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[[File:Kerbal System.png|thumb|All [[celestial body|celestial bodies]] orbiting Kerbol with the sizes to scale]]
The '''Kerbol System''' is the planetary system in which [[Kerbal Space Program]] takes place. It has Kerbol as the
 
[[File:Kerbal System.png|thumb|220x220px]]
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[[File:sizes.svg|thumb|Comparison of the radii|upright]]
central body which is orbited by 5 planets and 2 dwarf planets. Only [[Kerbin]] and [[Laythe]] have an oxygen atmosphere and only Kerbin hosts life.
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The '''Kerbol System''' is the [[w:Planetary system|planetary system]] in which [[Kerbal Space Program]] takes place. It has [[Kerbol]] as the central body which is orbited by 5 [[planet]]s and 2 [[dwarf planet]]s. Only [[Kerbin]] and [[Laythe]] have an oxygen atmosphere and only Kerbin hosts life.
   
With the outermost dwarf planet Eeloo it reaches up to 113 549 713 200 m (about 113.5 Gm or 0.76 AU) out into space. Compared to our Solar System it is a very small system, as Earth's periapsis (or more specific perihelion) is about 147 Gm (or 0.98 AU) and thus outside of Eeloo's orbit.
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With the outermost dwarf planet [[Eeloo]] it reaches up to 113 549 713 200 m (about 113.5 [[w:Gigametre|Gm]] or 0.76 [[w:Astronomical unit|AU]]) out into space. Compared to our Solar System it is a very small system, as Earth's periapsis (or more specific perihelion) is about 147 Gm (or 0.98 AU) and thus outside of Eeloo's orbit.
   
 
It is difficult to determine if or where the Kerbol System has an edge. Kerbol itself has a non relativistic escape velocity, so it is possible to escape Kerbol. But itself it is not possible to escape Kerbol's gravitational pull, because the sphere of influence is infinite. Although real world gravity expands into infinity, it does only for Kerbol in KSP so it's unclear if this property can be used to determine where the edge is.
 
It is difficult to determine if or where the Kerbol System has an edge. Kerbol itself has a non relativistic escape velocity, so it is possible to escape Kerbol. But itself it is not possible to escape Kerbol's gravitational pull, because the sphere of influence is infinite. Although real world gravity expands into infinity, it does only for Kerbol in KSP so it's unclear if this property can be used to determine where the edge is.
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[[File:Kerbal.jpg|thumb|220x220px]]
 
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[[File:kerbol sizecomp chart.jpg|thumb|600px|center|Graphical comparison of the main celestial bodies in the Kerbol System (sizes to scale)]]
[[File:Kerbal System.png|centre|thumb|651x651px]]
 
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[[File:KSP-Kerbals-PI.jpg|centre|thumb|527x527px]]
 
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[[File:orbits.svg|thumb|upright=4.5|Orbits of planets and dwarf planets|center]]
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== See also ==
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* Kerbol System/Table for a table of all objects
   
 
== System ==
 
== System ==
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{{:Kerbol System/Map}}
{| class="article-table"
 
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![[File:Eve.jpg|centre|thumb|216x216px]]
 
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![[File:Gill.jpg|thumb|120x120px]]
 
 
== Relation to the Solar System ==
!
 
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!
 
 
{| class="wikitable"
 
|-
 
|-
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! Kerbol system !! [[w:Solar system|Solar system]]
|[[File:KerbinLaunchSite.jpg|centre|thumb|302x302px]]
 
|[[File:KerbalMun.jpg|thumb|220x220px]][[File:Minmus.jpg|thumb|222x222px]]
 
|
 
|
 
 
|-
 
|-
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| [[Kerbol]] || [[w:Sun|Sun]]
|[[File:Duna.jpg|centre|thumb|216x216px]]
 
|
 
|
 
|
 
 
|-
 
|-
 
| [[Moho]] || [[w:Mercury|Mercury]]
|[[File:Jool.jpg|centre|thumb|284x284px]]
 
|
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|-
 
| [[Eve]] || [[w:Venus|Venus]]
|
 
|
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|-
 
| [[Kerbin]] || [[w:Earth|Earth]]
 
|-
 
| [[Duna]] || [[w:Mars|Mars]]
 
|-
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| [[Dres]] || [[w:Ceres|Ceres]]
 
|-
 
| [[Jool]] || [[w:Jupiter|Jupiter]]
 
|-
 
| [[Eeloo]] || [[w:Pluto|Pluto]]
 
|}
 
|}
   
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Planet from the Kerbol System are defined from a few characteristics:
== Relation to the Solar System ==
 
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{| class="article-table"
+
{| class="wikitable"
!Kerbol system
 
 
|-
!Solar System
 
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! Characteristic !! How the value was chosen
 
|-
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| gravity at sea level || hand-picked, followed by a conversion from single to double precision (e.g. gravity on Eve is 1.70000004768372g instead of 1.7g)
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|-
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| radius || hand-picked, loosely a tenth the radius of its solar counterpart for Moho, Eve, Kerbin, Duna and Jool
 
|-
 
|-
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| rotational period || hand-picked or tidally locked, except Kerbin (21599.91201454015) and Duna (65517.859375)
|[[Kerbol]]
 
|Sun
 
 
|-
 
|-
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| orbit semi-major axis || an eleventh the one from its solar counterpart, except for Eeloo, computed in single precision floating point arithmetic
|[[Moho]]
 
|[[wikipedia:Mercury (planet)|Mercury]]
 
 
|-
 
|-
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| eccentricity || hand-picked, close to solar one for Moho, Jool and Eeloo
|[[Eve]]
 
|[[wikipedia:Venus|Venus]]
 
 
|-
 
|-
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| mean anomaly at epoch || hand-picked (radians), often 3.14
|[[Kerbin]]
 
|[[wikipedia:Earth|Earth]]
 
 
|-
 
|-
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| inclination || hand-picked (degrees), close to solar one for Moho and Eve
|[[Duna]]
 
|[[wikipedia:Mars|Mars]]
 
 
|-
 
|-
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| longitude of ascending node || hand-picked (degrees)
|[[Dres]]
 
|[[wikipedia:Ceres (dwarf planet)|Ceres]]
 
 
|-
 
|-
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| argument of periapsis || hand-picked (degrees)
|[[Jool]]
 
|[[wikipedia:Jupiter|Jupiter]]
 
 
|-
 
|-
|[[Eeloo]]
 
|[[wikipedia:Pluto|Pluto]]
 
 
|}
 
|}
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[[Category:Celestials]]

Revision as of 08:44, 24 June 2018

Kerbal System

All celestial bodies orbiting Kerbol with the sizes to scale

File:Sizes.svg

Comparison of the radii

The Kerbol System is the planetary system in which Kerbal Space Program takes place. It has Kerbol as the central body which is orbited by 5 planets and 2 dwarf planets. Only Kerbin and Laythe have an oxygen atmosphere and only Kerbin hosts life.

With the outermost dwarf planet Eeloo it reaches up to 113 549 713 200 m (about 113.5 Gm or 0.76 AU) out into space. Compared to our Solar System it is a very small system, as Earth's periapsis (or more specific perihelion) is about 147 Gm (or 0.98 AU) and thus outside of Eeloo's orbit.

It is difficult to determine if or where the Kerbol System has an edge. Kerbol itself has a non relativistic escape velocity, so it is possible to escape Kerbol. But itself it is not possible to escape Kerbol's gravitational pull, because the sphere of influence is infinite. Although real world gravity expands into infinity, it does only for Kerbol in KSP so it's unclear if this property can be used to determine where the edge is.

File:Kerbol sizecomp chart.jpg

Graphical comparison of the main celestial bodies in the Kerbol System (sizes to scale)

File:Orbits.svg

Orbits of planets and dwarf planets

See also

  • Kerbol System/Table for a table of all objects

System

Kerbol System/Map


Relation to the Solar System

Kerbol system Solar system
Kerbol Sun
Moho Mercury
Eve Venus
Kerbin Earth
Duna Mars
Dres Ceres
Jool Jupiter
Eeloo Pluto

Planet from the Kerbol System are defined from a few characteristics:

Characteristic How the value was chosen
gravity at sea level hand-picked, followed by a conversion from single to double precision (e.g. gravity on Eve is 1.70000004768372g instead of 1.7g)
radius hand-picked, loosely a tenth the radius of its solar counterpart for Moho, Eve, Kerbin, Duna and Jool
rotational period hand-picked or tidally locked, except Kerbin (21599.91201454015) and Duna (65517.859375)
orbit semi-major axis an eleventh the one from its solar counterpart, except for Eeloo, computed in single precision floating point arithmetic
eccentricity hand-picked, close to solar one for Moho, Jool and Eeloo
mean anomaly at epoch hand-picked (radians), often 3.14
inclination hand-picked (degrees), close to solar one for Moho and Eve
longitude of ascending node hand-picked (degrees)
argument of periapsis hand-picked (degrees)