Difference between revisions of "Parts"

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[[File:Vostok-ground.jpg|right|thumb|A three-stage rocket featuring default parts of version 0.18.4]]
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{{Box|type=disambig|If you're looking for '''Kerbal Space Program 2''' parts, you can try its [[KSP 2 parts|respective page]]<br>If you're looking for '''Breaking Ground''' parts, you can try its [[Breaking Ground parts|respective page]]<br>If you're looking for '''Making History''' parts, you can try its [[Making History parts|respective page]]}}
'''Parts''' are the basic assembly items for rocket and space plane construction in ''[[Kerbal Space Program]]''. As a whole, they compose the building materials the player can choose from in the [[Vehicle Assembly Building]] and [[Space Plane Hangar]]. Parts are split up into seven major categories: pods, propulsion, control, structural, aerodynamic, utility, and science. The full game has 142 parts to choose from (as of {{version|0.19.1}}); the latest demo version ({{version|0.18.3|}}) has [[Demo Parts|25 parts]].
 
  
The parts below are sometimes called '''vanilla parts''', '''default parts''', or '''stock parts''' in order to distinguish them from parts in 3rd-party mods.
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[[File:part icon.png|left|link=]]
 +
[[File:Learstar A1.jpg|thumb|right|The [[Stock craft|stock]] spaceplane "[[Learstar A1]]" featuring various default parts]]
 +
[[File:Kerbal x launchpad.png|thumb|right|The multi-stage stock rocket "[[Kerbal X]]" featuring various default parts]]
  
= Units of measure =
+
'''Parts''' are the basic assembly items for [[craft]] ([[rocket]], [[spaceplane]], [[lander]], etc) construction in [[Kerbal Space Program]]. As a whole, they compose the building materials the player can choose from in the '''Editor''' ([[Vehicle Assembly Building]], [[Space Plane Hangar]] and [[EVA Construction Mode|construction mode in outer space]]). Creating a spacecraft is similar to playing a children's construction kit. You need to take one part after another and connect them using special green [[CFG_File_Documentation#Node_Definitions|attachment nodes]], or some parts can be glued to the surface of other parts (the so-called "Radial mounted").
Ship mass is specified in [[w:Metric_tonne|metric tons (t)]], and engine thrust is measured in [[w:Newton_(unit)#Common_use_of_kilonewtons_in_construction|kilonewtons (kN)]].
 
  
'''[[Terminology#TWR|Thrust to weight ratio]]''' (TWR) at sea level on [[Kerbin]] is calculated by the following equation, which applies only to liquid or solid fuel rocket engines, because Jet engines use a complicated formula on a vehicle to vehicle basis.
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The Kerbal Space Program includes many [[Stock craft|stock spacecrafts]] of various types, created from default parts, which can be uploaded to the [[Vehicle Assembly Building]], or the [[Space Plane Hangar]] in order to study and understand the principles of assembling vechiles in the game.
  
:<math>\frac{T}{W}=\frac{T}{m \cdot g_0}</math>
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The default game (without DLC "[[Breaking Ground]]" and "[[Making History]]") has 368 parts to choose from (as of {{version|1.12.5}}); the latest demo {{version|1.0}} has [[Demo parts|26 parts]]. Default game parts are split up into fifteen major categories:
 +
*[[Parts#Pods|Pods]],
 +
*[[Parts#Fuel tanks|Fuel Tanks]],
 +
*[[Parts#Engines|Engines]],
 +
*[[Parts#Command and control|Command and Control]],
 +
*[[Parts#Structural|Structural]],
 +
*[[Parts#Coupling|Coupling]],
 +
*[[Parts#Payload|Payload]],
 +
*[[Parts#Aerodynamic|Aerodynamics]],
 +
*[[Parts#Ground|Ground]],
 +
*[[Parts#Thermal|Thermal]],
 +
*[[Parts#Electrical|Electrical]],
 +
*[[Parts#Communication|Communication]],
 +
*[[Parts#Science|Science]],
 +
*[[Parts#Cargo|Cargo]],
 +
*[[Parts#Utility|Utility]].
  
where:
+
__TOC__
:<math>T</math> is the thrust obtained from the engine, in [[w:newton (unit)|kilonewton]]s.
 
:<math>W</math> is the [[w:Weight|weight]] of the engine at sea level on Kerbin's surface in kilonewtons.
 
:<math>m</math> is the [[w:Mass|mass]] of the engine in metric tons (t).
 
:<math>g_0</math> is the acceleration at sea level on Kerbin's surface: 9.81 m/s².
 
  
This TWR applies only on Kerbin's surface. At other locations the weight differs because the gravitational acceleration is different.
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== Historical reference ==
 +
The parts in the game generally resemble those of the American Space Program ([[w:NASA|NASA]]) during the 1950s-1970s, the [[w:European_Space_Agency|ESA]] in the near past and Soviet (USSR) [[w:Soviet_space_program|cosmonautics]]<ref><small>In the Soviet Union, there was no such English-language term as "Soviet space program", which is listed on Wikipedia. Everything related to space flights and their provision was called "cosmonautics"</small></ref> during the 1950s, for instance, the Mk1-3 Command Pod resembles the [[w:Apollo Command Module|Apollo Command Module]], the Mk1 Command Pod resembles the [[w:Mercury Capsule|Mercury Capsule]], and many LV-series engines resemble [[w:Atlas_(rocket_family)|American-built]] rocket parts. Kerbodyne rocket parts are virtually indistinguishable from real [[w:Rocketdyne|NASA rocket parts]] and Stayputnik resembles Soviet [[w:Sputnik 1|Sputnik 1]].
  
'''[[w:Specific_impulse|Specific impulse]]''' at is calculated by the following equation. To reduce confusion about the unit of measurement, specific impulse could be given in velocity or time units. In game the specific impulse is specified in seconds.
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== Properties of the parts ==
 +
Since the [[KSP]] is a simulator, all the parts have a variety of properties to simulate their pseudo-real interaction with each other and with other objects in the KSP universe. The most widespread properties of parts that determine their physical characteristics are the mass of the part, the maximum temperature that the part can withstand without collapsing, the maximum tolerance to kinetic action ("tolerance impact"), which for convenience is expressed in meters per second, as well as drag. Some parts have been made [[physicsless part|physicsless]] to improve performance in the game from {{Version|0.23}} onwards. These parts add their mass and drag to their parent part, unless they become the root part of a vessel.
  
:<math>I_{sp}= \frac{T}{\dot m \cdot g_0} = [s]</math> <span style="padding-right:1em;padding-left:1em;">or</span> <math>I_{sp}= \frac{T}{\dot m} = \left[\frac{m}{s}\right]</math>
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One of the most important properties of parts is their [[radial size]], which determines the transverse radius of the part. The radial size allows you to classify parts. The harmonious concept of any spacecraft implies connecting parts of the same radial size to each other, or using intermediate [[adapter]]s for a smooth transition from one size to another.
  
where:
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When playing in the "[[Career]]" mode, the monetary unit of the KSP universe with the name "[[Funds]]" ({{mark|fund}}) is introduced into the game, and then the following properties of the parts become relevant: the cost of the part and the cost of unlocking the part.
:<math>I_{sp}</math> is the specific impulse measured in seconds.
 
:<math>T</math> is the thrust obtained from the engine, in [[w:newton (unit)|kilonewton]]s.
 
:<math>\dot m</math> is the [[w:mass flow rate|mass flow rate]] in Mg/s, which is negative the time-rate of change of the vehicle's mass since propellant is being expelled. The total and dry mass are given in megagrams (metric tons, t).
 
::<math>\dot m = \frac{\text{Total Mass} - \text{Dry Mass}}{\text{Burn Time}} = \left[\frac{Mg}{s}\right]</math>
 
:<math>g_0</math> is the acceleration at sea level on [[Kerbin|Kerbin's]] surface: 9.81 m/s².
 
  
The gravitational acceleration at sea level is only a conversion factor between the velocity and time unit. Because of this it won't change when the craft is not at Kerbin's surface. To convert the specific impulse from a time unit into a velocity unit multiply it with <math>g_0</math> to cancel out this factor.
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Many parts have some [[resource]] storing capacity, which makes the mass and the cost different in full and empty state. In this case the full is shown without brackets first, and the empty values are in round brackets under the full values. Some properties, like the entry cost, are not included, but can be found in the part-box on right side of the part's page.
  
= Pods =
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A kerbal inventory system added new properties to the parts. Now, additionally, the parts have received a "packed volume", which affects the ability to place the part inside another part with inventory slots, and "stacking capacity", which shows how many parts of the same name can be stored simultaneously in one inventory slot. Some parts, such as command modules, Habitation modules, cargo storage units, etc., have inventory slots and can store other parts inside. For such details, there are "volume limit" properties that show the limit value of the volume that can be stored in one event inventoru slot.
{{Stats Table Command Pods}}
 
Command pods come with both user accessible "magic torque" (rotForce), and an SAS module that acts as a PD controller.
 
  
= Propulsion =
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== Tables of Parts ==
{{:Parts/Propulsion|{{SUBPAGENAME}}}}
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In the tables are the main properties of the parts. In most cases the tables follows the categorization structure of the game. In case of deviation, the position in part board of the game is noted.
  
= Control =
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<!-- It is advisable to indicate all content concerning individual sections on separate pages of the relevant sections {{:Parts/....}} -->
{{:Parts/Command_&_Control|{{SUBPAGENAME}}}}
 
  
= Structural =
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=== <span id="Pods"> <u>[[Command module|Pods]]</u> </span> ===
{{:Parts/Structural_&_Aerodynamic|{{SUBPAGENAME}}}}
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This category contains the main details of any [[craft]], from which the creation should begin. Please note that the [[EAS-1 External Command Seat]] cannot be the main part of the spacecraft.  And if there is only one on the spaceship, then the ship will be out of control.<br>
 +
With {{version|0.90}}, unmanned command modules vary in [[SAS]] capabilities (see [[command module]] for details.)
 +
{{:Parts/Pods}}
  
= Aero =
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=== <span id="Fuel tanks"> <u>[[Fuel tank|Fuel Tanks]]</u> </span> ===
==== Engine Bodies & Air Intakes ====
+
{{:Parts/Fuel Tanks}}
  
{{Stats Table Engine Bodies & Air Intakes|{{SUBPAGENAME}}}}
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=== <span id="Engines"> <u>[[Engine]]s</u> </span> ===
 +
{{:Parts/Engines}}
  
==== Nose Cones ====
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=== <span id="Command and control"> <u>Command and Control</u> </span> ===
 +
{{:Parts/Command & Control}}
  
{{Stats Table Nose Cones|{{SUBPAGENAME}}}}
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=== <u>Structural</u> ===
 +
{{:Parts/Structural}}
  
==== Wings and Wing Parts ====
+
=== <u>Coupling</u> ===
 +
{{:Parts/Coupling}}
  
{{Stats Table Wings|{{SUBPAGENAME}}}}
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=== <u>Payload</u> ===
 +
{{:Parts/Payload}}
  
 +
=== <span id="Aerodynamic"> <u>Aerodynamics</u> ===
 +
{{:Parts/Aerodynamic}}
  
==== Controlled wings and surfaces ====
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=== <u>Ground</u> ===
 +
{{:Parts/Ground}}
  
{{Stats Table Control Surfaces|{{SUBPAGENAME}}}}
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=== <u>Thermal</u> ===
 +
{{:Parts/Thermal}}
  
= Utility =
+
=== <u>Electrical</u> ===
{{:Parts/Utility_&_Scientific|{{SUBPAGENAME}}}}
+
{{:Parts/Electrical}}
  
= Scientific =
+
=== <u>Communication</u> ===
==== Antennas ====
+
{{:Parts/Communication}}
{{Stats Table Antenna}}
+
 
==== Sensors ====
+
=== <u>Science</u> ===
{{Stats Table Sensors}}
+
These parts are used to do [[science]] and are most useful in the [[career]] and [[Science mode|science]] game modes.
 +
{{:Parts/Scientific}}
 +
 
 +
===<span id="Cargo"> <u>[[Cargo item|Cargo]]</u> ===
 +
{{:Parts/Cargo}}
 +
 
 +
=== <u>Utility</u> ===
 +
This category provides details of auxiliary systems that are not directly involved in creating the motion of the spacecraft, but nevertheless help to successfully complete the mission.
 +
{{:Parts/Utility}}
 +
 
 +
== References ==
 +
<references />
 +
{{Parts |state=collapsed}}
 +
[[Category:Parts]]

Latest revision as of 15:16, 1 October 2024

If you're looking for Kerbal Space Program 2 parts, you can try its respective page
If you're looking for Breaking Ground parts, you can try its respective page
If you're looking for Making History parts, you can try its respective page
Part icon.png
The stock spaceplane "Learstar A1" featuring various default parts
The multi-stage stock rocket "Kerbal X" featuring various default parts

Parts are the basic assembly items for craft (rocket, spaceplane, lander, etc) construction in Kerbal Space Program. As a whole, they compose the building materials the player can choose from in the Editor (Vehicle Assembly Building, Space Plane Hangar and construction mode in outer space). Creating a spacecraft is similar to playing a children's construction kit. You need to take one part after another and connect them using special green attachment nodes, or some parts can be glued to the surface of other parts (the so-called "Radial mounted").

The Kerbal Space Program includes many stock spacecrafts of various types, created from default parts, which can be uploaded to the Vehicle Assembly Building, or the Space Plane Hangar in order to study and understand the principles of assembling vechiles in the game.

The default game (without DLC "Breaking Ground" and "Making History") has 368 parts to choose from (as of version 1.12.5); the latest demo version 1.0 has 26 parts. Default game parts are split up into fifteen major categories:

Historical reference

The parts in the game generally resemble those of the American Space Program (NASA) during the 1950s-1970s, the ESA in the near past and Soviet (USSR) cosmonautics[1] during the 1950s, for instance, the Mk1-3 Command Pod resembles the Apollo Command Module, the Mk1 Command Pod resembles the Mercury Capsule, and many LV-series engines resemble American-built rocket parts. Kerbodyne rocket parts are virtually indistinguishable from real NASA rocket parts and Stayputnik resembles Soviet Sputnik 1.

Properties of the parts

Since the KSP is a simulator, all the parts have a variety of properties to simulate their pseudo-real interaction with each other and with other objects in the KSP universe. The most widespread properties of parts that determine their physical characteristics are the mass of the part, the maximum temperature that the part can withstand without collapsing, the maximum tolerance to kinetic action ("tolerance impact"), which for convenience is expressed in meters per second, as well as drag. Some parts have been made physicsless to improve performance in the game from version 0.23 onwards. These parts add their mass and drag to their parent part, unless they become the root part of a vessel.

One of the most important properties of parts is their radial size, which determines the transverse radius of the part. The radial size allows you to classify parts. The harmonious concept of any spacecraft implies connecting parts of the same radial size to each other, or using intermediate adapters for a smooth transition from one size to another.

When playing in the "Career" mode, the monetary unit of the KSP universe with the name "Funds" (Funds) is introduced into the game, and then the following properties of the parts become relevant: the cost of the part and the cost of unlocking the part.

Many parts have some resource storing capacity, which makes the mass and the cost different in full and empty state. In this case the full is shown without brackets first, and the empty values are in round brackets under the full values. Some properties, like the entry cost, are not included, but can be found in the part-box on right side of the part's page.

A kerbal inventory system added new properties to the parts. Now, additionally, the parts have received a "packed volume", which affects the ability to place the part inside another part with inventory slots, and "stacking capacity", which shows how many parts of the same name can be stored simultaneously in one inventory slot. Some parts, such as command modules, Habitation modules, cargo storage units, etc., have inventory slots and can store other parts inside. For such details, there are "volume limit" properties that show the limit value of the volume that can be stored in one event inventoru slot.

Tables of Parts

In the tables are the main properties of the parts. In most cases the tables follows the categorization structure of the game. In case of deviation, the position in part board of the game is noted.


Pods

This category contains the main details of any craft, from which the creation should begin. Please note that the EAS-1 External Command Seat cannot be the main part of the spacecraft. And if there is only one on the spaceship, then the ship will be out of control.
With version 0.90, unmanned command modules vary in SAS capabilities (see command module for details.)

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Torque
(kN · m)
S.A.S.
level
Required Crew/
Power
Capacity
(⚡)
MK1COCKPIT.png
Mk1 Cockpit Small 1 250
(1 241)
1.28
(1.25)
2 000
(1 100)
40 50 10 Crew[Note 1] Crew 50 ⚡
7.5 Units of fuel MP
Mk1 Inline Cockpit.png
Mk1 Inline Cockpit Small 1 600
(1 591)
1.03
(1.00)
2 000
(1 100)
40 50 10 Crew[Note 1] Crew 50 ⚡
7.5 Units of fuel MP
Mk2 Cockpit.png
Mk2 Cockpit Mk2 3 500
(3 482)
2.06
(2.00)
2 500
(1 400)
45 50 15 Crew[Note 1] Crew + Crew 150 ⚡
15 Units of fuel MP
Mk2 InlineCockpit.png
Mk2 Inline Cockpit Mk2 3 500
(3 470)
2.10
(2.00)
2 500
(1 400)
45 50 15 Crew[Note 1] Crew + Crew 150 ⚡
25 Units of fuel MP
Mk3 Cockpit.png
Mk3 Cockpit Mk3, Small 10 000
(9 880)
3.90
(3.50)
2 700
(1 500)
50 50 40/40/20[Note 2] Crew[Note 1] Crew + CrewCrewCrew 500 ⚡
100 Units of fuel MP
Mk1CommandPod Dark.png
Mk1 Command Pod Small, Tiny 600
(588)
0.84
(0.80)
2 200
(1 200)
14 50 5 Crew[Note 1] Crew 50 ⚡
10 Units of fuel MP
Mk1-3CommandPod.png
Mk1-3 Command Pod Large, Small 3 800
(3 764)
2.72
(2.60)
2 400
(1 400)
45 50 15 Crew[Note 1] Crew + CrewCrew 150 ⚡
30 Units of fuel MP
LanderCanMK1.png
Mk1 Lander Can Small 1 500
(1 482)
0.66
(0.60)
2 000
(1 000)
8 50 3 Crew[Note 1] Crew 50 ⚡
15 Units of fuel MP
Mk2canN.png
Mk2 Lander Can Large 3 250
(3 202)
1.515
(1.355)
2 000
(1 200)
8 50 15 Crew[Note 1] Crew + Crew 100 ⚡
40 Units of fuel MP
Cupola.PNG
PPD-12 Cupola Module Large, Small 3 200
(3 188)
1.80
(1.76)
2 000
(1 000)
8 50 9 Crew[Note 1] Crew 200 ⚡
10 Units of fuel MP
Commandseat.png
EAS-1 External Command Seat Radial mounted 200 0.05 1 200 6 50 Crew[Note 1] Crew
RoveMate White.png
Probodobodyne RoveMate Small 800 0.15 1 200 12 50 0 2.4 ⚡/min
(144 ⚡/h)
120 ⚡
QBE.png
Probodobodyne QBE Tiny 360 0.07 1 200 15 50 0 1.5 ⚡/min
(90 ⚡/h)
5 ⚡
HECS.png
Probodobodyne HECS Tiny 650 0.1 1 200 12 50 0.5 1 1.5 ⚡/min
(90 ⚡/h)
10 ⚡
OKTO.png
Probodobodyne OKTO Tiny 450 0.1 1 200 12 50 0.3 0 1.2 ⚡/min
(72 ⚡/h)
10 ⚡
OKTO2.png
Probodobodyne OKTO2 Tiny 1 480 0.04 1 200 12 50 2 1.8 ⚡/min
(108 ⚡/h)
5 ⚡
Stayputnik.png
Probodobodyne Stayputnik Tiny 300 0.05 1 800 12 50 1.67 ⚡/min
(100 ⚡/h)
10 ⚡
HECS2.png
Probodobodyne HECS2 Small 7 500 0.2 2 000 8 50 10 3 3.0 ⚡/min
(180 ⚡/h)
1 000 ⚡
Probestack.png
RC-001S Remote Guidance Unit Small 2 250 0.1 2 000 9 50 0.5 3 3.0 ⚡/min
(180 ⚡/h)
15 ⚡
Probehuge.png
RC-L01 Remote Guidance Unit Large 3 400 0.5 2 000 9 50 1.5 3 4.8 ⚡/min
(288 ⚡/h)
30 ⚡
MK2 Drone Core.png
MK2 Drone Core Mk2 2 700 0.2 2 500 20 50 15/3/3[Note 2] 3 3.0 ⚡/min
(180 ⚡/h)
250 ⚡
MPO.png
MPO Probe Small 9 900
(9 854)
0.895
(0.395)
2 200 9 50 6 3 3.0 ⚡/min
(180 ⚡/h)
1 000 ⚡
45 Units of fuel LF
55 Units of fuel O
MTM.png
MTM Stage Small 21 500
(6 300)
0.795
(0.415)
2 200 12 50 12 2 1.8 ⚡/min
(108 ⚡/h)
4 000 ⚡
3 800 Xenon unit XE
  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 In the "Career" mode in manned command modules, the performance and functionality of the SAS is determined by the presence of at least one kerbonaut with the specialization "Pilot" and the level of his specialization. In the "Science" and "Sandbox" modes, a kerbonaut with any specialization can use all the functionality of the SAS on board the manned command module without restrictions.
  2. 2.0 2.1 Torque differs between axes. These numbers are for pitch/yaw/roll respectively.


Fuel Tanks

Rocket fuel tanks

Liquid fuel and oxidizer density are both 5 kg/unit Mass
(t)
Liquid
Fuel

(Units of fuel)
Oxidizer
(Units of fuel)
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
R-4 FT.png
R-4 'Dumpling' External Tank X 50
(39.90)
0.1238 0.0138 2 000 5 50 9.9 12.1
R-11 FT.png
R-11 'Baguette' External Tank X 50
(25.21)
0.3038 0.0338 2 000 5 50 24.3 29.7
R-12 FT.png
R-12 'Doughnut' External Tank Small 147
(119.46)
0.3375 0.0375 2 000 6 50 27 33
Oscar-B FT.png
Oscar-B Fuel Tank Tiny 70
(51.64)
0.225 0.025 2 000 6 50 18 22
FL-T100 Dark.png
FL-T100 Fuel Tank Small 150
(104.1)
0.5625 0.0625 2 000 6 50 45 55
FL-T200 Dark.png
FL-T200 Fuel Tank Small 275
(183.2)
1.125 0.125 2 000 6 50 90 110
FL-T400 Dark.png
FL-T400 Fuel Tank Small 500
(316.4)
2.25 0.25 2 000 6 50 180 220
FL-T800 Dark.png
FL-T800 Fuel Tank Small 800
(432.8)
4.5 0.5 2 000 6 50 360 440
X200-8 White.png
Rockomax X200-8 Fuel Tank Large 800
(432.8)
4.5 0.5 2 000 6 50 360 440
X200-16 White.png
Rockomax X200-16 Fuel Tank Large 1 550
(815.6)
9 1 2 000 6 50 720 880
X200-32 White.png
Rockomax X200-32 Fuel Tank Large 3 000
(1 531.2)
18 2 2 000 6 50 1 440 1 760
Jumbo-64 White.png
Rockomax Jumbo-64 Fuel Tank Large 5 750
(2 812.4)
36 4 2 000 6 50 2 880 3 520
Kerbodyne S3-3600 Tank.png
Kerbodyne S3-3600 Tank Extra large 3 250
(1 597.6)
20.25 2.25 2 000 6 50 1 620 1 980
Kerbodyne S3-7200 Tank.png
Kerbodyne S3-7200 Tank Extra large 6 500
(3 195.2)
40.5 4.5 2 000 6 50 3 240 3 960
Kerbodyne S3-14400 Tank.png
Kerbodyne S3-14400 Tank Extra large 13 000
(6 390.4)
81 9 2 000 6 50 6 480 7 920
Mk2 LF+O Fuselage Short.png
Mk2 Rocket Fuel Fuselage Short Mk2 750
(566.4)
2.29 0.29 2 500 50 50 180 220
Mk2 LF+O Fuselage.png
Mk2 Rocket Fuel Fuselage Mk2 1 450
(1 082.8)
4.57 0.57 2 500 50 50 360 440
Mk3 Rocket Fuel Fuselage Short.png
Mk3 Rocket Fuel Fuselage Short Mk3 2 500
(1 352.5)
14.29 1.79 2 700 50 50 1 125 1 375
Mk3 Rocket Fuel Fuselage.png
Mk3 Rocket Fuel Fuselage Mk3 5 000
(2 705)
28.57 3.57 2 700 50 50 2 250 2 750
Mk3 Rocket Fuel Fuselage Long.png
Mk3 Rocket Fuel Fuselage Long Mk3 10 000
(5 410)
57.14 7.14 2 700 50 50 4 500 5 500
C7 Brand Adapter - 2.5m to 1.25m.png
C7 Brand Adapter - 2.5m to 1.25m Small, Large 800
(433.0)
4.57 0.57 2 300 20 50 360 440
C7 Brand Adapter Slanted - 2.5m to 1.25m.png
C7 Brand Adapter Slanted - 2.5m to 1.25m Small, Large 800
(433.0)
4.57 0.57 2 300 20 50 360 440
Mk2 to 1.25m Adapter.png
Mk2 to 1.25m Adapter Small, Mk2 550
(366.4)
2.29 0.29 2 500 50 50 180 220
Mk2 to 1.25m Adapter Long.png
Mk2 to 1.25m Adapter Long Small, Mk2 1 050
(682.8)
4.57 0.57 2 500 50 50 360 440
Mk2 Bicoupler.png
Mk2 Bicoupler Small, Mk2 x 2 860
(676.4)
2.29 0.29 2 500 50 50 180 220
2.5m to Mk2 Adapter.png
2.5m to Mk2 Adapter Large, Mk2 800
(432.8)
4.57 0.57 2 500 50 50 360 440
Mk3 to Mk2 Adapter.png
Mk3 to Mk2 Adapter Mk2, Mk3 2 200
(1 282.0)
11.43 1.43 2 600 50 50 900 1 100
Mk3 to 2.5m Adapter.png
Mk3 to 2.5m Adapter Large, Mk3 2 500
(1 353.0)
14.29 1.79 2 600 50 50 1 125 1 375
Mk3 to 2.5m Adapter Slanted.png
Mk3 to 2.5m Adapter Slanted Large, Mk3 2 500
(1 353.0)
14.29 1.79 2 600 50 50 1 125 1 375
Mk3 to 3.75m Adapter.png
Mk3 to 3.75m Adapter Extra large, Mk3 2 500
(1 353.0)
14.29 1.79 2 600 50 50 1 125 1 375
ADTP-2-3 Gray.png
Kerbodyne ADTP-2-3 Large, Extra large 1 623
(246.0)
16.88 1.88 2 000 6 50 1 350 1 650


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)
Liquid
Fuel

(Units of fuel)
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Mk0LiquidFuelFuselage.png
Mk0 Liquid Fuel Fuselage Tiny 200
(160)
0.275 0.025 2 000 10 50 50
Mk1 Liquid Fuel Fuselage.png
Mk1 Liquid Fuel Fuselage Small 550
(230)
2.25 0.25 2 000 10 50 400
Mk2 Liquid Fuselage Short.png
Mk2 Liquid Fuel Fuselage Short Mk2 750
(430)
2.29 0.29 2 500 50 50 400
Mk2 FT.png
Mk2 Liquid Fuel Fuselage Mk2 1 450
(810)
4.57 0.57 2 500 50 50 800
Mk3 Liquid Fuel Fuselage Short.png
Mk3 Liquid Fuel Fuselage Short Mk3 4 300
(2 300)
14.29 1.79 2 700 50 50 2 500
Mk3 Liquid Fuel Fuselage.png
Mk3 Liquid Fuel Fuselage Mk3 8 600
(4 600)
28.57 3.57 2 700 50 50 5 000
Mk3 Liquid Fuel Fuselage Long.png
Mk3 Liquid Fuel Fuselage Long Mk3 17 200
(9 200)
57.14 7.14 2 700 50 50 10 000
NCS Adapter.png
NCS Adapter Small, Tiny 320
(256)
0.5 0.1 2 400 10 50 80


RCS fuel tanks

RCS Fuel Density is 4 kg/unit Mass
(t)
Monopropellant
(Units of fuel)
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
FL-R10.png
FL-R20 RCS Fuel Tank Tiny 200
(176)
0.10 0.02 2 000 12 50 20
FL-R25 FT.png
FL-R120 RCS Fuel Tank Small 330
(186)
0.56 0.08 2 000 12 50 120
FL-R1 Yellow.png
FL-R750 RCS Fuel Tank Large 1 800
(900)
3.4 0.4 2 000 12 50 750
Mk2 Monopropellant Tank.png
Mk2 Monopropellant Tank Mk2 750
(270)
1.89 0.29 2 500 50 50 400
Mk3 Monopropellant Tank.png
Mk3 Monopropellant Tank Mk3 5 040
(2 520)
9.8 1.4 2 700 50 50 2 100
Stratus-v roundified monopropellant tank.png
Stratus-V Roundified Monopropellant Tank X 200
(176)
0.10 0.02 2 000 12 50 20
Stratus-V Cylindrified.png
Stratus-V Cylindrified Monopropellant Tank X 250
(190)
0.23 0.03 2 000 12 50 50


Xenon tanks

Xenon density is 0.1 kg/unit Mass
(t)
Xenon
(Xenon unit)
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
PB-X50R.png
PB-X50R Xenon Container Radial mounted 2 220
(600)
0.054 0.014 2 000 12 50 405
Pb-x150 xenon container.png
PB-X150 Xenon Container Tiny 3 680
(800)
0.100 0.024 2 000 6 50 720
PB-X750 Xenon Container.png
PB-X750 Xenon Container Small 24 300
(1 500)
0.76 0.19 2 000 6 50 5 700


Ore tanks

Ore density is 10 kg/unit Mass
(t)
Ore
(Units of fuel)
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
RadialHoldingTank.png
Radial Holding Tank Radial mounted 299
(300)[Note 1]
0.875 0.125 2 000 7 50 75
Small Holding Tank.png
Small Holding Tank Small 994
(1000)[Note 1]
3.5 0.5 2 000 7 50 300
Large Holding Tank.png
Large Holding Tank Large 2 970
(3 000)[Note 1]
17.0 2.0 2 000 7 50 1 500
  1. 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 Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Max. length
(m)
DrainValve.png
FTE-1 Drain Valve Radial mounted 50 0.01 2 000 12 50 -
External fuel duct.png
FTX-2 External Fuel Duct Radial mounted 150 0.05 2 000 12 50 10


Engines

Liquid Fuel Engines

Thrust
(kN)
T/W
ratio
Max. Fuel
Consumption
(Units of fuel/s)
Isp (s) TVC
Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
atm vac atm vac atm vac Gimbal
(°)
LV-1R Shroud.png
LV-1R "Spider" Liquid Fuel Engine Radial mounted 120 0.02 2 000 7 50 1.79 2.0 9.14 10.20 0.141 260 290 10.0
24-77 Orange.png
24-77 "Twitch" Liquid Fuel Engine Radial mounted 230 0.08 2 000 7 50 15.17 16.0 19.34 20.39 1.125 275 290 8.0
Mk-55 Radial mount engine.png
Mk-55 "Thud" Liquid Fuel Engine Radial mounted 820 0.90 2 000 7 50 108.20 120.0 12.26 13.60 8.024 275 305 8.0
O-10.png
O-10 "Puff" MonoPropellant Fuel Engine[Note 1] Radial mounted 150 0.09 2 000 7 50 9.60 20.0 10.88 22.66 2.039 120 250 6.0
LV-1 Shroud.png
LV-1 "Ant" Liquid Fuel Engine Tiny, Radial mounted 110 0.02 2 000 7 50 0.51 2.0 2.59 10.20 0.129 80 315
48-7S Shroud.png
48-7S "Spark" Liquid Fuel Engine Tiny 240 0.13 2 000 7 50 16.56 20.0 12.99 15.69 1.275 265 320 3.0
LV-909 Shroud.png
LV-909 "Terrier" Liquid Fuel Engine Small 390 0.50 2 000 7 50 14.78 60.0 3.01 12.24 3.547 85 345 4.0
LV-T30 Liquid Fuel Engine recent.png
LV-T30 "Reliant" Liquid Fuel Engine Small 1 100 1.25 2 000 7 50 205.16 240.0 16.74 19.58 15.789 265 310
LV-T45 LFE.png
LV-T45 "Swivel" Liquid Fuel Engine Small 1 200 1.50 2 000 7 50 167.97 215.0 11.42 14.62 13.703 250 320 3.0
KS-25 LFE.png
S3 KS-25 "Vector" Liquid Fuel Engine Small, Radial mounted 18 000 4.00 2 000 22 50 936.51 1 000.0 23.87 25.49 64.745 295 315 10.5
ToroidalAerospikeLiquidFuelEngine.png
T-1 Toroidal Aerospike "Dart" Liquid Fuel Engine Small, Radial mounted 3 850 1.00 2 000 20 50 153.53 180.0 15.66 18.35 10.797 290 340
LV-N Atomic.png
LV-N "Nerv" Atomic Rocket Motor[Note 2] Small 10 000 3.00 2 500 12 50 13.88 60.0 0.47 2.04 1.530 185 800
RE-L10.png
RE-L10 "Poodle" Liquid Fuel Engine Large 1 300 1.75 2 000 7 50 64.29 250.0 3.75 14.57 14.568 90 350 4.5
SkipperV2.png
RE-I5 "Skipper" Liquid Fuel Engine Large 5 300 3.00 2 000 8 50 568.75 650.0 19.33 22.09 41.426 280 320 2.0
MainsailV2.png
RE-M3 "Mainsail" Liquid Fuel Engine Large 13 000 6.00 2 000 7 50 1 379.03 1 500.0 23.44 25.49 98.683 285 310 2.0
LFB KR-1x2.png
LFB KR-1x2 "Twin-Boar" Liquid Fuel Engine[Note 3] Large, Radial mounted 17 000
(14 062.4)
42.50
(10.50)
2 000 20 50 1 866.67 2 000.0 4.48
(18.13)
4.80
(19.42)
135.964 280 300 1.5
Big1.png
Kerbodyne KR-2L+ "Rhino" Liquid Fuel Engine Extra large 25 000 9.00 2 000 7 50 1 205.88 2 000.0 13.66 22.66 119.968 205 340 4.0
Quad.png
S3 KS-25x4 "Mammoth" Liquid Fuel Engine Extra large 39 000 15.00 2 000 20 50 3 746.03 4 000.0 25.47 27.19 258.978 295 315 2.0
Rapier Engine 01.png
CR-7 R.A.P.I.E.R. Engine[Note 4] Small 6 000 2.00 2 000 20 50 162.30 180.0 8.27 9.18 12.036 275 305 3.0
  1. Consumes monopropellant. (the density of monopropellant is less: 4kg/unit)
  2. Consumes liquid fuel only.
  3. The LFB KR-1x2 is a liquid fuel booster -- a combination of a "normal" engine and a fuel tank.
  4. 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.


Jet Engines

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Thrust
(kN)
TWR Fuel
(Units of fuel/s)
Intake
(Air unit/s)
Isp (s) TVC
(°)
Reverse
J90JunoBasicJetEngine.png
J-20 "Juno" Basic Jet Engine Tiny 450 0.25 2 000 7 50 20.0 Mach 0
20.6 Mach 1.3
8.16 Mach 0
8.40 Mach 1.3
0.064 1.402 6 400 No
J33WheesleyBasicJetEngine.png
J-33 "Wheesley" Turbofan Engine Small 1 400 1.5 2 000 7 50 120.0 Mach 0 8.16 Mach 0 0.233 29.601 10 500 Yes
J404PantherAfterburningTurbofan.png
J-404 "Panther" Afterburning Turbofan Small 2 000 1.2 2 000 7 50 85.00 Mach 0
107.89 Mach 1.75 /
130.00 Mach 0
219.48 Mach 2.5
7.22 Mach 0
9.17 Mach 1.75 /
11.05 Mach 0
18.65 Mach 2.5
0.193 /
0.663
7.705 /
7.954
9 000 /
4 000
10.0 No
JX4WhiplashTurboRamjetEngine.png
J-X4 "Whiplash" Turbo Ramjet Engine Small 2 250 1.8 2 000 7 50 130.00 Mach 0
386.66 Mach 3.0
7.36 Mach 0
21.90 Mach 3.0
0.663 5.303 4 000 1.0 No
J-90 Goliath Turbofan Engine.png
J-90 "Goliath" Turbofan Engine Radial mounted 2 600 4.5 2 000 7 50 360.0 Mach 0 8.16 Mach 0 0.583 132.273 12 600 Yes
Rapier Engine 01.png
CR-7 R.A.P.I.E.R. Engine[Note 1] Small 6 000 2.0 2 000 20 50 105.00 Mach 0
465.64 Mach 3.75
5.35 Mach 0
23.74 Mach 3.75
0.669 4.015 3 200 3.0 No
  1. 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)
Fuel
(Units of fuel)
Thrust
(kN)
TWR Isp (s) Burn
(s)
Full Empty
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
atm vac atm vac atm vac atm vac
RT-5 White.png
RT-5 "Flea" Solid Fuel Booster Small, Radial mounted 200
(116)
1.50 0.45 2 000 7 50 140 162.91 192.0 11.07 13.05 36.92 43.51 140 165 8.8
RT-10 White.png
RT-10 "Hammer" Solid Fuel Booster Small, Radial mounted 400
(175)
3.56 0.75 2 000 7 50 375 197.90 227.0 5.66 6.50 26.91 30.86 170 195 23.7
BACC SFB.png
BACC "Thumper" Solid Fuel Booster Small, Radial mounted 850
(358)
7.65 1.50 2 200 7 50 820 250.00 300.0 3.33 4.00 17.00 20.39 175 210 42.2
SRB.png
S1 SRB-KD25k "Kickback" Solid Fuel Booster Small, Radial mounted 2 700
(1 140)
24.00 4.50 2 200 7 50 2 600 593.86 670.0 2.52 2.85 13.46 15.18 195 220 62.8
Sepratron.png
Sepratron I Radial mounted 75
(70.2)
0.0725 0.0125 2 000 7 50 8 13.79 18.0 19.40 25.32 112.51 146.84 118 154 5.0
Mite.png
FM1 "Mite" Solid Fuel Booster Tiny, Radial mounted 75
(51.0)
0.375 0.075 2 200 7 50 40 11.012 12.5 2.93 3.33 14.68 16.66 185 210 49.44
Shrimp.png
F3S0 "Shrimp" Solid Fuel Booster Tiny, Radial mounted 150
(96.0)
0.875 0.155 2 200 7 50 90 26.512 30.0 3.22 3.65 17.1 19.35 190 215 47.44
Thorougbred.png
S2-17 "Thoroughbred" Solid Fuel Booster Large, Radial mounted 9 000
(4 200.0)
70.00 10.00 2 200 10 50 8 000 1 515.217 1 700.0 2.16 2.43 15.15 17.0 205 230 79.6
Clydesdale.png
S2-33 "Clydesdale" Solid Fuel Booster Large, Radial mounted 18 500
(8 660.0)
144.00 21.00 2 200 10 50 16 400 2 948.936 3 300.0 2.05 2.29 14.04 15.71 210 235 85.9


Ion Engines

Thrust
(kN)
TWR Isp (s) Max. Consumption
Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
atm vac atm vac atm vac Electricity
(⚡/s)
Xenon
(Xenon unit/s)
PB-ION.png
IX-6315 "Dawn" Electric Propulsion System Tiny 8 000 0.25 2 000 7 50 0.048 2.0 0.019 0.816 100 4 200 8.741 0.486


Command and Control

SAS modules

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
S.A.S.
level
Electricity
(⚡/s)
AvionicsPackage v2.png
CH-J3 Fly-By-Wire Avionics Hub Tiny 5 200 0.08 2 400 7 50 3 0.03


Reaction wheels

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Torque
(kN·m)
Electricity
(⚡/s)
Inline reaction wheel.png
Small Inline Reaction Wheel Tiny 600 0.05 2 000 9 50 5 0.25
(15 ⚡/min)
Inline advanced stabilizer.png
Advanced Inline Stabilizer Small 1 200 0.1 2 000 9 50 15 0.45
(27 ⚡/min)
ASAS large.png
Advanced Reaction Wheel Module, Large Large 2 100 0.2 2 000 9 50 30 0.6
(36 ⚡/min)


RCS thrusters

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Thrust
(kN)
Fuel
(Units of fuel/s)
Isp (s) (atm) Isp (s) (vac)
RV-1X.png
RV-1X Variable Thruster Block Radial mounted 30 0.005 1 500 12 50 0.1 0.01 100 240
PlaceAnywhere1.png
Place Anywhere 1 Linear RCS Port Radial mounted 15 0.001 1 500 12 50 0.2 0.02 100 240
RV-105.png
RV-105 RCS Thruster Block Radial mounted 45 0.04 1 500 15 50 1.0 0.11 100 240
Linear RCS.png
Place-Anywhere 7 Linear RCS Port Radial mounted 25 0.02 2 600 15 50 2.0 0.21 100 240
Vernor.png
Vernor Engine[Note 1] Radial mounted 150 0.08 2 000 15 50 12.0 0.94 140 260
  1. The Vernor Engine uses a liquid fuel/oxidizer mixture.


Structural

Adapters, Couplers & Struts

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
FL-A10 White.png
FL-A10 Adapter Tiny, Small 150 0.05 2 000 6 50
RockomaxBrandAdapter Gray.png
Rockomax Brand Adapter Small, Large 500 0.1 2 000 6 50
FL-A5 White.png
FL-A5 Adapter Tiny, Small 100 0.04 2 000 6 50
RockomaxBrandAdapter02 Gray.png
Rockomax Brand Adapter 02 Large, Small 450 0.08 2 000 6 50
Radial attachment point.png
BZ-52 Radial Attachment Point Small, Radial mounted 250 0.04 2 000 10 50
Rockomax Hubmax Multi-Point Connector big.png
Rockomax HubMax Multi-Point Connector Small 900 1.5 2 000 15 50
Mk1 Structural Fuselage.png
Structural Fuselage Small 380 0.1 2 000 10 50
TVR-200 Dark.png
TVR-200 Stack Bi-Coupler Small, Small x 2 400 0.1 2 000 9 50
TVR-1180C Dark.png
TVR-1180C Mk1 Stack Tri-Coupler Small, Small x 3 680 0.15 2 000 12 50
TVR-2160C Dark.png
TVR-2160C Mk2 Stack Quad-Coupler Small, Small x 4 2 000 0.175 2 000 12 50
TVR-200L Dark.png
TVR-200L Stack Bi-Adapter Large, Small x 2 400 0.1 2 000 12 50
TVR-300L Dark.png
TVR-300L Stack Tri-Adapter Large, Small x 3 600 0.15 2 000 12 50
TVR-400L Dark.png
TVR-400L Stack Quad-Adapter Large, Small x 4 800 0.2 2 000 12 50
Mk3EngineMount.png
Mk3 Engine Mount Mk3 2500 0.7 2 600 50 50


Beams, panels and radial elements

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Strut connector.png
EAS-4 Strut Connector Radial mounted 42 0.05 2 000 12 50
Cubic Octagonal Strut.png
Cubic Octagonal Strut Tiny 16 0.001 2 000 7 50
Octagonal Strut.png
Octagonal Strut Tiny 20 0.001 2 000 7 50
Modular Girder Adapter.png
Modular Girder Adapter Small 50 0.25 2 000 80 50
Modular Girder Segment.png
Modular Girder Segment Small 25 0.125 2 000 80 50
Modular Girder Segment XL.png
Modular Girder Segment XL Small 75 0.375 2 000 80 50
M-Beam 650 I-Beam.png
M-Beam 650 I-Beam Tiny 50 0.08 2 000 80 50
M-Beam 200 I-Beam.png
M-Beam 200 I-Beam Tiny 25 0.375 2 000 80 50
M-Beam 200 I-Beam Pocket Edition.png
M-Beam 200 I-Beam Pocket Edition Tiny 14 0.1875 2 000 80 50
Micronode.png
The Not-Rockomax Micronode Tiny 25 0.15 2 000 15 50
M-1x1 Structural Panel.png
M-1x1 Structural Panel Tiny 30 0.075 2 000 80 50
M-2x2 Structural Panel.png
M-2x2 Structural Panel Tiny 90 0.3 2 000 80 50
Small hardpoint.png
Small Hardpoint Radial mounted 60 0.05 2 000 20 50
Structural Pylon.png
Structural Pylon Radial mounted 125 0.2 2 000 70 50


Ground Support

Image Part Radial size Cost
(Funds)
Max. Temp.
(K)
Tolerance
(m/s)
TT18A.png
TT18-A Launch Stability Enhancer Radial mounted 200 2 000 100


Coupling

Decoupler and separator

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

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Ejection impulse
(kgF∙s)[Note 1]
TT-38K.png
TT-38K Radial Decoupler Radial mounted 600 0.025 2 000 8 50 250
TT-70.png
TT-70 Radial Decoupler Radial mounted 700 0.05 2 000 8 50 260
TT38K flat.png
Hydraulic Detachment Manifold Radial mounted 770 0.4 2 000 8 50 450
TD-06.png
TD-06 Decoupler Tiny 150 0.01 2 000 6 150 50
TD-12.png
TD-12 Decoupler Small 200 0.04 2 000 6 150 100
TD-25.png
TD-25 Decoupler Large 300 0.16 2 000 6 150 150
TD-37.png
TD-37 Decoupler Extra large 375 0.36 2 000 6 150 200
TS-06.png
TS-06 Stack Separator Tiny 215 0.01 2 000 6 150 50
TS-12.png
TS-12 Stack Separator Small 275 0.05 2 000 6 150 100
TS-25.png
TS-25 Stack Separator Large 400 0.21 2 000 6 150 150
TS-37.png
TS-37 Stack Separator Extra large 500 0.48 2 000 6 150 200
  1. In the game the values are without unit, but by the physics their "missing unit" is equal with 1 kgF∙s.


Docking

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Clamp-o-tron jr.png
Clamp-O-Tron Docking Port Jr. Tiny 800 0.02 2 000 10 50
Clamp-o-tron docking port.png
Clamp-O-Tron Docking Port Small 280 0.05 2 000 10 50
Clamp-O-Tron Shielded Docking Port.png
Clamp-O-Tron Shielded Docking Port Small 400 0.1 2 600 10 50
Clamp o tron Sr.PNG
Clamp-O-Tron Docking Port Sr. Large 980 0.2 2 000 20 50
Inline Clamp-O-Tron.png
Inline Clamp-O-Tron Small 700 0.3 2 000 10 50
Mk2 Clamp-O-Tron.png
Mk2 Clamp-O-Tron[Note 1] Mk2 850
(760)
0.6
(0.3)
2 500 50 50
AGU Advanced Grabbing Unit.png
Advanced Grabbing Unit Small 450 0.3 2 000 50 50
AGU Advanced Grabbing Unit jr.png
Advanced Grabbing Unit Jr. Tiny 315 0.075 2 000 50 50
  1. The Mk2 Clamp-O-Tron is a combination of docking port and monopropellant tank of 75 units. Only the docking port properties are shown.


Payload

Fairings

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Max Radius
(m)
Panel mass
(t/m2)
Panel Cost
(Funds/m2)
AE-FF1 Airstream Protective Shell (1.25m).png
AE-FF1 Airstream Protective Shell (1.25m) Small 300 0.075 2 600 9 50 1.5 0.01 6
AE-FF2 Airstream Protective Shell (2.5m).png
AE-FF2 Airstream Protective Shell (2.5m) Large 600 0.175 2 600 9 50 3 0.012 12
AE-FF3 Airstream Protective Shell (3.75m).png
AE-FF3 Airstream Protective Shell (3.75m) Extra large 900 0.475 2 600 9 50 6 0.016 18


Cargo bays / Service bays

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Capacity
Mk2 Cargo Bay CRG-04.png
Mk2 Cargo Bay CRG-04 Mk2 320 0.25 2 500 50 50 1.25x1.875 m
(FL-T400)
Mk2 Cargo Bay CRG-08.png
Mk2 Cargo Bay CRG-08 Mk2 500 0.5 2 500 50 50 1.25x3.75 m
(FL-T800)
Mk3 Cargo Bay CRG-25.png
Mk3 Cargo Bay CRG-25 Mk3 750 1.5 2 700 50 50 2.50x2.50 m
(1⅓ x X200-16)
Mk3 Cargo Bay CRG-50.png
Mk3 Cargo Bay CRG-50 Mk3 1 500 3.0 2 700 50 50 2.50x5.00 m
(1⅓ x X200-32)
Mk3 Cargo Bay CRG-100.png
Mk3 Cargo Bay CRG-100 Mk3 3 000 6.0 2 700 50 50 2.50x10.00 m
(1⅓ x Jumbo-64)
Mk3CargoRamp.png
Mk3 Cargo Ramp Mk3 3 000 4.0 2 700 50 50 2.50x2.00 m
(X200-16)
SeviceBaySmallv2.png
Service Bay (1.25m) Small 500 0.1 2 900 14 50 1.25x0.50 m
(~ FL-T100)
ServiceContainerLarge.png
Service Bay (2.5m) Large 500 0.3 2 900 14 50 2.50x1.10 m
( ~ X200-8)


Aerodynamics

Air intakes

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Intake Air (Air unit)
(Initial/Max)
Intake Area
(m2)
SmallCircularIntake.png
Small Circular Intake Tiny 250 0.007 1 200 7 50 0.5 / 0.5 0.10
Circular Intake.png
Circular Intake Small 680 0.04 1 900 7 50 2.0 / 2.0 0.60
RamIntakePJ.png
Adjustable Ramp Intake Small 2 680 0.06 2 400 7 50 2.0 / 2.0 0.74
Shock Cone Intake.png
Shock Cone Intake Small 3 050 0.12 2 400 7 50 2.0 / 2.0 0.75
Mk1 Driverterless Supersonic Intake.png
Mk1 Diverterless Supersonic Intake

[Note 1]

Small 720
(560)
1.17
(0.17)
2 000 10 50 2.0 / 2.0 0.61
Engine Nacelle.png
Engine Nacelle[Note 1] Small 600
(480)
0.90
(0.15)
2 000 10 50 5.0 / 5.0 0.50
Engine Pre-cooler.png
Engine Pre-cooler[Note 1] Small 1 650
(1 618)
0.35
(0.15)
2 000 10 50 5.0 / 5.0 0.50
XMG50RadialAirIntake.png
XM-G50 Radial Air Intake Radial mounted 250 0.02 2 000 10 50 2.0 / 2.0 0.31
Structural Intake.png
Adjustable Ramp Intake (Radial) Radial mounted 900 0.01 2 400 7 50 0.5 / 0.5 0.10

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

  1. 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.


Nose cones and tail connectors

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Small Nosecone 1.6.png
Small Nose Cone Tiny 180 0.01 2 400 10 50
AerodynamicNoseCone Gray.png
Aerodynamic Nose Cone Small 240 0.03 2 400 10 50
AdvancedNoseCone-A White.png
Advanced Nose Cone - Type A Small 320 0.075 2 000 10 50
AdvancedNoseCone-B White.png
Advanced Nose Cone - Type B Small 320 0.075 2 000 10 50
ProtectiveNoseCone White.png
Protective Rocket Nose Cone Mk7 Large 450 0.2 2 400 10 50
ProtectiveNoseCone Mk12A.png
Protective Rocket Nose Cone Mk12A Extra large 850 0.4 2 400 10 50
Tail connector.png
Tail Connector A Small 675 0.2 2 200 8 50
Tail Connector B.png
Tail Connector B Small 675 0.2 2 200 8 50


Modular wings

Dimensions (m)
Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Lift L W (/ E) SD
Wing Connector Type A.png
Wing Connector Type A Radial mounted 500 0.2 2 400 15 50 2 2 4
Wing Connector Type B.png
Wing Connector Type B Radial mounted 500 0.2 2 400 15 50 2 4 2
Wing Connector Type C.png
Wing Connector Type C Radial mounted 250 0.1 2 400 15 50 1 2 2
Wing Connector Type D.png
Wing Connector Type D Radial mounted 100 0.05 2 400 15 50 0.5 2 1
Wing Connector Type E.png
Wing Connector Type E Radial mounted 100 0.05 2 400 15 50 0.5 1 2
Delta wing.png
Delta Wing Radial mounted 600 0.2 2 400 15 50 2 4 4 / 0
Small Delta Wing.png
Small Delta Wing Radial mounted 200 0.05 2 400 15 50 0.5 2 2 / 0
Wing Strake.png
Wing Strake Radial mounted 400 0.05 2 400 15 50 0.5 1 4 / 0
Structural Wing Type A.png
Structural Wing Type A Radial mounted 500 0.1 2 400 15 50 1 2 4 / 0
Structural Wing Type B.png
Structural Wing Type B Radial mounted 500 0.1 2 400 15 50 1 4 2 / 0
Structural Wing Type C.png
Structural Wing Type C Radial mounted 300 0.05 2 400 15 50 0.5 4 1 / 0
Structural Wing Type D.png
Structural Wing Type D Radial mounted 150 0.025 2 400 15 50 0.25 1 2 / 0
Swept Wing Type A.png
Swept Wing Type A Radial mounted 500 0.113 2 400 15 50 1.13 4 2 / 0 2
Swept Wing Type B.png
Swept Wing Type B Radial mounted 500 0.226 2 400 15 50 2.26 4 2 / 2 2


Winglets

Dimensions (m)
Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Lift L W (/ E) SD
BasicFin.png
Basic Fin Radial mounted 25 0.01 934 4 50 0.12 ~ 0.5 ~ 1.2 / ~ 0 ~ -0.2
AVT1 Winglet.png
AV-T1 Winglet Radial mounted 500 0.037 2 400 12 50 0.37 ~ 0.75 ~ 1 / ~ 0 ~ 0


Wings

Dimensions (m)
Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Lift L W (/ E) SD
SweptWings.png Swept Wings Radial mounted 620 0.275 2 400 15 50 1.37 ~ 4 ~ 2 / 1 ~ 2
FAT455AirplaneWing.png
FAT-455 Aeroplane Main Wing Radial mounted 2 800
(3 280)
0.78 /
(3.78)[Note 1]
1 200 15 50 7.8 ~ 12 ~ 5
0.5
~ 3
BigSWingStrake.png
Big-S Wing Strake Radial mounted 1 000
(1 080)
0.1
(0.6)[Note 2]
2 400 15 50 1.0 ~ 1.5 ~ 6.5 / 0 ~ 0
BigSDeltaWing.png
Big-S Delta Wing Radial mounted 3 000
(3 240)
0.5
(2.0)[Note 3]
2 400 15 50 5.0 ~ 5 ~ 6 / 0
  1. can hold 600 units of liquid fuel
  2. can hold 100 units of liquid fuel
  3. can hold 300 units of liquid fuel


Control surfaces

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Lift Deflection
Range
(°)
Deflection
Surface Part
(%)
Av-r8 winglet.png
AV-R8 Winglet Radial mounted 640 0.1 2 400 12 50 0.5 15 95
Standard canard v2.png
Standard Canard Radial mounted 720 0.1 2 400 12 50 0.5 15 100
Advanced canard v2.png
Advanced Canard Radial mounted 800 0.08 2 400 12 50 0.4 10 100
Delta-deluxe winglet.png
Delta-Deluxe Winglet Radial mounted 600 0.078 2 400 12 50 0.65 25 20
Tail fin.png
Tail Fin Radial mounted 600 0.125 2 400 12 50 0.61 25 100
FAT455TailFin.png
FAT-455 Aeroplane Tail Fin Radial mounted 1 000 0.36 1 200 15 50 2.69 15 37
BigSTailFin.png
Big-S Spaceplane Tail Fin Radial mounted 2 500 0.45 2 400 15 50 3.49 25 29
Elevon 1.png Elevon 1 Radial mounted 400 0.05 2 400 15 50 0.25 20 100
Elevon 2.png Elevon 2 Radial mounted 550 0.06 2 400 15 50 0.30 20 100
Elevon 3.png Elevon 3 Radial mounted 650 0.08 2 400 15 50 0.42 20 100
Elevon 4.png Elevon 4 Radial mounted 400 0.04 2 400 15 50 0.18 20 100
Elevon 5.png Elevon 5 Radial mounted 800 0.08 2 400 15 50 0.4 20 100
BigSElevon1.png
Big-S Elevon 1 Radial mounted 950 0.15 2 400 15 50 0.77 25 100
BigSElevon2.png
Big-S Elevon 2 Radial mounted 1 300 0.23 2 400 15 50 1.16 25 100
FAT445ContolSurface.png
FAT-455 Aeroplane Control Surface Radial mounted 800 0.17 1 200 15 50 0.86 15 100
Airbrake.png
A.I.R.B.R.A.K.E.S[Note 1] Radial mounted 1000 0.05 1 200
(2 400)
8 50 0.38 70 100
  1. A.I.R.B.R.A.K.E.S are classified as an "Aero Surface" in the part configuration files and in-game.


Ground

Landing gears

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Steerable
LY-01 Fixed Landing Gear.png
LY-01 Fixed Landing Gear Radial mounted 100 0.022 1 000 125 50 No
LY-05 Steerable Landing Gear.png
LY-05 Steerable Landing Gear Radial mounted 150 0.015 1 000 325 50 Yes
LY-10 Small Landing Gear.png
LY-10 Small Landing Gear Radial mounted 600 0.045 2 600 50 50 Yes
LY-50 Medium Landing Gear.png
LY-35 Medium Landing Gear Radial mounted 700 0.25 2 600 50 50 Yes
LY-99 Large Landing Gear.png
LY-60 Large Landing Gear Radial mounted 1 200 0.4 2 700 70 50 No
LY-99 Extra Large Landing Gear.png
LY-99 Extra Large Landing Gear Radial mounted 1 700 0.6 2 700 70 50 No


Landing legs

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
LT2(1).png
LT-1 Landing Struts Radial mounted 440 0.05 2 000 12 50
LT2.png
LT-2 Landing Strut Radial mounted 340 0.1 2 000 12 50
LT5.png
LT-05 Micro Landing Strut Radial mounted 200 0.015 1 200 10 50


Rover wheels

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Max. Motor Speed
(m/s)
Brake Torque
(kNm)
RoveMax Model S2.png
RoveMax Model S2 Radial mounted 300 0.05 1 200 20 20 1.0 12 0.34
RoveMax Model M1.png
RoveMax Model M1 Radial mounted 450 0.075 1 200 50 50 2.5 34 2
Ruggedized rover wheel.png
TR-2L Ruggedized Vehicular Wheel Radial mounted 760 0.105 1 200 100 80 3.5 58 3
RoveMax Model XL3.png
RoveMax Model XL3 Radial mounted 1 200 1.25 1 200 150 200 5.0 15.5 30


Thermal

Heat shields

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Ablator
HeatShieldSmall.png
Heat Shield (0.625m) Tiny 150
(125)
0.075
(0.025)
3 300 9 50 50
HeatShieldSmall.png
Heat Shield (1.25m) Small 300
(200)
0.3
(0.1)
3 300 9 50 200
HeatShieldLarge.png
Heat Shield (2.5m) Large 600
(200)
1.3
(0.5)
3 300 9 50 800
HeatShieldHuge.png
Heat Shield (3.75m) Extra large 1100
(200)
2.8
(1.0)
3 300 9 50 1 800
Heat Shield (10m).png
Heat Shield (10m) Large / 10m 2 400 1.5 3 500
(3 250)
9 50


Radiators

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Deployable Electricity
(⚡/s)
RadiatorPanelEdge.png
Radiator Panel (edge) Radial mounted 450 0.03 2 500 12 50 No 0.025
(1.5 ⚡/min)
Radiator Panel (small).png
Radiator Panel (small) Radial mounted 150 0.01 2 500 12 50 No 0.025
(1.5 ⚡/min)
Radiator Panel (large).png
Radiator Panel (large) Radial mounted 450 0.05 2 500 12 50 No 0.025
(1.5 ⚡/min)
Thermal Control System (small).png
Thermal Control System (small) Radial mounted 450 0.05 2 500 12 50 Yes 0.025
(1.5 ⚡/min)
Thermal Control System (medium).png
Thermal Control System (medium) Radial mounted 2 250 0.25 2 500 12 50 Yes 0.125
(0.1 ⚡/sec)
Thermal Control System (large).png
Thermal Control System (large) Radial mounted 9 000 1.0 2 500 12 50 Yes 0.5
(0.5 ⚡/sec)


Electrical

Generators

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Electricity per mass
(⚡/(s·t))
Fuel consumption
(Units of fuel/s)
Gigantor XL.png
Gigantor XL Solar Array Radial mounted 3 000 0.3 1 200 8 50 24.4[Note 1] 81.33
OX-4W.png
OX-4W 3x2 Photovoltaic Panels Radial mounted 380 0.0175 1 200 8 50 1.64[Note 1] 93.71
OX-4L.png
OX-4L 1x6 Photovoltaic Panels Radial mounted 380 0.0175 1 200 8 50 1.64[Note 1] 93.71
OX-10C front deployed.png
OX-10C Photovoltaic Panels Radial mounted 1 200 0.09 1 200 8 50 8.25[Note 1] 91.66
OX-10L front deployed.png
OX-10L 1x5 Photovoltaic Panels Radial mounted 1 200 0.09 1 200 8 50 8.25[Note 1] 91.66
SP-W.png
SP-W 3x2 Photovoltaic Panels Radial mounted 440 0.025 2 000 8 50 1.64[Note 1] 65.60
SP-L.png
SP-L 1x6 Photovoltaic Panels Radial mounted 440 0.025 2 000 8 50 1.64[Note 1] 65.60
SP-10C deployed.png
SP-10C Photovoltaic Panels Radial mounted 1 400 0.13 2 000 8 50 8.25[Note 1] 63.46
SP-10L deployed.png
SP-10L 1x5 Photovoltaic Panels Radial mounted 1 400 0.13 2 000 8 50 8.25[Note 1] 63.46
OX-STAT.png
OX-STAT Photovoltaic Panels Radial mounted 75 0.005 1 200 8 50 0.35[Note 1] 70.0
OX-STAT-XL Photovoltaic Panels.png
OX-STAT-XL Photovoltaic Panels Radial mounted 600 0.04 1 200 8 50 2.80[Note 1] 70.0
PB-NUK.png
PB-NUK Radioisotope Thermoelectric Generator Tiny 23 300 0.08 1 200 7 50 0.75 9.38
FuelCell.png
Fuel Cell Radial mounted 750 0.05 2 000 7 50 1.50 30.0 0.0016875 LF
0.0020625 Ox
FuelCellArray.png
Fuel Cell Array Radial mounted 4 500 0.24 2 000 7 50 18.00 75.0 0.02025 LF
0.02475 Ox
  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 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.


Batteries

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Capacity
(⚡)
Z-100.png
Z-100 Rechargeable Battery Pack Radial mounted 80 0.005 1 200 8 50 100
Z-200.png
Z-200 Rechargeable Battery Bank Tiny 360 0.01 2 000 8 50 200
Z-400.png
Z-400 Rechargeable Battery Radial mounted 550 0.02 1 200 8 50 400
Z-1k.png
Z-1k Rechargeable Battery Bank Small 880 0.05 2 000 8 50 1 000
Z-4K.png
Z-4K Rechargeable Battery Bank Large 4 500 0.2 2 000 8 50 4 000


Communication

Communications

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/Mit)
Electricity
(⚡/s)
Net transmission speed
(Mits/s)
Relay capable CommNet Tier
Communotron 16.png
Communotron 16 Tiny 300 0.005 2 000 7 50 6 20.0 3.33 No 1
Communotron 16-S.png
Communotron 16-S Radial mounted 300 0.015 2 000 7 50 6 20.0 3.33 No 1
Comms DTS-M1 02.png
Communotron DTS-M1 Radial mounted 900 0.05 2 000 8 50 6 34.3 5.71 No 3
Commutron HG-55.png
Communotron HG-55 Radial mounted 1200 0.075 2 000 7 50 6.67 133.3 20.0 No 4
Communotron 88-88.png
Communotron 88-88 Tiny 1 500 0.1 2 000 7 50 10 200.0 20.0 No 5
HG-5 High Gain Antenna (+open).png
HG-5 High Gain Antenna Tiny 600 0.07 2 000 8 50 9 51.4 5.71 Yes 2
RA-2 Relay Antenna.png
RA-2 Relay Antenna Tiny 1 800 0.15 2 000 8 50 24 68.6 2.86 Yes 3
RA-15 Relay Antenna.png
RA-15 Relay Antenna Tiny 2 400 0.3 2 000 8 50 12 68.6 5.71 Yes 4
RA-100 Relay Antenna.png
RA-100 Relay Antenna Small 3 000 0.65 2 000 8 50 6 68.6 11.43 Yes 5


Science

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

Labs

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Required Crew
MPL-LG-2-02.png
Mobile Processing Lab MPL-LG-2 Large 4 000 3.5 2 200
(1 100)
6 50 Crew + Crew


Experiment Storage

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Experiment Storage Unit.png
Experiment Storage Unit Tiny 1 000 0.05 2 900 15 50


Telescopes

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Data size
(Mits)
Experiment (Base Science Value)
SENTINEL IR.png
SENTINEL Infrared Telescope Small 4500 0.1 2 000 7 50 30 Infrared Telescope (15)


Sensors

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Data size
(Mits)
Experiment (Base Science Value)
ScienceJR-02.png
SC-9001 Science Jr. Small 1800 0.2 1 200 6 50 25 Materials Study (25)
Mystery Goo Containment Unit-02.png
Mystery Goo™ Containment Unit Radial mounted 800 0.05 1 200 12 50 10 Mystery Goo™ Observation (10)
Double-C Seismic Accelerometer.png
Double-C Seismic Accelerometer Radial mounted 6 000 0.005 1 200 8 50 0.0075
(0.45 ⚡/min)
50 Seismic Scan (20)
Bar1.png
PresMat Barometer Radial mounted 880 0.005 1 200 8 50 0.0075
(0.45 ⚡/min)
12 Atmospheric Pressure Scan (12)
GRAVMAX Negative Gravioli Detector.png
GRAVMAX Negative Gravioli Detector Radial mounted 8 800 0.005 1 200 8 50 0.0075
(0.45 ⚡/min)
60 Gravity Scan (20)
2HOT Thermometer.png
2HOT Thermometer Radial mounted 900 0.005 1 200 8 50 0.0075
(0.45 ⚡/min)
8 Temperature Scan (8)
Atmospheric Fluid Spectro-Variometer.png
Atmospheric Fluid Spectro-Variometer Radial mounted 6 500 0.005 1 200 8 50 200 Atmosphere Analysis (20)
Magnetometer Boom.png
Magnetometer Boom Radial mounted 2 200 0.05 1 200 8 50 45 Magnetometer Report (45)


Resource scanners

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Scanning
mode
Scanning
resource
Max. altitude
(m)
M700 Survey Scanner.png
M700 Survey Scanner Small 1 500 0.2 2 000 7 50 Orbital All 1 500 000
M4435 Narrow-Band Scanner.png
M4435 Narrow-Band Scanner Small 1 000 0.1 2 000 7 50 Surface Ore 500 000
Surface Scanning Module.png
Surface Scanning Module Radial mounted 800 0.005 2 000 7 50 Surface Ore 1 000


Cargo

Containers

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Inventory Slots Volume limit
(l)
SEQ-3.png
SEQ-3 Cargo Storage Unit Tiny 200 0.05 1 200 15 50 3 180.0
SEQ-3C.png
SEQ-3C Conformal Storage Unit Radial mounted 100 0.02 1 200 15 50 3 60.0
SEQ-9.png
SEQ-9 Container Module Small 600 0.15 1 200 14 50 9 650.0
SEQ-24.png
SEQ-24 Cargo Storage Unit Large 1500 0.4 1 200 14 50 24 2 500.0


Equipment

Note: Most small parts can be stored in cargo bays as well

Image Part Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Packed Volume
(l)
Stacking Capacity
Experiments Kit.png
EVA Experiments Kit 150 0.02 1 200 14 50 5.0 4
Fuel Cylinders.png
EVA Fuel Cylinders 50 0.02
(0.008)
2 000 10 50 15.0 -
Jetpack.png
EVA Jetpack 25 0.045
(0.025)
2 000 12 50 17.0 -
Repair Kit.png
EVA Repair Kit 75 0.01 1 200 12 50 5.0 4
Evaparachute.png
Personal Parachute 10 0.004 2 000 12 50 10.0 -


Deployables

Image Part Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Packed Volume
(l)
Stacking Capacity
GroundLight1 icon.png
Work Lamp (Small) 25 0.002 1 200 12 50 20.0 2
GroundLight2 icon.png
Work Lamp (Stand) 35 0.003 1 200 12 50 40.0 -
GroundAnchor icon.png
Stamp-O-Tron Ground Anchor 300 0.05 2 000 12 50 40.0 -


Utility

This category provides details of auxiliary systems that are not directly involved in creating the motion of the spacecraft, but nevertheless help to successfully complete the mission.

Parachutes

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Semi-Deployed
Diameter
Fully Deployed
Diameter
Semi-Deploy
Pressure
(atm) [Note 1]
Full-Deploy
Altitude
(m AGL) [Note 1]
Mk16 Parachute.png
Mk16 Parachute Tiny 422 0.1 2 500 12 50 0.8 20.7 0.04 1 000
Mk16-XL Parachute.png
Mk16-XL Parachute Small 850 0.3 2 500 12 50 2.5 51.2 0.04 1 000
Mk2-R Parachute.png
Mk2-R Radial-Mount Parachute Radial mounted 400 0.1 2 500 12 50 1.6 41.3 0.04 1 000
Mk25 Parachute.png
Mk25 Parachute Small 400 0.2 2 500 12 50 0.9 6.3 0.02 2 500
Mk12-R Radial-Mount Drogue Chute.png
Mk12-R Radial-Mount Drogue Chute Radial mounted 150 0.075 2 500 12 50 1.3 7.7 0.02 2 500
  1. 1.0 1.1 This setting is tweakable


Ladders

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
PegasusME.png
Pegasus I Mobility Enhancer Radial mounted 100 0.005 2 000 8 50
ME1.png
Kelus Mobility Enhancer Radial mounted 350 0.005 2 000 8 50
ME2.png
Kelus-LV Bay Mobility Enhancer Radial mounted 440 0.005 2 000 8 50


Lights

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Illuminator Mk1 v2.png Illuminator Mk1 Radial mounted 100 0.015 2 000 8 50 0.04
(2.4 ⚡/min)
Domelight Mk1.png Domelight Mk1 Radial mounted 50 0.002 2 000 8 50 0.01
(0.3 ⚡/min)
Navigation Light Mk1.png Navigation Light Mk1 Radial mounted 40 0.001 2 000 8 50 0.01
(0.6 ⚡/min)
Spotlight Mk1.png Spotlight Mk1 Radial mounted 75 0.005 2 000 8 50 0.02
(1.2 ⚡/min)
Lightstrip Mk1.png Lightstrip Mk1 Radial mounted 40 0.001 2 000 8 50 0.01
(0.3 ⚡/min)
Illuminator Mk2 v1.11.1.png Illuminator Mk2 Radial mounted 100 0.015 2 000 8 50 0.02
(1.2 ⚡/min)


Escape systems

Solid Fuel Density is 7.5 kg/unit Mass
(t)
Fuel
(Units of fuel)
Thrust
(kN)
TWR Isp (s) Burn
(s)
Full Empty
Image Part Radial size Cost
(Funds)
Full Empty Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
atm vac atm vac atm vac atm vac
Launch Escape System.png
Launch Escape System Small 1 000
(982)
1.125 0.90 2 700 15 50 30 666.67 750.0 60.43 67.98 75.53 84.98 160 180 0.5


Habitation module

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Crew
capacity
PPD-10 Hitchhiker Storage Container.png
PPD-10 Hitchhiker Storage Container Large 4 000 2.5 2 000
(1 000)
6 50 Crew Crew Crew Crew
Mk1CrewCabin.png
Mk1 Crew Cabin Small 550 1.0 2 000
(1 000)
40 50 Crew Crew
Mk2 Crew Cabin.png
MK2 Crew Cabin Mk2 4 200 2.0 2 000
(1 400)
45 50 Crew Crew Crew Crew
Mk3 Passenger Module.png
Mk3 Passenger Module Mk3 30 000 6.5 2 700
(1 500)
50 50 Crew Crew Crew Crew
Crew Crew Crew Crew
Crew Crew Crew Crew
Crew Crew Crew Crew


Resource harvesters

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
'Drill-O-Matic Junior' Mining Excavator.png
'Drill-O-Matic Junior' Mining Excavator Radial mounted 1 000 0.25 2000 7 50 3
DrillOMatic.png
'Drill-O-Matic' Mining Excavator Radial mounted 6 000 1.25 2000 7 50 15


Converters

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Electricity
(⚡/s)
Convert-O-Tron 125.png
Convert-O-Tron 125 Small 1 000 1.25 2 000 7 50 30
ISRU Converter.png
Convert-O-Tron 250 Large 8 000 4.25 2 000 7 50 30


Flags

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
RFP0 Flag.png
RFP-0 Flag (.625m) Radial mounted 20 0.0004 2 000 12 50
RFP1 Flag.png
RFP-1 Flag (1.25m) Radial mounted 20 0.0008 2 000 12 50
RFP2 Flag.png
RFP-2 Flag (2.5m) Radial mounted 50 0.0036 2 000 12 50
RFP2 Flag.png
RFP-3 Flag (3.75m) Radial mounted 70 0.008 2 000 12 50
RFPF Flag.png
RFP-F Flag Flat Radial mounted 60 0.0096 2 000 12 50

Mass and cost are given as default values. Actual mass and cost will change depending on flag size and variant.


Firework launchers

Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Capacity
Starshot-32icon.png
Starshot-32 Small, Radial mounted 200 0.03 1 200 6 50 32
Starshot8.png
Starshot-8 Tiny, Radial mounted 15 0.00125 1 500 12 50 8


References

  1. In the Soviet Union, there was no such English-language term as "Soviet space program", which is listed on Wikipedia. Everything related to space flights and their provision was called "cosmonautics"