Difference between revisions of "Ike"

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'''Ike''' is a the only [http://en.wikipedia.org/wiki/Natural_satellite natural satellite] of [[Duna]].
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{{Infobox/Body}}
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'''Ike''' is a [[moon]] and the only [[w:natural satellite|natural satellite]] of [[Duna]]. Ike has steep, rocky slopes and no atmosphere. Ike and Duna are tidally locked due to their proximity and Ike's size. This means that Ike is in synchronous orbit around its parent body, and that each body is only visible from approximately half of its partner's surface. (It would be exactly half, but Ike's slightly eccentric orbit creates regions for which Ike can be seen to set and rise. See Libration, below). It is the largest among planetary satellites relative to the size of the planet that it orbits in the Kerbol system.
  
== Characteristics ==
+
An encounter with Ike is quite likely when approaching Duna, provided the player's trajectory is near the plane of Ike's orbit. This is because Ike's sphere of influence is very high relative to the semi-major axis of its orbit &mdash; in fact, no other moon in the [[Kerbol System]] has a larger SOI-to-semi-major-axis ratio<!--
 +
Gilly:  0.00400391333
 +
Mun:    0.20246325833
 +
Minmus: 0.04781762553
 +
Ike:    0.32799965625
 +
Laythe: 0.13697931872
 +
Vall:  0.05576569800
 +
Tylo:  0.15848931387
 +
Bop:    0.00950241914
 +
--> and no other moon is as close in mass to its parent &ndash; Ike has about 6% the mass of Duna.
  
*[http://en.wikipedia.org/wiki/Radius Equatorial Radius]: ... km
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Stationary orbit around Ike is not possible &mdash; it would require an altitude of
 +
{{OrbitAltitude|b=Ike|f=k}}, outside of Ike's sphere of influence. However, since Ike and Duna are tidally locked to each other, a spacecraft in stationary orbit around Duna will see Ike in a near stable, non-rotating position, as if it were in a stationary Ike orbit. It is not perfectly stationary as Ike has both a non-zero orbital eccentricity and a very small orbital inclination.
  
*[http://en.wikipedia.org/wiki/Elevation Minimum Elevation]: ... m
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Although Duna is the game analog for Mars, Ike does not seem to represent Phobos or Deimos. The Duna-Ike system could be interpreted as an analog of Pluto-Charon &ndash; in the real solar system, no moon has a mass as similar to its parent body as Ike.
  
*[http://en.wikipedia.org/wiki/Elevation Maximum Elevation]: ... m
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== In-game Description ==
  
*[http://en.wikipedia.org/wiki/Mass Mass]: ... kg
+
'''KSP 1:'''
 +
{{Quote
 +
|Ike is a relatively large, grey object occasionally seen orbiting Duna. Scientists have postulated that Ike is seemingly perfectly positioned to sneakily interfere with any object that presumes to come orbiting near its parent.
 +
|[[Kerbal Astronomical Society]]}}
  
*[http://en.wikipedia.org/wiki/Density Density]: ... g/cm³
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'''KSP 2:'''
 +
{{Quote
 +
|Ike loves visitors, even when said visitors were planning to go to Duna. Its relatively large SOI, lack of atmosphere, and geostationary orbit make it a breeze to bump into this tidally-locked moon. If you find yourself crashing there, let us know. We'd love more data on Ike's dormant stratovolcanoes and mostly untouched ashfall regions. Oh, and we'll set up a rescue operation.|}}
  
*[http://en.wikipedia.org/wiki/Surface_gravity Surface Gravity]: ... m/s² or ... g
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== Geostationary properties and libration ==
 +
<!--[[File:Ikes libration.gif|thumb|left|An animation of an orbit viewed from Duna (thumbnail is currently not working)]]-->
 +
Ike's orbit keeps it directly above a short range of Duna longitudes. The average Duna longitude where Ike tends to stay directly above in the sky (at the [[w:Zenith|Zenith]]) is 3 degrees east, but the exact longitude oscillates between about 0 degrees and 6 degrees east due to the eccentricity of Ike's orbit. This eccentricity also makes Ike appear to grow slightly larger and smaller to an observer on the surface of Duna. The latitude for which Ike is in the Zenith also oscillates between 0.2 degrees south and 0.2 degrees north due to Ike's orbital inclination, making Ike appear to rotate upwards and downwards as viewed from the surface, but due to the extremely small orbital inclination, this effect is nearly imperceptible. These phenomena together are known as [[w:Libration|libration]]. Due to the oscillation in Ike's position above the horizon, areas from 90°W to 84°W and 90°E to 96°E on Duna can observe Ike rise and set at least partially across the horizon, as can any areas north of 89.8°N or south of 89.8°S
  
*[http://en.wikipedia.org/wiki/Standard_gravitational_parameter Gravitational parameter]: ... km³/
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Traveling from a 50&nbsp;km Duna orbit to a 10&nbsp;km Ike orbit requires approximately 435&nbsp;m/s of delta-V.
 +
<!--
 +
Ike orbits 3200 km above Duna's center, or 2880 km above Duna's surface. Turning a 50x50 km Duna orbit (speed: 902.5 m/s) into a 50x2880 km one (periapsis speed: 1208.4 m/s) requires a burn of 305.9 m/s. Assuming the ship enters Ike's SOI with a speed of 100 m/s and a periapsis of 10 km, turning this into a 10x10 km Ike orbit requires requires a burn of 125.6 m/s at periapsis. Total: 305.9 + 125.6 = 431.5 m/s.
  
*[http://en.wikipedia.org/wiki/Escape_velocity Escape velocity] from surface: ... m/s
 
  
*[http://en.wikipedia.org/wiki/Rotation_period Rotation Period]: ... hours;  [http://en.wikipedia.org/wiki/Rotation Rotation]: ... [http://en.wikipedia.org/wiki/Degree_(angle) degrees] per hour, or ... m/s
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Source: https://github.com/numerobis/KSP-scripts/blob/master/planet.py
 +
> from planet import *
 +
> ike.soiBurn(10000, 100) # first argument is periapsis (in meters), second is speed on exiting SOI
  
== Orbital Characteristics ==
 
  
*[http://en.wikipedia.org/wiki/Focus_(geometry) Parent Body]: [[Duna]]
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The return trip requires the same two burns, reversed -- one burn to escape Ike's SOI, the second to circularize around Duna -- but [[aerobraking]] around Duna can greatly reduce the 305.9 m/s cost of the circularization burn.
 +
-->
  
*[http://en.wikipedia.org/wiki/Semi-major_axis Semi-Major Axis]: ... km
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== Topography ==
 +
Ike is extremely rocky. Its tallest points are 12.75&nbsp;km above its lowest, giving it an elevation range over 3 times that of the [[Mun]]<!--3.34 km--> despite the fact that the Mun has a 54% wider radius and 137% more surface area. The increased elevation and smaller size result in many steep slopes and make landing quite difficult. The bottoms of valleys are among the flatter, safer landing locations.
  
*[http://en.wikipedia.org/wiki/Orbital_speed Velocity]: ... m/s
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In [[KSP1]], Ike lacks any visible impact craters. This is strange considering that it has no atmosphere and isn't much smaller than the [[Mun]] which has plenty of craters. A few craters are visible in [[KSP2]].
  
*[http://en.wikipedia.org/wiki/Longitude_of_the_ascending_node Longitude of Ascending Node]: ...°
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In [[KSP1]], the ground is dark grey, notably darker than that of other rock moons like [[Mun]], and sprinkled with large rocks when terrain scatters are on. Sometimes the ground doesn't reflect sunlight, which generates an effect where if someone is looking at the ground, it seems to be nighttime; only looking up shows that it is actually ''daytime'''''Bold text'''. This is much different in [[KSP2]], where Ike's coloration is much closer to those of the [[Mun]].
  
*[http://en.wikipedia.org/wiki/Argument_of_periapsis Argument of Periapsis]: ...° 
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== KSP1 Biomes ==
  
*[http://en.wikipedia.org/wiki/Mean_anomaly Mean Anomaly] at [http://en.wikipedia.org/wiki/Epoch_(astronomy) Epoch] UT = ... radians
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[[File:IkeBiomeMap.png|thumb|none|Ike biome map (legend)]]
  
*[http://en.wikipedia.org/wiki/Orbital_period Orbital Period]: ... hours, ... minutes, ... seconds
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Ike has 8 [[biome]]s. It is one of three bodies (the other being [[Moho]] and [[Kerbin]]) that has their own North and South Pole biome.
  
* [http://en.wikipedia.org/wiki/Synodic_period Synodic Period] from Duna's Surface: ... hours, ... minutes, ... seconds
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=== Biome list ===
 +
{{Biome list|
 +
* Polar Lowlands
 +
* Midlands
 +
* Lowlands
 +
* Eastern Mountain Ridge
 +
* Western Mountain Ridge
 +
* Central Mountain Range
 +
* South Eastern Mountain Range
 +
* South Pole}}
  
*[http://en.wikipedia.org/wiki/Sphere_of_influence_%28astrodynamics%29 Sphere of influence]: ... km or ... body radii
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== KSP2 ==
 +
=== Surface Research Locations ===
  
== See Also ==
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Surface research locations on Ike include:
* [[Universe]]
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* [[Star]]
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* Lava Fields
* [[Moon]]
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* Volcanic Fields
* [[Asteroid]]
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* Volcanoes
 +
* Caldera
 +
 
 +
=== Maps ===
 +
==== Biomes ====
 +
[[File:ike_region_ui.jpg|thumb|none|Ike biome map with legend (as of v0.2.1.0 (from Orbital Survay mod))]]
 +
[https://i.imgur.com/FoE5aRw.jpeg Ike biome map (Imgur)]
 +
 
 +
==== Visual map ====
 +
[[File:ike_visual.png|thumb|none|Ikevisual map (as of v0.2.1.0)]]
 +
[https://i.imgur.com/ljqjqoy.png Ike visual map (Imgur)]
 +
 
 +
== Easter Eggs ==
 +
 
 +
Reference: Do not taunt with the happy fun ball!
 +
Before 0.18, there was a boulder locked in a polar orbit, roughly 100 cubic meters, with green bands and a monolith. It had no gravitational pull (and was not affected by gravity). It had a flawed collision box, so an attempted landing always resulted in an explosion of some kind. It was called 'The Magic Boulder' which was its official name as shown in the log entry "Ship crashed into magic boulder". [http://www.youtube.com/watch?v=WJBSea-3DHs An example video] has been made by YouTuber Scott Manley, who maintained a distance of 8 meters long enough to give viewers an excellent picture of the object. Since 1.1.3, the Magic Boulder will instead randomly appear as a (purely cosmetic variation of) an "asteroid". Also Ike has a pointy pole. Danny2462 does a video on this (https://www.youtube.com/watch?v=-e5SGynBJ4Y) where he searches the Magic Boulder (see above) but (in the map view) he sees a pointy pole. He lands near it and then EVA's his only Kerbal out and then he goes there and the pole flips the camera, then messes with it, then kills the Kerbal.
 +
 
 +
== Reference Frames ==
 +
{{:Ike/RefFrame}}
 +
 
 +
== Gallery ==
 +
=== [[Kerbal Space Program]] ===
 +
<gallery>
 +
File:Gravitational_Assist.png|A gravitational assist from Ike can help reduce descent velocity down to Duna's surface.
 +
Ike_Eclipse.png        | Ike eclipsing the sun as seen from Duna
 +
Ike.png                | Ike as seen in the Tracking Station
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Ike-sky.png            | Ike's sky, with [[Duna]] in it at all times as well as [[Kerbol]]
 +
Ike-landing.png        | A landing party on Ike's surface
 +
File:PermafrostIkeLander.png | Small lander ascending from Ike.
 +
IkeOrbit.png            | Jebediah Kerman floating in front of a large spacecraft which is orbiting Ike. In the background you can see Duna.
 +
Gui_Ike_ISA_Topo.png    | Topographical map of Ike
 +
Gui_Ike_Polars_Topo.png | Polar topographical map
 +
Ike_map_800.gif        | A topographic height map of Ike made with the ISA MapSat plugin
 +
</gallery>
 +
 
 +
== Changes ==
 +
=== [[Kerbal Space Program]] ===
 +
;[[0.90]]
 +
* Added biomes
 +
;[[0.17]]
 +
* Initial release
 +
 
 +
=== [[Kerbal Space Program 2]] ===
 +
;[[KSP2 v0.2.0.0]]
 +
* Added research locations
 +
;v0.1.0.0
 +
* Initial release
  
 
{{Celestial Bodies}}
 
{{Celestial Bodies}}
 
[[Category:Celestials]]
 
[[Category:Celestials]]
 +
[[Category:Moons]]

Latest revision as of 18:57, 20 March 2024

Ike
Ike
Ike as seen from orbit.
Moon of Duna
Orbital Characteristics
Semi-major axis 3 200 000 m [Note 1]
Apoapsis 3 296 000 m [Note 1]
Periapsis 3 104 000 m [Note 1]
Orbital eccentricity 0.03
Orbital inclination 0.2 °
Argument of periapsis 0 °
Longitude of the ascending node 0 °
Mean anomaly 1.7 rad (at 0s UT)
Sidereal orbital period 65 518 s
3 d 0 h 11 m 57.9 s
Synodic orbital period 65 766.7 s
Orbital velocity 298 - 316 m/s
Longest time eclipsed 2 153 s
Physical Characteristics
Equatorial radius 130 000 m
Equatorial circumference 816 814 m
Surface area 2.1237166×1011 m2
Mass 2.7821615×1020 kg
Standard gravitational parameter 1.8568369×1010 m3/s2
Density 30 231.777 kg/m3
Surface gravity 1.10 m/s2 (0.112 g)
Escape velocity 534.48 m/s
Sidereal rotation period 65 517.862 s
3 d 0 h 11 m 57.9 s
Sidereal rotational velocity 12.467 m/s
Synchronous orbit 1 133.90 km
Sphere of influence 1 049 598.9 m [Note 1]
Atmospheric Characteristics
Atmosphere present No
Scientific multiplier
Surface 8
Splashed N/A
Near space 7
Outer space 5
Recovery 5

  1. 1.0 1.1 1.2 1.3 The distances are given from the body's center, not from the surface (unlike ingame)

Ike is a moon and the only natural satellite of Duna. Ike has steep, rocky slopes and no atmosphere. Ike and Duna are tidally locked due to their proximity and Ike's size. This means that Ike is in synchronous orbit around its parent body, and that each body is only visible from approximately half of its partner's surface. (It would be exactly half, but Ike's slightly eccentric orbit creates regions for which Ike can be seen to set and rise. See Libration, below). It is the largest among planetary satellites relative to the size of the planet that it orbits in the Kerbol system.

An encounter with Ike is quite likely when approaching Duna, provided the player's trajectory is near the plane of Ike's orbit. This is because Ike's sphere of influence is very high relative to the semi-major axis of its orbit — in fact, no other moon in the Kerbol System has a larger SOI-to-semi-major-axis ratio and no other moon is as close in mass to its parent – Ike has about 6% the mass of Duna.

Stationary orbit around Ike is not possible — it would require an altitude of 1 133.90 km, outside of Ike's sphere of influence. However, since Ike and Duna are tidally locked to each other, a spacecraft in stationary orbit around Duna will see Ike in a near stable, non-rotating position, as if it were in a stationary Ike orbit. It is not perfectly stationary as Ike has both a non-zero orbital eccentricity and a very small orbital inclination.

Although Duna is the game analog for Mars, Ike does not seem to represent Phobos or Deimos. The Duna-Ike system could be interpreted as an analog of Pluto-Charon – in the real solar system, no moon has a mass as similar to its parent body as Ike.

In-game Description

KSP 1:

Ike is a relatively large, grey object occasionally seen orbiting Duna. Scientists have postulated that Ike is seemingly perfectly positioned to sneakily interfere with any object that presumes to come orbiting near its parent.

Kerbal Astronomical Society

KSP 2:

Ike loves visitors, even when said visitors were planning to go to Duna. Its relatively large SOI, lack of atmosphere, and geostationary orbit make it a breeze to bump into this tidally-locked moon. If you find yourself crashing there, let us know. We'd love more data on Ike's dormant stratovolcanoes and mostly untouched ashfall regions. Oh, and we'll set up a rescue operation.

Geostationary properties and libration

Ike's orbit keeps it directly above a short range of Duna longitudes. The average Duna longitude where Ike tends to stay directly above in the sky (at the Zenith) is 3 degrees east, but the exact longitude oscillates between about 0 degrees and 6 degrees east due to the eccentricity of Ike's orbit. This eccentricity also makes Ike appear to grow slightly larger and smaller to an observer on the surface of Duna. The latitude for which Ike is in the Zenith also oscillates between 0.2 degrees south and 0.2 degrees north due to Ike's orbital inclination, making Ike appear to rotate upwards and downwards as viewed from the surface, but due to the extremely small orbital inclination, this effect is nearly imperceptible. These phenomena together are known as libration. Due to the oscillation in Ike's position above the horizon, areas from 90°W to 84°W and 90°E to 96°E on Duna can observe Ike rise and set at least partially across the horizon, as can any areas north of 89.8°N or south of 89.8°S

Traveling from a 50 km Duna orbit to a 10 km Ike orbit requires approximately 435 m/s of delta-V.

Topography

Ike is extremely rocky. Its tallest points are 12.75 km above its lowest, giving it an elevation range over 3 times that of the Mun despite the fact that the Mun has a 54% wider radius and 137% more surface area. The increased elevation and smaller size result in many steep slopes and make landing quite difficult. The bottoms of valleys are among the flatter, safer landing locations.

In KSP1, Ike lacks any visible impact craters. This is strange considering that it has no atmosphere and isn't much smaller than the Mun which has plenty of craters. A few craters are visible in KSP2.

In KSP1, the ground is dark grey, notably darker than that of other rock moons like Mun, and sprinkled with large rocks when terrain scatters are on. Sometimes the ground doesn't reflect sunlight, which generates an effect where if someone is looking at the ground, it seems to be nighttime; only looking up shows that it is actually daytimeBold text. This is much different in KSP2, where Ike's coloration is much closer to those of the Mun.

KSP1 Biomes

Ike biome map (legend)

Ike has 8 biomes. It is one of three bodies (the other being Moho and Kerbin) that has their own North and South Pole biome.

Biome list

Ike In-game biome map as of 1.2
  • Polar Lowlands
  • Midlands
  • Lowlands
  • Eastern Mountain Ridge
  • Western Mountain Ridge
  • Central Mountain Range
  • South Eastern Mountain Range
  • South Pole

KSP2

Surface Research Locations

Surface research locations on Ike include:

  • Lava Fields
  • Volcanic Fields
  • Volcanoes
  • Caldera

Maps

Biomes

File:Ike region ui.jpg
Ike biome map with legend (as of v0.2.1.0 (from Orbital Survay mod))

Ike biome map (Imgur)

Visual map

File:Ike visual.png
Ikevisual map (as of v0.2.1.0)

Ike visual map (Imgur)

Easter Eggs

Reference: Do not taunt with the happy fun ball! Before 0.18, there was a boulder locked in a polar orbit, roughly 100 cubic meters, with green bands and a monolith. It had no gravitational pull (and was not affected by gravity). It had a flawed collision box, so an attempted landing always resulted in an explosion of some kind. It was called 'The Magic Boulder' which was its official name as shown in the log entry "Ship crashed into magic boulder". An example video has been made by YouTuber Scott Manley, who maintained a distance of 8 meters long enough to give viewers an excellent picture of the object. Since 1.1.3, the Magic Boulder will instead randomly appear as a (purely cosmetic variation of) an "asteroid". Also Ike has a pointy pole. Danny2462 does a video on this (https://www.youtube.com/watch?v=-e5SGynBJ4Y) where he searches the Magic Boulder (see above) but (in the map view) he sees a pointy pole. He lands near it and then EVA's his only Kerbal out and then he goes there and the pole flips the camera, then messes with it, then kills the Kerbal.

Reference Frames

Time warp Minimum Altitude
Any
5× 5 000 m
10× 5 000 m
50× 10 000 m
100× 25 000 m
1 000× 50 000 m
10 000× 100 000 m
100 000× 200 000 m

Gallery

Kerbal Space Program

Changes

Kerbal Space Program

0.90
  • Added biomes
0.17
  • Initial release

Kerbal Space Program 2

KSP2 v0.2.0.0
  • Added research locations
v0.1.0.0
  • Initial release