.5 thrustTransformName = thrustTransform } }