Difference between revisions of "Moon"

From Kerbal Space Program Wiki
Jump to: navigation, search
(Moon comparison: +radius and surface gravity;)
m
 
(2 intermediate revisions by 2 users not shown)
Line 4: Line 4:
  
 
== Irregularity ==
 
== Irregularity ==
Moons are either defined as [[w:regular moon|regular moon]]s or [[w:irregular moon|irregular moon]]s depending on the orbital characteristics. Most of them are regular moons, because they orbits have a low eccentricity and inclination. The moons [[Gilly]], [[Bop]] and [[Pol]] are the most irregular predefined moons. It should be noted that this differentiation is made by observations and are not officially documented in the game. There is no difference between them and other celestial bodies in terms of game mechanics.
+
Moons are either defined as [[w:regular moon|regular moon]]s or [[w:irregular moon|irregular moon]]s depending on the orbital characteristics. Most of them are regular moons, because their orbits have a low eccentricity and inclination. The moons [[Gilly]], [[Bop]] and [[Pol]] are the most irregular predefined moons. It should be noted that this differentiation is made by observations and are not officially documented in the game. There is no difference between them and other celestial bodies in terms of game mechanics.
  
 
There are various properties to differentiate between both types and the properties are opposing. For example regular moons have a low eccentricity while irregular moons have usually high eccentricities. Apart from the eccentricity irregular moons have also high inclinations, a low mass ratio to the body they orbit and are uneven. Generally irregular moons have also a lower mass than their regular counterparts which results in a lower surface gravity, although they are smaller. Sometimes there is a ratio between the [[sphere of influence]] and [[semi-major axis]] mentioned, which is the same as the mass ratio raised to the power of ⅖.
 
There are various properties to differentiate between both types and the properties are opposing. For example regular moons have a low eccentricity while irregular moons have usually high eccentricities. Apart from the eccentricity irregular moons have also high inclinations, a low mass ratio to the body they orbit and are uneven. Generally irregular moons have also a lower mass than their regular counterparts which results in a lower surface gravity, although they are smaller. Sometimes there is a ratio between the [[sphere of influence]] and [[semi-major axis]] mentioned, which is the same as the mass ratio raised to the power of ⅖.
  
 
[[File:Index.jpg|thumbnail|The real life near-Earth asteroid [[w:433 Eros|Eros]]]]
 
[[File:Index.jpg|thumbnail|The real life near-Earth asteroid [[w:433 Eros|Eros]]]]
The moons Gilly, Bop and Pol are considered irregular moons, because most of the defining properties are distinctly different than those from the regular moons. Only the irregular moons, except for [[Ike]] which is considered a regular moon, no eccentricity but even Ike's eccentricity is small compared to the irregular moons.
+
The moons Gilly, Bop and Pol are considered irregular moons, because most of the defining properties are distinctly different than those of the regular moons.
  
Because it is believed in the real-world science that most irregular moons are captured asteroids, they are sometimes called captured asteroids. But they are different with dynamically generated asteroids which were captured, because dynamically generated asteroids are even smaller than predefined ones.<ref>[[article:265|“Asteroid Redirect Mission - The FAQ”]] by Rowsdower released on March 14<sup>th</sup></ref> They also don't have a gravitational field, which makes them different from moons in terms of celestial mechanics.
+
Because it is believed in the real-world science that most irregular moons are captured asteroids, they are sometimes called captured asteroids. But they are different with dynamically generated asteroids which were captured, because dynamically generated asteroids are even smaller than predefined ones, and subject to the games physics system.<ref>[[article:265|“Asteroid Redirect Mission - The FAQ”]] by Rowsdower released on March 14<sup>th</sup></ref> They also don't have a gravitational field, which makes them different from moons in terms of celestial mechanics.
  
 
== Moon comparison ==
 
== Moon comparison ==
The following table shows those properties for all moons, with irregular moons highlighted. For the mass ratio, eccentricity and unevenness all irregular moons are grouping together and the difference to the closest regular moon is good observable. Only the regular moon Ike has a higher inclination. Another regular moon Minmus has a smaller radius and surface gravity than Bop. The unevenness is the quotient of the highest point divided by the radius. An unevenness of 0.01 means, that the highest mountain is as high as 1% of the complete radius (as the highest point data isn't complete those unevenness values denoted as n/a).
+
The following table shows those properties for all moons, with irregular moons highlighted. For the mass ratio, eccentricity and unevenness all irregular moons are grouped together and the difference to the closest regular moon is easily observable. Only the regular moon Ike has a higher inclination. Another regular moon Minmus has a smaller radius, lower mass and surface gravity than Bop. The unevenness is the quotient of the highest point divided by the radius. An unevenness of 0.01 means, that the highest mountain is as high as 1% of the complete radius (if the highest point data isn't complete the unevenness value is denoted as n/a).
  
 
{| class="wikitable sortable"
 
{| class="wikitable sortable"
Line 21: Line 21:
 
! Moon
 
! Moon
 
! Radius (km)
 
! Radius (km)
 +
! Mass (kg)
 
! Mass ratio
 
! Mass ratio
 
! Eccentricity
 
! Eccentricity
Line 26: Line 27:
 
! Unevenness
 
! Unevenness
 
! Surface gravity (m/s²)
 
! Surface gravity (m/s²)
{{:Captured asteroid/Row|Gilly}}
+
{{:Moon/Row|Gilly}}
{{:Captured asteroid/Row|Mun}}
+
{{:Moon/Row|Mun}}
{{:Captured asteroid/Row|Minmus}}
+
{{:Moon/Row|Minmus}}
{{:Captured asteroid/Row|Ike}}
+
{{:Moon/Row|Ike}}
{{:Captured asteroid/Row|Laythe}}
+
{{:Moon/Row|Laythe}}
{{:Captured asteroid/Row|Vall}}
+
{{:Moon/Row|Vall}}
{{:Captured asteroid/Row|Tylo}}
+
{{:Moon/Row|Tylo}}
{{:Captured asteroid/Row|Bop}}
+
{{:Moon/Row|Bop}}
{{:Captured asteroid/Row|Pol}}
+
{{:Moon/Row|Pol}}
 
|}
 
|}
  

Latest revision as of 19:04, 18 March 2016

Mun, the nearest moon to Kerbin and largest in the Kerbin system
Eve's moon Gilly is the smallest, lightest, bumpiest and most eccentric moon

A moon or natural satellite is a celestial body which orbits another larger celestial body which isn't a star. While in real-world a variety of types of bodies have moons, only the five largest planets in Kerbal Space Program have moons predefined by the game. It is possible to add additional moons using dynamically generated asteroids.

Irregularity

Moons are either defined as regular moons or irregular moons depending on the orbital characteristics. Most of them are regular moons, because their orbits have a low eccentricity and inclination. The moons Gilly, Bop and Pol are the most irregular predefined moons. It should be noted that this differentiation is made by observations and are not officially documented in the game. There is no difference between them and other celestial bodies in terms of game mechanics.

There are various properties to differentiate between both types and the properties are opposing. For example regular moons have a low eccentricity while irregular moons have usually high eccentricities. Apart from the eccentricity irregular moons have also high inclinations, a low mass ratio to the body they orbit and are uneven. Generally irregular moons have also a lower mass than their regular counterparts which results in a lower surface gravity, although they are smaller. Sometimes there is a ratio between the sphere of influence and semi-major axis mentioned, which is the same as the mass ratio raised to the power of ⅖.

The real life near-Earth asteroid Eros

The moons Gilly, Bop and Pol are considered irregular moons, because most of the defining properties are distinctly different than those of the regular moons.

Because it is believed in the real-world science that most irregular moons are captured asteroids, they are sometimes called captured asteroids. But they are different with dynamically generated asteroids which were captured, because dynamically generated asteroids are even smaller than predefined ones, and subject to the games physics system.[1] They also don't have a gravitational field, which makes them different from moons in terms of celestial mechanics.

Moon comparison

The following table shows those properties for all moons, with irregular moons highlighted. For the mass ratio, eccentricity and unevenness all irregular moons are grouped together and the difference to the closest regular moon is easily observable. Only the regular moon Ike has a higher inclination. Another regular moon Minmus has a smaller radius, lower mass and surface gravity than Bop. The unevenness is the quotient of the highest point divided by the radius. An unevenness of 0.01 means, that the highest mountain is as high as 1% of the complete radius (if the highest point data isn't complete the unevenness value is denoted as n/a).

Comparisons between the moons
Moon Radius (km) Mass (kg) Mass ratio Eccentricity Inclination (°) Unevenness Surface gravity (m/s²)
TinyGilly.png Gilly 13.00 1.2420×1017 0.00000100 0.550 12.00 0.4923 0.05
TinyMun.png Mun 200.00 9.7599×1020 0.01844440 0.000 0.00 0.0353 1.63
TinyMinmus.png Minmus 60.00 2.6458×1019 0.00050000 0.000 6.00 0.0954 0.49
TinyIke.png Ike 130.00 2.7822×1020 0.06161460 0.030 0.20 n/a 1.10
TinyLaythe.png Laythe 500.00 2.9397×1022 0.00694440 0.000 0.00 n/a 7.85
TinyVall.png Vall 300.00 3.1088×1021 0.00073440 0.000 0.00 0.0266 2.31
TinyTylo.png Tylo 600.00 4.2332×1022 0.01000000 0.000 0.03 n/a 7.85
TinyBop.png Bop 65.00 3.7261×1019 0.00000880 0.235 15.00 0.3347 0.59
TinyPol.png Pol 44.00 1.0814×1019 0.00000260 0.171 4.25 0.1271 0.37

See also

References

  1. “Asteroid Redirect Mission - The FAQ” by Rowsdower released on March 14th