@EXPERIMENT_DEFINITION[*]:HAS[#id[surfaceSample]]:FOR[RP-0]{ %RESULTS {

1. @EXPERIMENT_DEFINITION[*]:HAS[#id[surfaceSample]]:FOR[RP-0]
2. {
3. %RESULTS
4. {
5. //Mercury
6.  
7. //Venus
8. //Mountains
9. VenusSrfLandedMountains = The ground here seems to be covered in a 'frost' of dense metal.
10.  
11. //Canyons
12. VenusSrfLandedCanyons = The rock here has been ripped apart by tectonic forces.
13.  
14. //Lakshmi Planum
15. VenusSrfLandedLakshmiPlanum = The rock appears to be solidified lava. You wonder how immense the eruption must have been that created it.
16.  
17. //Fortuna Tessera
18. VenusSrfLandedFortunaTessera = You reach down into one of the cracks and take a soil sample. The rock contains extremely high amounts of volcanic material.
19.  
20. //Volcanic Rise
21. VenusSrfLandedVolcanicRise = The ground here is cracked and splintered. There seems to be a high amount of volcanic material.
22.  
23. //Highlands
24.  
25. //Midlands
26.  
27. //Lowlands
28.  
29.  
30.  
31.  
32. //Earth
33.  
34.  
35.  
36. //Moon
37. //general
38. MoonSrfLanded = The ground materials appear to be a combination of basaltic rocks and breccia.
39.  
40. //Lowlands
41.  
42. //Highlands
43. MoonSrfLandedHighlands = The sample appears to be comprised of a large number of materials that have layered over time.
44. MoonSrfLandedHighlands = The sample appears to be comprised of a large number of materials that have layered over time.
45. MoonSrfLandedHighlands = The sample has low amounts of basaltic rock. This might account for the changes in coloration we've seen.
46.  
47. //Midlands
48. MoonSrfLandedMidlands = The darker midlands surface appears to be made up of basaltic rocks.
49.  
50. //Lunar Seas
51.  
52. //Major Craters
53. MoonSrfLandedMajorCraters = The sample contains a combination of breccia and melted materials.
54. MoonSrfLandedMajorCraters = The sample contains a combination of breccia and melted materials.
55. MoonSrfLandedMajorCraters = There are high concentrations of metals in this crater.
56. MoonSrfLandedMajorCraters = This crater must have had a really nasty impact, the samples are heavier than normal.
57. MoonSrfLandedMajorCraters = The crater seems to contain materials from lower layers of the surface.
58. MoonSrfLandedMajorCraters = Samples from this location seem to show intense shock patterns.
59.  
60. //Far Side Basin
61. MoonSrfLandedFarSideBasin = The surface here consists of multiple types of rock. Some appear almost crystalline.
62.  
63. //North Pole
64. MoonSrfLandedNorthPole = You examine the rocks you have collected. Upon further investigation, you realise that there is a strange weight to one of them, it does not feel like it has the same weight as the other rocks you've collected and seems hollow. You promptly place it into a sample container.
65. MoonSrfLandedNorthPole = The samples here show lower concentrations of ejecta. There appears to be some liquids in the soil that have frozen permanently.
66. MoonSrfLandedNorthPole = It's a cold piece of soil. As cold as ice. Wait.
67.  
68. //South Pole
69. MoonSrfLandedSouthPole = You examine the rocks you have collected. Upon further investigation, you realise that there is a strange weight to one of them, it does not feel like it has the same weight as the other rocks you've collected and seems hollow. You promptly place it into a sample container.
70. MoonSrfLandedSouthPole = The samples here show lower concentrations of ejecta. There appears to be some liquids in the soil that have frozen permanently.
71. MoonSrfLandedSouthPole = It's a cold piece of soil. As cold as ice. Wait.
72.  
73.  
74.  
75. //Mars
76. //North Pole
77. MarsSrfLandedNorthPole = Breaking through the thin crust, you find layers of dirt mixed with ice, laid down in countless cycles of thawing and freezing.
78.  
79. //South Pole
80. MarsSrfLandedSouthPole = Breaking through the thin crust, you find layers of dirt mixed with ice, laid down in countless cycles of thawing and freezing.
81.  
82. //Lowlands
83. MarsSrfLandedLowlands = The small rock you pick up seems to be of sedimentary origin. You wonder if there was ever a lake here.
84. MarsSrfLandedLowlands = The soil contains significant quantities of sodium, potassium, chlorine, and magnesium. Almost prime crop soil, if it weren't for the dessication, lack of atmospheric pressure, and being on Mars.
85.  
86. //Valles Marineris
87. MarsSrfLandedVallesMarineris = The rocks here appear to contain many water minerals. Did water once flow through this canyon?
88.  
89. //Midlands
90. MarsSrfLandedMidlands = The soil contains significant quantities of sodium, potassium, chlorine, and magnesium. Almost prime crop soil, if it weren't for the dessication, lack of atmospheric pressure, and being on Mars.
91.  
92. //Higlands
93. MarsSrfLandedHighlands = The soil contains significant quantities of sodium, potassium, chlorine, and magnesium. Almost prime crop soil, if it weren't for the dessication, lack of atmospheric pressure, and being on Mars.
94.  
95.  
96.  
97. //Phobos
98. //Craters
99. PhobosSrfLandedCraters = The craters contain small meteorite fragments. Somehow they fell back down despite the low gravity.
100.  
101. //Io
102.  
103. //Europa
104.  
105. //Ganymede
106.  
107. //Callisto
108.  
109. //Titan
110. //Water
111. TitanSrfSplashedWater = The lake appears to be made of liquefied natural gas.
112.  
113. }
114. }