Do Not Taunt the Magic Boulder!

cubinator · April 7, 2016

From this distant vantage point, the Magic Boulder might not seem of any particular interest. But for us, it's different. Consider again that Magic Boulder. On it every Kraken you love, every Kraken you know, every Kraken you've ever heard of, every Kraken that ever was has been there. There, thousands of confident Kerbals have ventured, many attacked by is erratic physics.

The Magic Boulder is a very small stage in a vast cosmic arena. Think of the hours spent by all those nerds and gamers so that, in glory and triumph, they could become the momentary visitors of a dot orbiting a dot orbiting a dot. Think of the endless worlds they could have visited when they chose to look for a scarcely distinguishable dot in some corner of the sky, how frequent their launch explosions, how eager they are to crash their Kerbals, how fervent their love for science points. Our posturings, our imagined goals, the delusion that we will accomplish anything by finding it are challenged by this point of dim light.

That boulder is a lonely speck in the great enveloping cosmic dark. In it's obscurity, in all this vastness, there is no hint that anything useful can be done with it.

...

I put too much effort into that.

RA3236 · April 7, 2016

Do not believe the Magic Boulder exists.

max_creative · April 7, 2016

Believe the magic Boulder exists and is coming to get you!

Mr. Me · April 7, 2016

Do not take flare guns and do something really stupid to the Magic Boulder.

max_creative · April 7, 2016

Do not do target practice with your space missiles on the magic Boulder!

cubinator · April 8, 2016

Do not ignore the Magic Boulder when it is telling you a story! The Magic Boulder does not like when it is ignored and it would feel sad.

max_creative · April 8, 2016

Do not let Jeb blow up the magic Boulder with a thermonuclear explosion.

SAS123 · April 8, 2016

Do not Trump magic Boulder.

max_creative · April 8, 2016

Do not do this or this to the magic boulder.

0111narwhalz · April 10, 2016

Do not vigorously defenestrate yourself in the general direction of the Magic Boulder.

legoclone09 · April 10, 2016

Do not feed the Magic Boulder after midnight.

Immediately unpack Magic Boulder after receipt.

Do not expose Magic Boulder to bright light for extended periods of time or cosmetic damage will occur. A good 500,000 SPF rockscreen should reduce chances of cosmetic damages.

Do not expose Magic Boulder to water.

Inspiration from this:

Quote

Evike.com

Evike.com Special Edition Tactical Airsoft Caddie

The Evike.com Special Edition Tactical Airsoft Caddie is unanimously regarded as the most revolutionary, innovative design of all time in the Airsoft industry. By simply adding the Airsoft Caddie to your arsenal it greatly increases one's ability to focus on the task at hand on the battlefield. Gun go down on the field? Caddie. Magazine change mid fight? Caddie. Need to defog those goggles? Oh you bet that's a Caddie.

The Airsoft Caddie comes with its own innate sense of duty, well trained in the ways of fine Airsofting etiquette, proper handling of rifles and assorted weaponry. Small and trim, the Airsoft Caddie is the perfect companion for long trips as the Airsoft Caddie does require much in the ways of sustenance. When the Airsoft Caddie loses all energy, they can even be easily stowed in a large duffel bag. The Airsoft Caddie is self-healing, in case of minor damage. In case of case of irreparable damage, the Airsoft Caddie is 100% bio-degradable.

Dare we say, and we are really being unbiased here, that the Evike.com Special Edition Tactical Airsoft Caddie is the best money you can spend on any possible purchase you might make in the foreseeable future.

Features:

Made in USA from Japanese sourced materials

An essential addition to your tactical loadout

Specially trained to meet your Airsoft needs

Small, compact, and lightwieght for ease of transport

Can be further trained depending on the user's Airsoft play-style (Not compatible with MilSim gaming)

Fits nicely in a large duffel bag, for longer trips

100% bio-degradable

The best purchase you will ever make. EVER.

Height: 5'7"
Compatibility: Works well with most Airsoft play styles (not compatible with Military Simulation events)
Material: Proprietary blend of organic materials

Manufacturer: Evike

Disclaimer:

Immediately unbox your Airsoft Caddie upon receipt

Do NOT expose Airsoft Caddie to water

Do NOT feed Airsoft Caddie after midnight

Do NOT expose Airsoft Caddie to bright light for extended periods of time (a good 50spf sunscreen will help on bright, sunny days, sunscreen not included)

Throwing Airsoft Caddie on top of grenades voids warranty

Due to United States export regulations the Airsoft Caddie cannot ship internationally

Edited April 10, 2016 by legoclone09

spacebrick3 · April 11, 2016

WARNING! THE MAGIC BOULDER IS A HIGHLY FLAMMABLE OBJECT! CONTACT WITH ANY OF THE PARTS LISTED BELOW CAN CAUSE FIRE AND/OR EXPLOSIONS!

Spoiler

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Torque (kN · m)	S.A.S. level	Required Crew/ Power	Capacity (⚡)
Mk1 Cockpit	Small	1 250 (1 241)	1.28 (1.25)	2 000 (1 000)	40	10			50 ⚡ 7.5 MP
Mk1 Inline Cockpit	Small	1 600 (1 591)	1.03 (1.00)	2 000 (1 000)	40	10			50 ⚡ 7.5 MP
Mk2 Cockpit	Mk2	3 500 (3 482)	2.06 (2.00)	2 500 (1 400)	45	15		+	150 ⚡ 15 MP
Mk2 Inline Cockpit	Mk2	3 500 (3 470)	2.10 (2.00)	2 500 (1 400)	45	15		+	150 ⚡ 25 MP
Mk3 Cockpit	Mk3, Small	10 000 (9 880)	3.90 (3.50)	2 700 (1 500)	50	40/40/20^{[Note 1]}		+	500 ⚡ 100 MP
Mk1 Command Pod	Small, Tiny	600 (588)	0.84 (0.80)	2 200 (1 200)	14	5			50 ⚡ 10 MP
Mk1-2 Command Pod	Large, Small	3 800 (3 764)	4.12 (4.00)	2 400 (1 400)	45	15		+	150 ⚡ 30 MP
Mk1 Lander Can	Small	1 500 (1 482)	0.66 (0.60)	2 000 (1 000)	8	3			50 ⚡ 15 MP
Mk2 Lander-can	Large	3 250 (3 202)	2.66 (2.50)	2 000 (1 200)	8	15		+	100 ⚡ 40 MP
PPD-12 Cupola Module	Large, Small	3 200 (3 188)	1.80 (1.76)	2 000 (1 000)	8	9			200 ⚡ 10 MP
EAS-1 External Command Seat	Radial mounted	200	0.05	1 200	6	—			—
Probodobodyne RoveMate	—	800	0.15	1 200	12	—	0	2.4 ⚡/min (144 ⚡/h)	120 ⚡
Probodobodyne QBE	Tiny	360	0.07	1 200	15	—	0	1.5 ⚡/min (90 ⚡/h)	5 ⚡
Probodobodyne HECS	Tiny	650	0.1	1 200	12	0.5	1	1.5 ⚡/min (90 ⚡/h)	10 ⚡
Probodobodyne OKTO	Tiny	450	0.1	1 200	12	0.3	0	1.2 ⚡/min (72 ⚡/h)	10 ⚡
Probodobodyne OKTO2	Tiny	1 480	0.04	1 200	12	—	2	1.8 ⚡/min (108 ⚡/h)	5 ⚡
Stayputnik Mk. 1	Tiny	300	0.05	1 800	12	—	—	1.67 ⚡/min (100 ⚡/h)	10 ⚡
RC-001S Remote Guidance Unit	Small	2 250	0.1	2 000	9	0.5	3	3.0 ⚡/min (180 ⚡/h)	15 ⚡
RC-L01 Remote Guidance Unit	Large	3 400	0.5	2 000	9	1.5	3	4.8 ⚡/min (288 ⚡/h)	30 ⚡
Mk2 Drone Core	Mk2	2 700	0.2	2 500	20	15/3/3^{[Note 1]}	3	3.0 ⚡/min (180 ⚡/h)	250 ⚡

↑ ^{Jump up to: 1.0} ^1.1 Torque differs between axes. These numbers are for pitch/yaw/roll respectively.

With 0.90, unmanned command modules vary in SAS capabilities (See command module for details.)

Fuel Tanks

Rocket fuel tanks

Liquid fuel and oxidizer density are both 5 kg/unit				Mass (t)		Max. Temp. (K)	Tolerance (m/s)	Liquid Fuel ()	Oxidizer ()
Image	Part	Radial size	Cost ()	Mass (t)
Image	Part	Radial size	Cost ()	Full	Empty
	ROUND-8 Toroidal Fuel Tank	Tiny	175 (147.46)	0.3375	0.0375	2 000	6	27	33
	Oscar-B Fuel Tank	Tiny	70 (51.64)	0.225	0.025	2 000	6	18	22
	FL-T100 Fuel Tank	Small	150 (104.1)	0.5625	0.0625	2 000	6	45	55
	FL-T200 Fuel Tank	Small	275 (183.2)	1.125	0.125	2 000	6	90	110
	FL-T400 Fuel Tank	Small	500 (316.4)	2.25	0.25	2 000	6	180	220
	FL-T800 Fuel Tank	Small	800 (432.8)	4.5	0.5	2 000	6	360	440
	Rockomax X200-8 Fuel Tank	Large	800 (432.8)	4.5	0.5	2 000	6	360	440
	Rockomax X200-16 Fuel Tank	Large	1 550 (815.6)	9	1	2 000	6	720	880
	Rockomax X200-32 Fuel Tank	Large	3 000 (1 531.2)	18	2	2 000	6	1 440	1 760
	Rockomax Jumbo-64 Fuel Tank	Large	5 750 (2 812.4)	36	4	2 000	6	2 880	3 520
	LFB KR-1x2 "Twin-Boar" Liquid Fuel Engine^{[Note 1]}	Large	17 000 (14 062.4)	42.5	10.5	2 000	20	2 880	3 520
	Kerbodyne S3-3600 Tank	Extra large	3 250 (1 597.6)	20.25	2.25	2 000	6	1 620	1 980
	Kerbodyne S3-7200 Tank	Extra large	6 500 (3 195.2)	40.5	4.5	2 000	6	3 240	3 960
	Kerbodyne S3-14400 Tank	Extra large	13 000 (6 390.4)	81	9	2 000	6	6 480	7 920
	Mk2 Rocket Fuel Fuselage Short	Mk2	750 (566.4)	2.29	0.29	2 500	50	180	220
	Mk2 Rocket Fuel Fuselage	Mk2	1 450 (1 082.8)	4.57	0.57	2 500	50	360	440
	Mk3 Rocket Fuel Fuselage Short	Mk3	2 500 (1 352.5)	14.29	1.79	2 700	50	1 125	1 375
	Mk3 Rocket Fuel Fuselage	Mk3	5 000 (2 705)	28.57	3.57	2 700	50	2 250	2 750
	Mk3 Rocket Fuel Fuselage Long	Mk3	10 000 (5 410)	57.14	7.14	2 700	50	4 500	5 500
	C7 Brand Adapter - 2.5m to 1.25m	Large, Small	800 (433.0)	4.57	0.57	2 300	20	360	440
	C7 Brand Adapter Slanted - 2.5m to 1.25m	Large, Small	800 (433.0)	4.57	0.57	2 300	20	360	440
	Mk2 to 1.25m Adapter	Mk2, Small	550 (366.4)	2.29	0.29	2 500	50	180	220
	Mk2 to 1.25m Adapter Long	Mk2, Small	1 050 (682.8)	4.57	0.57	2 500	50	360	440
	Mk2 Bicoupler	Mk2, Small x 2	860 (676.4)	2.29	0.29	2 500	50	180	220
	2.5m to Mk2 Adapter	Mk2, Large	800 (432.8)	4.57	0.57	2 500	50	360	440
	Mk3 to Mk2 Adapter	Mk3, Mk2	2 200 (1 282.0)	11.43	1.43	2 600	50	900	1 100
	Mk3 to 2.5m Adapter	Mk3, Large	2 500 (1 353.0)	14.29	1.79	2 600	50	1 125	1 375
	Mk3 to 2.5m Adapter Slanted	Mk3, Large	2 500 (1 353.0)	14.29	1.79	2 600	50	1 125	1 375
	Mk3 to 3.75m Adapter	Mk3, Extra large	2 500 (1 353.0)	14.29	1.79	2 600	50	1 125	1 375

Jump up ↑ The LFB KR-1x2 is a liquid fuel booster -- a combination of a "normal" engine and a fuel tank. Only the fuel tank properties are shown. It is located in the "Engines" category in the game.

Liquid fuel tanks (Jet fuel fuselages)

Jet fuel is identical to the liquid fuel in liquid fuel tanks.

Liquid Fuel Density is 5 kg/unit				Mass (t)		Max. Temp. (K)	Tolerance (m/s)	Fuel ()
Image	Part	Radial size	Cost ()	Mass (t)
Image	Part	Radial size	Cost ()	Full	Empty
	Engine Nacelle^{[Note 1]}	Small	600 (480)	0.925	0.15	2 000	10	40
	Engine Pre-cooler^{[Note 1]}	Small	1 650 (1 618)	0.375	0.15	2 000	10	40
	Mk1 Diverterless Supersonic Intake^{[Note 1]}	Small	720 (560)	1.18	0.17	2 000	10	40
	Mk0 Liquid Fuel Fuselage	Tiny	200 (160)	0.25	0.03	2 000	10	50
	Mk1 Liquid Fuel Fuselage	Small	550 (230)	2.25	0.25	2 000	10	400
	Mk2 Liquid Fuel Fuselage Short	Mk2	750 (430)	2.29	0.29	2 500	50	400
	Mk2 Liquid Fuel Fuselage	Mk2	1 450 (810)	4.57	0.57	2 500	50	800
	Mk3 Liquid Fuel Fuselage Short	Mk3	4 300 (2 300)	14.29	1.79	2 700	50	2 500
	Mk3 Liquid Fuel Fuselage	Mk3	8 600 (4 600)	28.57	3.57	2 700	50	5 000
	Mk3 Liquid Fuel Fuselage Long	Mk3	17 200 (9 200)	57.14	7.14	2 700	50	10 000
	NCS Adapter	Small, Tiny	320 (256)	0.5	0.1	2 400	10	80
	FAT-455 Aeroplane Main Wing^{[Note 2]}	Radial mounted	2 800 (2 320)	3.78	0.78	1 200	15	600
	Big-S Wing Strake^{[Note 2]}	Radial mounted	1 000 (920)	0.6	0.1	2 400	15	100
	Big-S Delta Wing^{[Note 2]}	Radial mounted	3 000 (2 760)	2.0	0.5	2 400	15	300

↑ ^{Jump up to: 1.0} ^1.1 ^1.2 The Engine Nacelle, Engine Pre-cooler, and Mk1 Diverterless Supersonic Intake are a combination of air intake and liquid fuel tank. Only the tank properties are shown. They are located in the "Aerodynamic" category in the game.
↑ ^{Jump up to: 2.0} ^2.1 ^2.2 The FAT-455 Aeroplane Main Wing, Big-S Wing Strake, and Big-S Delta Wing are a combination of lifting surface and liquid fuel tank. Only the tank properties are shown. They are located in the "Aerodynamic" category in the game.

RCS fuel tanks

RCS Fuel Density is 4 kg/unit				Mass (t)		Fuel ()	Max. Temp. (K)	Tolerance (m/s)
Image	Part	Radial size	Cost ()	Mass (t)
Image	Part	Radial size	Cost ()	Full	Empty
	FL-R10 RCS Fuel Tank	Tiny	200 (104)	0.37	0.05	80	2 000	12
	FL-R25 RCS Fuel Tank	Small	600 (300)	1.15	0.15	250	2 000	12
	FL-R1 RCS Fuel Tank	Large	1 300 (400)	3.4	0.4	750	2 000	12
	Mk2 Monopropellant Tank	Mk2	750 (270)	1.89	0.29	400	2 500	50
	Mk3 Monopropellant Tank	Mk3	4 300 (3 100)	4.71	0.71	1 000	2 700	50
	Stratus-V Roundified Monopropellant Tank	Radial mounted	200 (128)	0.315	0.075	60	2 000	12
	Stratus-V Cylindrified Monopropellant Tank	Radial mounted	450 (270)	0.75	0.15	150	2 000	12

Xenon tanks

Xenon density is 0.1 kg/unit				Mass (t)		Xenon ()	Max. Temp. (K)	Tolerance (m/s)
Image	Part	Radial size	Cost ()	Mass (t)
Image	Part	Radial size	Cost ()	Full	Empty
	PB-X50R Xenon Container	Radial mounted	2 200 (600)	0.07	0.03	400	2 000	12
	PB-X150 Xenon Container	Tiny	3 000 (200)	0.12	0.05	700	2 000	6
	PB-X750 Xenon Container	Small	22 500 (1 500)	0.94	0.41	5 250	2 000	6

Ore tanks

Ore density is 10 kg/unit				Mass (t)		Ore ()
Image	Part	Radial size	Cost ()	Mass (t)
Image	Part	Radial size	Cost ()	Full	Empty
	Radial Holding Tank	Radial mounted	299 (300)^{[Note 1]}	0.875	0.125	75
	Small Holding Tank	Small	994 (1000)^{[Note 1]}	3.5	0.5	300
	Large Holding Tank	Large	2 970 (3 000)^{[Note 1]}	17.0	2.0	1 500

↑ ^{Jump up to: 1.0} ^1.1 ^1.2 Unlike the fuel tanks, these tanks are empty by default, and can be manually filled during vehicle assembly.

Fuel transfer

Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Max. length (m)
	FTX-2 External Fuel Duct	150	0.05	2 000	12	10

Engines

Liquid Fuel Engines

							Thrust (kN)		T/W ratio		Max. Fuel Consumption (≈t/s)	I_sp (s)		TVC
Image	Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Thrust (kN)		T/W ratio			I_sp (s)		Gimbal (°)
Image	Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	atm	vac	atm	vac		atm	vac	Gimbal (°)
	LV-1R "Spider" Liquid Fuel Engine	Radial mounted	120	0.02	2 000	7	1.793	2.0	9.14	10.19	0.0007 (0.14 /s)	260	290	8.0
	24-77 "Twitch" Liquid Fuel Engine	Radial mounted	400	0.09	2 000	7	13.793	16.0	15.62	18.12	0.005625 (1.125 /s)	250	290	8.0
	Mk-55 "Thud" Liquid Fuel Engine	Radial mounted	820	0.9	2 000	7	108.20	120.0	12.26	13.59	0.04012 (8.024 /s)	275	305	8.0
	O-10 "Puff" MonoPropellant Fuel Engine^{[Note 1]}	Radial mounted	150	0.09	2 000	7	9.6	20.0	10.87	22.65	0.008156 (2.039 /s)	120	250	—
	LV-1 "Ant" Liquid Fuel Engine	Tiny	110	0.02	2 000	7	0.51	2.0	2.59	10.19	0.000645 (0.129 /s)	80	315	—
	48-7S "Spark" Liquid Fuel Engine	Tiny	200	0.1	2 000	7	16.2	18.0	16.51	18.35	0.00612 (1.122 /s)	270	300	3.0
	LV-909 "Terrier" Liquid Fuel Engine	Small	390	0.5	2 000	7	14.783	60.0	3.01	12.23	0.017735 (3.547 /s)	85	345	4.0
	LV-T30 "Reliant" Liquid Fuel Engine	Small	1 100	1.25	2 000	7	200.67	215.0	16.36	17.53	0.07308 (14.616 /s)	280	300	—
	LV-T45 "Swivel" Liquid Fuel Engine	Small	1 200	1.5	2 000	7	168.75	200.0	11.47	13.59	0.063735 (12.747 /s)	270	320	3.0
	S3 KS-25 "Vector" Liquid Fuel Engine	Small	18 000	4.0	2 000	22	936.5	1 000	23.86	25.48	0.32372 (64.660 /s)	295	315	10.5
	CR-7 R.A.P.I.E.R. Engine^{[Note 2]}	Small	6 000	2.0	2 000	20	162.30	180.0	8.27	9.17	0.0496 (12.036 /s)	275	305	3.0
	T-1 Toroidal Aerospike "Dart" Liquid Fuel Engine.	Small	3 850	1.0	2 000	20	153.53	180.0	15.65	18.35	0.052635 (10.529 /s)	290	340	—
	LV-N "Nerv" Atomic Rocket Motor^{[Note 3]}	Small	10 000	3.0	2 500	12	13.875	60.0	0.47	2.04	0.00765 (1.530 /s)	185	800	—
	RE-L10 "Poodle" Liquid Fuel Engine	Large	1 300	1.75	2 000	7	64.29	250.0	3.74	14.56	0.072835 (14.567 /s)	90	350	4.5
	RE-I5 "Skipper" Liquid Fuel Engine	Large	5 300	3	2 000	8	568.75	650.0	19.33	22.09	0.20713 (41.426 /s)	280	320	2.0
	RE-M3 "Mainsail" Liquid Engine	Large	13 000	6	2 000	7	1 379.0	1 500	23.43	25.48	0.49341 (98.682 /s)	285	310	2.0
	LFB KR-1x2 "Twin-Boar" Liquid Fuel Engine^{[Note 4]}	Large	17 000 (14 062.4)	42.5 (10.5)	2 000	20	1 866.7	2 000	4.53 (19.03)	4.85 (20.39)	0.67981 (135.962 /s)	280	300	1.5
	Kerbodyne KR-2L+ "Rhino" Liquid Fuel Engine	Extra large	25 000	9.0	2 000	7	1 500	2 000	16.99	22.65	0.599835 (119.967 /s)	255	340	4.0
	S3 KS-25x4 "Mammoth" Liquid Fuel Engine	Extra large	39 000	15.0	2 000	20	3 746.0	4 000	25.46	27.18	1.29488 (258.976 /s)	295	315	2.0

Jump up ↑ Consumes monopropellant. (the density of monopropellant is less: 4kg/unit)
Jump up ↑ The R.A.P.I.E.R. Engine is a combination of liquid fuel and jet engine. Only the liquid fuel engine properties are shown.
Jump up ↑ Consumes liquid fuel only.
Jump up ↑ The LFB KR-1x2 is a liquid fuel booster -- a combination of a "normal" engine and a fuel tank.

Jet Engines

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Thrust (kN)	TWR	Fuel (/s)	I_sp (s)	TVC (°)	Reverse
J-20 "Juno" Basic Jet Engine	Tiny	450	0.25	2 000	7	20.0 _{Mach 0} 20.6 _Mach 1.3	8.15 _{Mach 0} 8.40 _Mach 1.30	0.064	6 400	—	× No
J-33 "Wheesley" Turbofan Engine	Small	1440	1.5	2 000	7	120.0 _{Mach 0}	8.15 _{Mach 0}	0.233	10 500	—	✓ Yes
J-404 "Panther" Afterburning Turbofan	Small	2 000	1.2	2 000	7	85.0 _{Mach 0} 107.9 _Mach 1.8 / 130.0 _{Mach 0} 219.5_Mach 2.5	7.22 _{Mach 0} 9.16 _Mach 1.8 / 11.04 _{Mach 0} 18.64_Mach 2.5	0.193 / 0.663	9 000 / 4 000	10.0	× No
J-X4 "Whiplash" Turbo Ramjet Engine	Small	2 250	1.8	2 000	7	130.0 _{Mach 0} 386.7 _Mach 3.0	7.36 _{Mach 0} 21.90 _Mach 3.0	0.663	4 000	1.0	× No
J-90 "Goliath" Turbofan Engine	Large	2 600	4.5	2 000	7	360.0 _{Mach 0}	8.15 _{Mach 0}	0.583	12 600	—	✓ Yes
CR-7 R.A.P.I.E.R. Engine^{[Note 1]}	Small	6 000	2.0	2 000	20	105.0 _{Mach 0} 892.5 _{Mach 3.75}	5.35 _{Mach 0} 45.49 _{Mach 3.75}	0.446	3 200	3.0	× No

Jump up ↑ The R.A.P.I.E.R. Engine is a combination of liquid fuel and jet engine. Only the jet engine properties are shown.

Solid Fuel Boosters

Solid Fuel Density is 7.5 kg/unit				Mass (t)		Max. Temp. (K)	Tolerance (m/s)	Fuel ()	Thrust (kN)		TWR				I_sp (s)		Burn (s)
Image	Part	Radial size	Cost ()	Mass (t)					Thrust (kN)		Full		Empty		I_sp (s)
Image	Part	Radial size	Cost ()	Full	Empty				atm	vac	atm	vac	atm	vac	atm	vac
	RT-5 "Flea" Solid Fuel Booster	Small	200 (116)	1.50	0.45	2 000	7	140	162.91	192.0	11.07	13.05	36.90	43.49	140	165	8.9
	RT-10 "Hammer" Solid Fuel Booster	Small	400 (175)	3.56	0.75	2 000	7	375	197.90	227.0	5.67	6.50	26.90	30.85	170	195	23.7
	BACC "Thumper" Solid Fuel Booster	Small	850 (358)	7.65	1.5	2 200	7	820	250.0	300.0	3.33	4.00	16.99	20.39	175	210	42.3
	S1 SRB-KD25k "Kickback" Solid Fuel Booster	Small	2 700 (1 140)	24.00	4.5	2 200	7	2 600	593.86	670.0	2.52	2.85	13.45	15.18	195	220	62.9
	Sepratron I	Radial mounted	75 (70)	0.0725	0.0125	2 000	7	8	13.792	18.0	19.39	112.47	25.31	146.79	118	154	5.03
	Launch Escape System^{[Note 1]}	Small	1 000 (982)	1.1	0.9	2 700	15	30	666.667	750.0	60.41	75.51	67.96	84.95	160	180	0.53

Jump up ↑ The Launch Escape System is located in category "Utility" in the game.

Ion Engines

Part	Radial size	Cost ()	Mass (t)	Thrust (kN)		TWR		I_sp (s)		Max. Consumption		Max. Temp. (K)	Tolerance (m/s)
				Thrust (kN)		TWR		I_sp (s)		Electricity (⚡/s)	Xenon (/s)
				atm	vac	atm	vac	atm	vac	Electricity (⚡/s)	Xenon (/s)
IX-6315 "Dawn" Electric Propulsion System	Tiny	8 000	0.25	0.048	2.0	0.019	0.816	100	4 200	8.74	0.486	2 000	7

Command and Control

SAS modules

Image	Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	S.A.S. level	Electricity (⚡/s)
	CH-J3 Fly-By-Wire Avionics Hub	Tiny	5 200	0.08	2 400	7	3	0.03

Reaction wheels

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Torque (kN·m)	Electricity (⚡/s)
Small Inline Reaction Wheel	Tiny	600	0.05	2 000	9	5	0.25 (15 ⚡/min)
Advanced Inline Stabilizer	Small	1 200	0.1	2 000	9	15	0.45 (27 ⚡/min)
Advanced Reaction Wheel Module, Large	Large	2 100	0.2	2 000	9	30	0.6 (36 ⚡/min)

RCS thrusters

Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Thrust (kN)	I_sp (s)
Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Thrust (kN)	atm	vac
	RV-105 RCS Thruster Block	620	0.05	1 500	15	1	100	240
	Place-Anywhere 7 Linear RCS Port	280	0.03	2 600	50	2	100	240
	Vernor Engine^{[Note 1]}	1 400	0.08	2 000	50	12	140	260

Jump up ↑ The Vernor Engine uses a liquid fuel/oxidizer mixture.

Structural

Decoupler and Separator

Decouplers stay attached to one of the parts being separated; Separators detach from both parts (floating through space as debris afterwards).

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Ejection impulse (kgF∙s)^{[Note 1]}
TT-38K Radial Decoupler	Radial mounted	600	0.025	2 000	8	250
TT-70 Radial Decoupler	Radial mounted	700	0.05	2 000	8	260
Hydraulic Detachment Manifold	Radial mounted	770	0.4	2 000	8	450
Small Hardpoint	Radial mounted	60	0.05	2 000	20	60
Structural Pylon	Radial mounted	125	0.2	2 000	70	250
TR-2V Stack Decoupler	Tiny	300	0.015	2 000	9	15
TR-2C Stack Separator	Tiny	450	0.02	2 000	9	15
TR-18A Stack Decoupler	Small	400	0.05	2 000	9	250
TR-18D Stack Separator	Small	600	0.075	2 000	9	250
Rockomax Brand Decoupler	Large	550	0.4	2 000	9	250
TR-XL Stack Separator	Large	900	0.45	2 000	9	600
TR-38-D	Extra large	600	0.8	2 000	9	100

Jump up ↑ In the game the values are without unit, but by the physics their "missing unit" is equal with 1 kgF∙s.

Adapters, Couplers & Struts

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)
FL-A10 Adapter	Small, Tiny	150	0.05	2 000	6
Rockomax Brand Adapter	Large, Small	500	0.1	2 000	6
Kerbodyne ADTP-2-3	Extra large, Large	2 600	0.2	2 000	6
FL-A5 Adapter	Small, Tiny	100	0.04	2 000	6
Rockomax Brand Adapter 02	Large, Small	450	0.08	2 000	6
EAS-4 Strut Connector	Radial mounted	42	0.05	2 000	12
Cubic Octagonal Strut		16	0.001	2 000	7
Octagonal Strut		20	0.001	2 000	7
Modular Girder Adapter	Small	50	0.25	2 000	80
Modular Girder Segment		25	0.125	2 000	80
Modular Girder Segment XL		75	0.375	2 000	80
M-Beam 650 I-Beam		50	0.08	2 000	80
M-Beam 200 I-Beam		25	0.375	2 000	80
M-Beam 200 I-Beam Pocket Edition		14	0.1875	2 000	80
The Not-Rockomax Micronode		25	0.15	2 000	15
M-1x1 Structural Panel		30	0.075	2 000	80
M-2x2 Structural Panel		90	0.3	2 000	80
BZ-52 Radial Attachment Point	Small	250	0.04	2 000	10
Rockomax HubMax Multi-Point Connector	Small	900	1.500	2 000	15
Structural Fuselage	Small	380	0.1	2 000	10
TVR-200 Stack Bi-Coupler	Small, Small x 2	400	0.1	2 000	9
TVR-1180C Mk1 Stack Tri-Coupler	Small, Small x 3	680	0.15	2 000	12
TVR-2160C Mk2 Stack Quad-Coupler	Small, Small x 4	2 000	0.175	2 000	12
TVR-200L Stack Bi-Adapter	Large, Small x 2	400	0.1	2 000	12
TVR-300L Stack Tri-Adapter	Large, Small x 3	600	0.15	2 000	12
TVR-400L Stack Quad-Adapter	Large, Small x 4	800	0.2	2 000	12

Ground Support

Image	Part	Cost ()	Max. Temp. (K)	Tolerance (m/s)
	TT18-A Launch Stability Enhancer	200	2 000	100

Aerodynamic

Air intakes

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Intake Air () (Initial/Max)	Intake Area (m²)
Small Circular Intake	Tiny	250	0.007	1 200	7	0.5 / 0.5	0.10
Circular Intake	Small	680	0.04	1 900	7	2.0 / 2.0	0.60
Adjustable Ramp Intake	Small	2 680	0.06	2 400	7	2.0 / 2.0	0.74
Shock Cone Intake	Small	3 050	0.120	2 400	7	2.0 / 2.0	0.75
Mk1 Diverterless Supersonic Intake ^{[Note 1]}	Small	720 (560)	1.18 (0.18)	2 000	10	2.0 / 2.0	0.61
Engine Nacelle^{[Note 1]}	Small	600 (480)	0.905 (0.155)	2 000	10	5.0 / 5.0	0.50
Engine Pre-cooler^{[Note 1]}	Small	1 650 (1 618)	0.35 (0.15)	2 000	10	0.5 / 0.5	0.50
XM-G50 Radial Air Intake	Radial mounted	250	0.02	2 000	10	2.0 / 2.0	0.31
Adjustable Ramp Intake (Radial)	Radial mounted	900	0.010	2 400	7	0.5 / 0.5	0.10
J-90 "Goliath" Turbofan Engine ^{[Note 2]}	Radial mounted	2 600	4.50	2 000	7	3.4 / 3.4	3.00

The values of masses in the table don't consist the mass of the intake air (5 kg/), as you can see in the SPH/VAB.

↑ ^{Jump up to: 1.0} ^1.1 ^1.2 The Mk1 Diverterless Supersonic Intake, the Engine Nacelle and Engine Pre-cooler are a combination of air intake and liquid fuel tank of 200, 160 and 40 units. Only the air intake properties are shown.
Jump up ↑ J-90 "Goliath" Turbofan Engine are a combination of engine and air intake. Only the air intake properties are shown.

Nose cones and tail connectors

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)
Small Nose Cone	Tiny	180	0.01	2 400	10
Aerodynamic Nose Cone	Small	240	0.03	2 400	10
Advanced Nose Cone - Type A	Small	320	0.075	2 000	10
Advanced Nose Cone - Type B	Small	320	0.075	2 000	10
Protective Rocket Nose Mk7	Large	450	0.2	2 400	10
Tail Connector A	Small	675	0.2	2 200	8
Tail Connector B	Small	675	0.2	2 200	8

Modular wings

Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	Dimensions (m)^{[Note 1]}
Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	L	W(/E)	SD
	Wing Connector Type A	500	0.2	2 400	15	2	2	4	—
	Wing Connector Type B	500	0.2	2 400	15	2	4	2	—
	Wing Connector Type C	250	0.1	2 400	15	1	2	2	—
	Wing Connector Type D	100	0.05	2 400	15	0.5	2	1	—
	Wing Connector Type E	100	0.05	2 400	15	0.5	1	2	—
	Delta Wing	600	0.2	2 400	15	2	4	4 / 0	—
	Small Delta Wing	200	0.05	2 400	15	0.5	2	2 / 0	—
	Wing Strake	400	0.05	2 400	15	0.5	1	4 / 0	—
	Structural Wing Type A	500	0.1	2 400	15	1	2	4 / 0	—
	Structural Wing Type B	500	0.1	2 400	15	1	4	2 / 0	—
	Structural Wing Type C	300	0.05	2 400	15	0.5	4	1 / 0	—
	Structural Wing Type D	150	0.025	2 400	15	0.25	1	2 / 0	—
	Swept Wing Type A	500	0.113	2 400	15	1.13	4	2 / 0	2
	Swept Wing Type B	500	0.226	2 400	15	2.26	4	2 / 2	2

Jump up ↑ full length, width (/width at ending), "sweeping" depth. See the wing article. The approximative values due to not being modular signed with "~".

Winglets

Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	Dimensions (m)^{[Note 1]}
Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	L	W(/E)	SD
	Basic Fin	25	0.01	934	4	0.12	~ 0.5	~ 1.2 / ~ 0	~ -0.2
	AV-T1 Winglet	500	0.04	2 400	12	0.37	~ 0.75	~ 1 / ~ 0	~ 0

Jump up ↑ full length, width (/width at ending), "sweeping" depth. See the wing article. The approximative values due to not being modular signed with "~".

Wings

Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	Dimensions (m)^{[Note 1]}
Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	L	W(/E)	SD
	Swept Wings	620	0.275	2 400	15	1.37	~ 4	~ 2 / 1	~ 2
	FAT-455 Aeroplane Main Wing	2 800	0.78 / (3.78)^{[Note 2]}	1 200	15	7.8	~ 12	~ 5 / 0.5	~ 3
	Big-S Wing Strake	920 (1 000)	0.1 (0.6)^{[Note 3]}	2 400	15	1.0	~ 1.5	~ 6.5 / 0	~ 0
	Big-S Delta Wing	2 760 (3 000)	0.5 (2.0)^{[Note 4]}	2 400	15	5.0	~ 5	~ 6 / 0	—

Jump up ↑ full length, width (/width at ending), "sweeping" depth. See the wing article. The approximative values due to not being modular signed with "~".
Jump up ↑ can hold 600 units of liquid fuel
Jump up ↑ can hold 100 units of liquid fuel
Jump up ↑ can hold 300 units of liquid fuel

Control surfaces

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Lift	Deflection Range (°)	Deflection Surface Part (%)
AV-R8 Winglet	640	0.1	2 400	12	0.5	15	95
Standard Canard	720	0.1	2 400	12	0.5	15	100
Advanced Canard	800	0.08	2 400	12	0.4	10	100
Delta-Deluxe Winglet	600	0.08	2 400	12	0.65	25	20
Tail Fin	600	0.125	2 400	12	0.61	25	100
FAT-455 Aeroplane Tail Fin	1 000	0.36	1 200	15	2.69	15	37
Big-S Spaceplane Tail Fin	2 500	0.45	2 400	15	3.49	25	29
Elevon 1	400	0.05	2 400	15	0.25	20	100
Elevon 2	550	0.06	2 400	15	0.30	20	100
Elevon 3	650	0.08	2 400	15	0.42	20	100
Elevon 4	400	0.04	2 400	15	0.18	20	100
Elevon 5	800	0.08	2 400	15	0.4	20	100
Big-S Elevon 1	950	0.15	2 400	15	0.77	25	100
Big-S Elevon 2	1 300	0.23	2 400	15	1.16	25	100
FAT-445 Aeroplane Control Surface	800	0.17	1 200	15	0.86	15	100
A.I.R.B.R.A.K.E.S^{[Note 1]}	1000	0.05	1 200	8	0.38	70	100

Jump up ↑ A.I.R.B.R.A.K.E.S are classified as an "Aero Surface" in the part configuration files and in-game.

Fairings

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Max Radius (m)	Panel mass (t/m²)	Panel Cost (/m²)
AE-FF1 Airstream Protective Shell (1.25m)	Small	900	0.08	2 600	9	1.5	0.015	6.00
AE-FF2 Airstream Protective Shell (2.5m)	Large	900	0.175	2 600	9	3	0.020	12
AE-FF3 Airstream Protective Shell (3.75m)	Extra large	900	0.475	2 600	9	6	0.03	18

Heat shields

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Ablator
Heat Shield (1.25m)	Small	300 (200)	0.3 (0.1)	3 300	9	200
Heat Shield (2.5m)	Large	600 (200)	1.3 (0.5)	3 300	9	800
Heat Shield (3.75m)	Extra large	900 (0)	2.8 (1.0)	3 300	9	1 800

Utility

Landing gears

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Steerable
LY-01 Fixed Landing Gear	100	0.05	1 000	25	× No
LY05 Steerable Landing Gear	150	0.04	1 000	25	✓ Yes
LY-10 Small Landing Gear	450	0.04	2 500	50	✓ Yes
LY-50 Medium Landing Gear	700	0.25	2 600	50	× No
LY-99 Large Landing Gear	1 200	0.6	2 700	70	× No

Landing legs

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)
LT-1 Landing Struts	440	0.05	2 000	12
LT-2 Landing Strut	340	0.1	2 000	12
LT-05 Micro Landing Strut	200	0.015	1 200	10

Parachutes

					Max. Temp. (K) (canopy)	Tolerance (m/s)	Effective Diameter		Semi-Deploy Pressure (atm) ^{[Note 1]}	Full-Deploy Altitude (m AGL) ^{[Note 1]}
Image	Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K) (canopy)	Tolerance (m/s)	Semi- -Deployed	Fully Deployed	Semi-Deploy Pressure (atm) ^{[Note 1]}	Full-Deploy Altitude (m AGL) ^{[Note 1]}
	Mk16 Parachute	Tiny	422	0.1	2 500 (650)	12	0.4	20.7	0.04	1 000
	Mk16-XL Parachute	Small	850	0.3	2 500 (650)	12	1.3	37.8	0.04	1 000
	Mk2-R Radial-Mount Parachute	Radial mounted	400	0.1	2 500 (650)	12	0.8	30.4	0.04	1 000
	Mk25 Parachute	Small	400	0.2	2 500 (2500)	12	0.7	4.7	0.02	2 500
	Mk12-R Radial-Mount Drogue Chute	Radial mounted	300	0.075	2 500 (2200)	12	0.7	5.6	0.02	2 500

↑ ^{Jump up to: 1.0} ^1.1 This setting is tweakable

Ladders

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)
Pegasus I Mobility Enhancer	100	0.005	2 000	8
Telus Mobility Enhancer	350	0.005	2 000	8
Telus-LV Bay Mobility Enhancer	440	0.005	2 000	8

Electricity

Generators

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Electricity (⚡/s)	Electricity per mass (⚡/(s·t))	Fuel consumption (/⚡)
Gigantor XL Solar Array	3 000	0.3	1 200	8	24.4^{[Note 1]}	81.33	—
OX-4W 2x3 Photovoltaic Panels	380	0.0175	1 200	8	1.64^{[Note 1]}	93.71	—
OX-4L 1x6 Photovoltaic Panels	380	0.0175	1 200	8	1.64^{[Note 1]}	93.71	—
SP-W 2x3 Photovoltaic Panels	440	0.025	2 000	8	1.64^{[Note 1]}	65.60	—
SP-L 1x6 Photovoltaic Panels	440	0.025	2 000	8	1.64^{[Note 1]}	65.60	—
OX-STAT Photovoltaic Panels	75	0.005	1 200	8	0.35^{[Note 1]}	70.0	—
PB-NUK Radioisotope Thermoelectric Generator	23 300	0.08	1 200	7	0.75	9.38	—
Fuel Cell	750	0.05	2 000	7	1.50	30.0	0.001125 LF 0.001375 Ox
Fuel Cell Array	4 500	0.24	2 000	7	18.00	75.0	0.001125 LF 0.001375 Ox
LV-T30 "Reliant" Liquid Fuel Engine	1 100	1.25	2 000	7	7.00	5.60	0.939 LF 1.147 Ox
LV-T45 "Swivel" Liquid Fuel Engine	1 200	1.5	2 000	7	6.00	4.00	0.955 LF 1.167 Ox
S3 KS-25 "Vector" Liquid Fuel Engine	18 000	4.0	2 000	22	3.00	0.75	9.699 LF 11.854 Ox
T-1 Toroidal "Aerospike" Liquid Fuel Engine	3 850	1.0	2 000	20	5.00	5.00	0.970 LF 1.186 Ox
LV-N "Nerv" Atomic Rocket Motor^{[Note 2]}	10 000	3.0	2 500	12	5.00	1.67	0.306 LF
Rockomax "Poodle" Liquid Engine	1 300	1.75	2 000	7	8.00	4.57	0.818 LF 1.000 Ox
Rockomax "Skipper" Liquid Engine	5 300	3	2 000	8	10.00	3.33	1.861 LF 2.275 Ox
Rockomax "Mainsail" Liquid Engine	13 000	6	2 000	7	12.00	2.00	3.696 LF 4.517 Ox
Kerbodyne KR-2L+ "Rhino" Liquid Fuel Engine	25 000	9	2 000	7	12.00	1.33	4.493 LF 5.491 Ox
S3 KS-25x4 "Mammoth" Liquid Fuel Engine	39 000	15	2 000	20	12.00	0.80	9.698 LF 11.853 Ox
J-20 "Juno" Basic Jet Engine	450	0.25	2 000	7	1.00	4.00	0.064 LF
J-33 "Wheesley" Turbofan Engine	1440	1.5	2 000	7	4.00	2.67	0.0583 LF
J-404 "Panther" Afterburning Turbofan	2 000	1.2	2 000	7	5.00 / 3	4.17 / 2.50	0.0386 LF / 0.1326 LF
J-X4 "Whiplash" Turbo Ramjet Engine	2 250	1.8	2 000	7	5.00	2.78	0.1326 LF
J-90 "Goliath" Turbofan Engine	2 600	4.5	2 000	7	16.00	3.56	0.0364 LF

↑ ^{Jump up to: 1.0} ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 Energy output depends on the distance and angle to the Sun. The value is achieved at Kerbin's distance, with the panel pointed directly at the Sun.
Jump up ↑ Consumes liquid fuel only.

Batteries

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Capacity (⚡)
Z-100 Rechargeable Battery Pack	Radial mounted	80	0.005	1 200	8	100
Z-200 Rechargeable Battery Bank	Tiny	360	0.01	2 000	8	200
Z-400 Rechargeable Battery	Radial mounted	550	0.02	1 200	8	400
Z-1k Rechargeable Battery Bank	Small	880	0.05	2 000	8	1 000
Z-4K Rechargeable Battery Bank	Large	4 500	0.2	2 000	8	4 000

Lights

Image	Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Electricity (⚡/s)
	Illuminator Mk1	100	0.015	2 000	8	0.04 (2.4 ⚡/min)
	Illuminator Mk2	100	0.015	2 000	8	0.02 (1.2 ⚡/min)

Docking

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)
Clamp-O-Tron Jr.	Tiny	800	0.02	2 000	10
Clamp-O-Tron Docking Port	Small	280	0.05	2 000	10
Clamp-O-Tron Shielded Docking Port	Small	400	0.1	2 400	10
Clamp-O-Tron Sr. Docking Port	Large	980	0.2	2 000	20
Inline Clamp-O-Tron	Small	700	0.3	2 000	10
Mk2 Clamp-O-Tron^{[Note 1]}	Mk2	850 (760)	0.6 (0.3)	2 200	50
Advanced Grabbing Unit	Small	450	0.075	2 000	50

Jump up ↑ The Mk2 Clamp-O-Tron is a combination of docking port and monopropellant tank of 75 units. Only the docking port properties are shown.

Habitation module

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Crew capacity
PPD-10 Hitchhiker Storage Container	Large	4 000	2.5	1 000 / 2 000	6	4
Mk1 Crew Cabin	Small	550	1.0	1 000 / 2 000	40	2
Mk2 Crew Cabin	Mk2	4 200	2.0	1 400 / 2 500	45	4
Mk3 Passenger Module	Mk3	30 000	6.5	1 500 / 2 700	60	16

Cargo bays / Service bays

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Capacity
Mk2 Cargo Bay CRG-04	Mk2	320	0.25	2 500	50	⌀1.25x1.875 m (FL-T400)
Mk2 Cargo Bay CRG-08	Mk2	500	0.5	2 500	50	⌀1.25x3.75 m (FL-T800)
Mk3 Cargo Bay CRG-25	Mk3	750	1.5	2 700	50	⌀2.50x2.50 m (1⅓ x X200-16)
Mk3 Cargo Bay CRG-50	Mk3	1 500	3.0	2 700	50	⌀2.50x5.00 m (1⅓ x X200-32)
Mk3 Cargo Bay CRG-100	Mk3	3 000	6.0	2 700	50	⌀2.50x10.00 m (1⅓ x Jumbo-64)
Mk3 Cargo Ramp	Mk3	3 000	4.0	2 700	50	⌀2.50x~
Service Bay (1.25m)	Small	500	0.1	2 900	14	⌀1.25x0.50 m (~ FL-T100)
Service Bay (2.5m)	Large	500	0.3	2 900	14	⌀2.50x1.10 m ( ~ X200-8)

Rover wheels

Part	Cost ()	Mass (t)	Electricity (⚡/s)	Top speed (m/s)	Breakdown speed (m/s)
RoveMax Model S2	300	0.05	0.50	10	20
RoveMax Model M1	450	0.075	1.00	21	60
TR-2L Ruggedized Vehicular Wheel	580	0.05	0.70	23	60
RoveMax Model XL3	1 200	1.25	2.00	12	30

Resource harvesters

Image	Part	Cost ()	Mass (t)	Electricity (⚡/s)
	'Drill-O-Matic Junior' Mining Excavator	1 000	0.25	3
	'Drill-O-Matic' Mining Excavator	6 000	1.25	15

Converters

Image	Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Electricity (⚡/s)
	Convert-O-Tron 125	Small	1 000	1.25	2 000	7	30
	Convert-O-Tron 250	Large	8 000	4.25	2 000	7	30

Radiators

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Deployable
Radiator Panel (edge)	450	0.03	2 500	12	No
Radiator Panel (small)	150	0.01	2 500	12	No
Radiator Panel (large)	450	0.1	2 500	12	No
Thermal Control System (small)	450	0.05	2 500	12	Yes
Thermal Control System (medium)	2 250	0.25	2 500	12	Yes
Thermal Control System (large)	9 000	1.0	2 500	12	Yes

Science

These parts are used to do science and are most useful in the career and science game modes.

Communications

Part	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Electricity (⚡/Mit)	Net transmission speed (Mits/s)
Communotron 16	300	0.005	2 000	7	6 (20 ⚡/s)	3.33
Comms DTS-M1	600	0.03	2 000	8	6 (24 ⚡/s)	5.71
Communotron 88-88	1 100	0.025	2 000	7	10 (200 ⚡/s)	20.00

Labs

Image	Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)
	Mobile Processing Lab MPL-LG-2	Large	4 000	3.5	2 000	6

Sensors

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Electricity (⚡/s)	Data size (Mits)	Experiment (Base Science Value)
SC-9001 Science Jr	Small	880	0.2	1 200	6	—	25	Materials Study (25)
Mystery Goo™ Containment Unit	Radial mounted	800	0.05	1 200	12	—	10	Mystery Goo Observation (10)
Double-C Seismic Accelerometer	Radial mounted	6 000	0.01	1 200	8	0.0075 (0.45 ⚡/min)	50	Seismic Scan (20)
PresMat Barometer	Radial mounted	3 300	0.01	1 200	8	0.0075 (0.45 ⚡/min)	12	Atmospheric Pressure Scan (12)
GRAVMAX Negative Gravioli Detector	Radial mounted	8 800	0.01	1 200	8	0.0075 (0.45 ⚡/min)	60	Gravity Scan (20)
2HOT Thermometer	Radial mounted	900	0.01	1 200	8	0.0075 (0.45 ⚡/min)	8	Temperature Scan (8)
Atmospheric Fluid Spectro-Variometer	Radial mounted	6 500	0.01	1 200	8	—	200	Atmosphere Analysis (20)

Resource scanners

Part	Radial size	Cost ()	Mass (t)	Max. Temp. (K)	Tolerance (m/s)	Scanning mode	Scanning resource	Max. altitude (m)
M700 Survey Scanner	Small	1 500	0.2	2 000	7	Orbital	All	1 500 000
M4435 Narrow-Band Scanner	Small	1 000	0.1	2 000	7	Surface	Ore	500 000
Surface Scanning Module	Radial mounted	800	0.01	2 000	7	Surface	Ore	1 000

Credit: KSP Wiki

cubinator · April 12, 2016

On 4/11/2016 at 1:45 AM, spacebrick3 said:

WARNING! THE MAGIC BOULDER IS A HIGHLY FLAMMABLE OBJECT! CONTACT WITH ANY OF THE PARTS LISTED BELOW CAN CAUSE FIRE AND/OR EXPLOSIONS!

*snip*

I question the circumstances under which the Magic Boulder would come into contact with a Launch Stability Enhancer...

Do not attempt to move Magic Boulder! You will be put on the Naughty List!

max_creative · April 17, 2016

On April 12, 2016 at 1:19 PM, cubinator said:

Do not attempt to move Magic Boulder! You will be put on the Naughty List!

Do not put the magic Boulder on the naughty list!

cubinator · April 18, 2016

1 hour ago, max_creative said:

Do not put the magic Boulder on the naughty list!

Do not attach the Naughty List to the Magic Boulder!

max_creative · April 18, 2016

Do not attach the nice list to the magic Boulder either!

EliasDanger · April 18, 2016

Do not let the magic boulder smell your fear...If the magic boulder charges you, stand your ground, only because there's no point in running.

Do not fondle the magic boulder...it is not fond of fondling.

Do not use magic on the magic boulder....it's magic enough.

Do not whisper sweet nothing's into the boulder's ear. First of all, that's not it's ear. Second, the magic boulder will not think twice to slap you back. And then it will smell your fear.

Do not imply the magic boulder is not magic while you are within ear shot of the magic boulder. In fact, never imply the magic boulder is not magic at all. It will hear you wherever you are. It is magic.

Servo · April 23, 2016

Do not feed the magic boulder potatoes, even if you have been trapped on Duna for a few years.

max_creative · April 23, 2016

Do not let the magic Boulder on the ksp forums.

Or near Dres. Seriously, I think Spud is getting annoyed that it keeps having to throw nyan cat at Dres haters.

cubinator · April 23, 2016

Do not, under any circumstances, mention Dres near the Magic Boulder.

max_creative · April 23, 2016

Dres.

spacebrick3 · April 23, 2016

Do not make the Magic Boulder confuse Dres with Ike.

max_creative · April 23, 2016

Do not do "magic Boulder vs. kraken"

EliasDanger · April 23, 2016

Do not overpost near the Magic Boulder.

Edited April 23, 2016 by EliasDanger

max_creative · April 23, 2016

Do tell the magic boulder that it is better than the kraken because of this.

Do Not Taunt the Magic Boulder!

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Evike.com Special Edition Tactical Airsoft Caddie

Features:

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Liquid fuel tanks (Jet fuel fuselages)

Fuel transfer

Command and Control

SAS modules

RCS thrusters

Structural

Decoupler and Separator

Adapters, Couplers & Struts

Ground Support

Aerodynamic

Utility

Generators

Cargo bays / Service bays

Science

Labs

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