How can a moon have an ever-changing face?












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Imagine an inhabitated planet like ours with a moon of the same projected size in the sky. The moon has visible structures of colors or darker and lighter areas.



Every evening when the moon gets visible in the sky, it's surface changed in at least 1/4 of the visible area. It didn't just rotate, no-one on this planet has ever seen the same image of the moon twice in their life.



How is it possible that the structure or pattern on the surface of a moon changes constantly while the planet is stable enough to support intelligent life?



Edit due to so many answers requiring an atmosphere to work: The moon can have an atmosphere, but the changing patterns must be on a planetary (or moony?) scale and look otherworldly. Simple clouds floating around are too similar to what the natives see every day on their home planet. Giant stoms like on Jupiter are ok, but they have the tendency to repeat their patterns.










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    Related: Always a full Moon for the Emperor - Can this be achieved with solar panels and LEDs?
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    – Alexander
    yesterday










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    It's Io! Of course, you'd be hard pressed to find a moon with a lot of geological activity without also having Io's conditions. (I.e. Orbiting a gas giant and surrounded by many other moons.) Maybe if the moon somehow formed very recently?
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    – Lemma Prism
    22 hours ago






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    Clouds don't necessarily look the same from space as they do from the ground. If you look at images of Earth from space, the clouds look pretty other-worldly to me. Plus, if your moon has a different chemistry from the planet, the clouds will look very different anyway - think about the clouds on Venus, or any of the gas giants.
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    – Nathaniel
    17 hours ago










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    I can't answer this in detail, but I suspect a liquid surface is ever-changing, no?
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    – Mikey
    5 hours ago






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    @Kapten-N Noted, but irrelevant for the question ;)
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    – Elmy
    4 hours ago
















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Imagine an inhabitated planet like ours with a moon of the same projected size in the sky. The moon has visible structures of colors or darker and lighter areas.



Every evening when the moon gets visible in the sky, it's surface changed in at least 1/4 of the visible area. It didn't just rotate, no-one on this planet has ever seen the same image of the moon twice in their life.



How is it possible that the structure or pattern on the surface of a moon changes constantly while the planet is stable enough to support intelligent life?



Edit due to so many answers requiring an atmosphere to work: The moon can have an atmosphere, but the changing patterns must be on a planetary (or moony?) scale and look otherworldly. Simple clouds floating around are too similar to what the natives see every day on their home planet. Giant stoms like on Jupiter are ok, but they have the tendency to repeat their patterns.










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    Related: Always a full Moon for the Emperor - Can this be achieved with solar panels and LEDs?
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    – Alexander
    yesterday










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    It's Io! Of course, you'd be hard pressed to find a moon with a lot of geological activity without also having Io's conditions. (I.e. Orbiting a gas giant and surrounded by many other moons.) Maybe if the moon somehow formed very recently?
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    – Lemma Prism
    22 hours ago






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    Clouds don't necessarily look the same from space as they do from the ground. If you look at images of Earth from space, the clouds look pretty other-worldly to me. Plus, if your moon has a different chemistry from the planet, the clouds will look very different anyway - think about the clouds on Venus, or any of the gas giants.
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    – Nathaniel
    17 hours ago










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    I can't answer this in detail, but I suspect a liquid surface is ever-changing, no?
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    – Mikey
    5 hours ago






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    @Kapten-N Noted, but irrelevant for the question ;)
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    – Elmy
    4 hours ago














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Imagine an inhabitated planet like ours with a moon of the same projected size in the sky. The moon has visible structures of colors or darker and lighter areas.



Every evening when the moon gets visible in the sky, it's surface changed in at least 1/4 of the visible area. It didn't just rotate, no-one on this planet has ever seen the same image of the moon twice in their life.



How is it possible that the structure or pattern on the surface of a moon changes constantly while the planet is stable enough to support intelligent life?



Edit due to so many answers requiring an atmosphere to work: The moon can have an atmosphere, but the changing patterns must be on a planetary (or moony?) scale and look otherworldly. Simple clouds floating around are too similar to what the natives see every day on their home planet. Giant stoms like on Jupiter are ok, but they have the tendency to repeat their patterns.










share|improve this question











$endgroup$




Imagine an inhabitated planet like ours with a moon of the same projected size in the sky. The moon has visible structures of colors or darker and lighter areas.



Every evening when the moon gets visible in the sky, it's surface changed in at least 1/4 of the visible area. It didn't just rotate, no-one on this planet has ever seen the same image of the moon twice in their life.



How is it possible that the structure or pattern on the surface of a moon changes constantly while the planet is stable enough to support intelligent life?



Edit due to so many answers requiring an atmosphere to work: The moon can have an atmosphere, but the changing patterns must be on a planetary (or moony?) scale and look otherworldly. Simple clouds floating around are too similar to what the natives see every day on their home planet. Giant stoms like on Jupiter are ok, but they have the tendency to repeat their patterns.







science-based moons astronomy






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edited 4 hours ago







Elmy

















asked yesterday









ElmyElmy

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    It's Io! Of course, you'd be hard pressed to find a moon with a lot of geological activity without also having Io's conditions. (I.e. Orbiting a gas giant and surrounded by many other moons.) Maybe if the moon somehow formed very recently?
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    – Lemma Prism
    22 hours ago






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    Clouds don't necessarily look the same from space as they do from the ground. If you look at images of Earth from space, the clouds look pretty other-worldly to me. Plus, if your moon has a different chemistry from the planet, the clouds will look very different anyway - think about the clouds on Venus, or any of the gas giants.
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    – Nathaniel
    17 hours ago










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    I can't answer this in detail, but I suspect a liquid surface is ever-changing, no?
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    – Mikey
    5 hours ago






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    @Kapten-N Noted, but irrelevant for the question ;)
    $endgroup$
    – Elmy
    4 hours ago


















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    Related: Always a full Moon for the Emperor - Can this be achieved with solar panels and LEDs?
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    – Alexander
    yesterday










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    It's Io! Of course, you'd be hard pressed to find a moon with a lot of geological activity without also having Io's conditions. (I.e. Orbiting a gas giant and surrounded by many other moons.) Maybe if the moon somehow formed very recently?
    $endgroup$
    – Lemma Prism
    22 hours ago






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    Clouds don't necessarily look the same from space as they do from the ground. If you look at images of Earth from space, the clouds look pretty other-worldly to me. Plus, if your moon has a different chemistry from the planet, the clouds will look very different anyway - think about the clouds on Venus, or any of the gas giants.
    $endgroup$
    – Nathaniel
    17 hours ago










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    I can't answer this in detail, but I suspect a liquid surface is ever-changing, no?
    $endgroup$
    – Mikey
    5 hours ago






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    @Kapten-N Noted, but irrelevant for the question ;)
    $endgroup$
    – Elmy
    4 hours ago
















$begingroup$
Related: Always a full Moon for the Emperor - Can this be achieved with solar panels and LEDs?
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– Alexander
yesterday




$begingroup$
Related: Always a full Moon for the Emperor - Can this be achieved with solar panels and LEDs?
$endgroup$
– Alexander
yesterday












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It's Io! Of course, you'd be hard pressed to find a moon with a lot of geological activity without also having Io's conditions. (I.e. Orbiting a gas giant and surrounded by many other moons.) Maybe if the moon somehow formed very recently?
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– Lemma Prism
22 hours ago




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It's Io! Of course, you'd be hard pressed to find a moon with a lot of geological activity without also having Io's conditions. (I.e. Orbiting a gas giant and surrounded by many other moons.) Maybe if the moon somehow formed very recently?
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– Lemma Prism
22 hours ago




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Clouds don't necessarily look the same from space as they do from the ground. If you look at images of Earth from space, the clouds look pretty other-worldly to me. Plus, if your moon has a different chemistry from the planet, the clouds will look very different anyway - think about the clouds on Venus, or any of the gas giants.
$endgroup$
– Nathaniel
17 hours ago




$begingroup$
Clouds don't necessarily look the same from space as they do from the ground. If you look at images of Earth from space, the clouds look pretty other-worldly to me. Plus, if your moon has a different chemistry from the planet, the clouds will look very different anyway - think about the clouds on Venus, or any of the gas giants.
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– Nathaniel
17 hours ago












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I can't answer this in detail, but I suspect a liquid surface is ever-changing, no?
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– Mikey
5 hours ago




$begingroup$
I can't answer this in detail, but I suspect a liquid surface is ever-changing, no?
$endgroup$
– Mikey
5 hours ago




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@Kapten-N Noted, but irrelevant for the question ;)
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– Elmy
4 hours ago




$begingroup$
@Kapten-N Noted, but irrelevant for the question ;)
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– Elmy
4 hours ago










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Make the Moon Bigger



Or, more accurately, more massive. You'd have to move its orbit out a bit to prevent more brutal tides on the planet, but make it massive enough to hold an atmosphere of its own. Make that atmosphere out of denser gases, ones that can be held with a more tenuous grip than our own, and, ideally, ones that can be coloured and have interesting fluid dynamics. Dinitrogen tetroxide, maybe.



With shifting cloud patterns (doubtless very lethal but very pretty), maybe from core heating, you get a relatively rapidly shifting lunar appearance without having to make the moon out of anything implausible.



Edit: Another option - if you're already allowing for an active core for additional heating (and an extra swirly atmosphere), you could also have volcanism. Nothing like a man in the moon with acne!






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    It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
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    You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
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    – jdunlop
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    Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
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    Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
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    – B.fox
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Unutterably Immense Aurora Borealis



Aurora of Jupiter



Credit: nasa.gov -- Aurorae on Jupiter



If you don't already know, aurorae are electromagnetic spectacles caused by high-energy, solar-charged particles bombarding with an atmosphere. They come in many shapes, magnitudes, and colors. Here's how we'll construct your shape-shifting moon with them:



Multicolored Aurorae



Because you've now allowed for an atmosphere, we can actually design how our aurorae will appear. Atmospheric composition determines the color of the aurorae as those high-energy ions interact with the various gases involved. Atomic oxygen produces red, orange, or green light depending on the amount of energy it becomes excited by (generally green light at lower altitudes, more-so ruddy light at higher altitudes in Earth's specific atmosphere). At much lower altitudes, atomic oxygen (again, specific to Earth's atmosphere) becomes less common (atomic oxygen is produced when diatomic oxygen drifts into the upper stratosphere and is broken by UV radiation); nitrogen instead can be used and excited: nitrogen absorbing energy will produce blue light, while nitrogen losing energy (after having gained excess) will produce red light.



Aurorae manifest in curtains descending into the atmosphere, where atmospheric composition, descending into the atmosphere, changes as well. This results in regions where the colors mix: pink, a mixture of red and green light; and yellow, a mixture of green and red (greater intensity followed by lesser intensity).



We have a lot more colors to work with, however (keep in mind, lighter gases are likely to escape the atmosphere, so their concentrations will naturally be diminished [one should also factor in relative abundance under planetary formation conditions]): Helium, white to orange; Neon, red-orange; Argon, violet to a lavender blue; Water Vapor, dimmer pink or magenta; and Carbon Dioxide, blue-white to pink. Personally, I would select our basic, Earth-analog atmospheric concoction of Nitrogen and Oxygen, yet, with a greater proportion of Carbon Dioxide--much greater for the following reason:



Aurorae magnitude in relation to gravity, magnetosphere strength, and atmospheric mass



The magnetosphere of Earth is kind of weak. It manages to nudge only a small fraction of solar-charged particles to collide with the atmosphere. A stronger field will affect particle trajectories more, meaning more collisions with the atmosphere and more lights. Most of the particles flying off the Sun (besides neutrinos, I think) are electrons, which are negative in charge. If geomagnetic north sits at the north pole, then the aurorae will be stronger in the northern hemisphere, although, after some degree of intensity, this distinction may no longer matter as particles bombard most of the atmospheric surface pretty uniformly, in the sense of whether any particular region of atmosphere is exposed naked and non-bombarded. The south pole will attract the remaining positively-charged particles--protons and alpha particles--however, they are lesser in their abundances. Withal, the north pole would be "brighter," or more-so populated with aurorae than the south pole, however, ideally the aurorae will span the whole moon, just being brighter in those regions. Onward.



A thicker, more massive atmosphere in tandem with a weaker gravitational pull is ideal for maximal aurorae activity. The weaker gravity will extend the atmosphere further from the moon's surface. The volumes of atmosphere where the solar-charged particles may interact will be extended under weaker gravity (the atmosphere will be taller).



To complete the picture



Our atmosphere may allow an observer to see the surface. Ideally, we want our aurorae to be consistent and it turns out that solar activity itself is pretty consistent and unvarying. If the surface is ever visible through the swathes of folding, shaping, shifting, entombing, iridescent ribbons, then we must make it indistinct. A volcanic past could achieve this.



Basalt rock



Credit: earthscienceeducation.org -- Basalt Rock



A surface largely of basaltic and obsidian-like rock could probably accomplish this.



Non-repeating patterns



Now, aurorae typically follow magnetic field lines of the magnetosphere. Magnetosphere structures vary depending on a multitude of factors, such as the distance from the sun, the intensity of solar winds, among others. Magnetic geometry is not quite that simple, however. The Aurorae we should expect shouldn't fall into predictable routines, though, just to be safe, let's just offset it from its rotational axis and center of mass and make it do other weird stuff. Also, let's assume that our inhabited world also has a magnetosphere (a safe assumption?) of different, lesser strength and perhaps offset to another angle which isn't perpendicular to the equatorial (also a safe assumption that the moon orbits near the equatorial?). The planet's and the moon's magnetospheres will mesh and interact with one another, possibly in a chaotic fashion, which will certainly help the chaotic appearance of our moon's aurorae.



Interacting magnetic dipoles



Credit: youtube.com -- Interacting magnetic dipoles



In essence, we are taking advantage of the dynamic state of our planet-moon system to mesh and twist the involved electromagnetic geometry as much as possible.



Conclusion



A small moon with a relatively thick atmosphere (perhaps the atmospheric mass of Earth's) perhaps comprised of oxygen, nitrogen, and carbon dioxide, with a basaltic surface of supremely dark, perhaps sooty-like rock and regolith, and an immense, offset, dislodged, and powerful magnetosphere responsible for chaotic bands of aurorae across its photosphere.






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    Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
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    – Elmy
    23 hours ago










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    @Elmy Oh! This'll surely make things a lot more interesting!
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    – B.fox
    23 hours ago



















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How it could work



Water example



Your planet has a (water)ice surface. When the star doesn't shine upon the surface of the moon surface temperature falls below -10 °C (there is likely no pressure on the moon). But when it does shine temperature rises above -10 °C and it melts and the surface transforms, because of gravitational pulls. Other things effecting the surface would be:



Meteor impacts, solar winds, relative position to planet and sun.



Additional effects



Meteor impacts can form large mountain waves which take for months to get molten down while still changing their shape every day. They could also cause swirls and other uneven textures over the moon surface. Although these swirls would mostly be caused by solar winds. Another thing to consider is that the relative position between planet and sun will cause the overall flow direction to change, as would meteor impacts.



Alternatives



You could also use other elements with different melting points for scenarios where temperatures always exceed -10 °C or never exceed -10 °C. Examples:



Lower than -10 °C




  • oxygen -218 °C

  • chlorine -101 °C

  • mercury -38 °C


Higher than -10 °C




  • rubidium 39 °C

  • sodium 97 °C

  • tin 231 °C


Now these are just examples but I hope at least one of them can come to use.



This is my source(just type in the mentioned element and compare the result)






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    Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
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    – Shufflepants
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    @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
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    – Soan
    21 hours ago






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    Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
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    – B.fox
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    @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
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    – Soan
    15 hours ago



















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Naturally occurring Thermochromic chemicals.



Those of us old enough to remember the 1970s remember mood rings.



While such chemicals are unlikely as natural deposits, it is fairly easy to imagine that some flowering plants could incorporate such as a form of sexual attraction or such-like.



No earth-like plants exist without the benefit of atmosphere, but perhaps an different design of plant forms could exist in thin carbon-dioxide atmosphere that may be compatible with your story. A hard-vacuum is likely to make significant plant-like coverage impossible.



Any high-contrast vegetation that has a short lifespan would perhaps be sufficient, esp. competing forms with different reflectance characteristics.






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    Take Pluto as inspiration. From the wiki (all emphasis are mine):




    Pluto's surface is composed of more than 98 percent solid nitrogen, with traces of methane and carbon monoxide. The face of Pluto oriented toward Charon contains more solid methane, whereas the opposite face contains more nitrogen and solid carbon monoxide. Distribution of volatile ices is thought to be season-dependent and influenced more by solar insolation and topography than subsurface processes.



    (...)



    Pluto's surface color has changed between 1994 and 2003: the northern polar region has brightened and the southern hemisphere has darkened. Pluto's overall redness has also increased substantially between 2000 and 2002. These rapid changes are probably related to seasonal condensation and sublimation of portions of Pluto's atmosphere (...)




    Now this may seem to conflict with one of your requirements:




    The moon does not have an atmosphere




    But again, according to another page in Wikipedia:




    The surface pressure of the atmosphere of Pluto, measured by New Horizons in 2015, is about 1 Pa (10 μbar), roughly 100,000 times less than Earth's atmospheric pressure.




    Some satellites in LEO face similar atmospheric pressures and need reboosting every then. Bottom line being: that's what objects in space around us face. So for all practical purposes Pluto's surface is exposed to a vacuum. Standing naked on it wouldn't be much different from being naked on Earth's orbit.






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      The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
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      I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
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      – Renan
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      Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
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      – Elmy
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      @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
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      – Renan
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      @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
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    Your planet is tidally locked and it's moon is made of something with a low melting point.



    This means that it's eternal twilight on the narrow band of habitable terrain on your planet, and that the day is marked by the ascent of the moon, which, continually melted by the sun and frozen by the planet's shadow, changes each day.






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      Oceans of nonlinear chemical oscillator compound!



      Imagine that there`s an ocean on the moon that is filled to the brim with e.g. malonic acid and potassium bromate. That would yield literal chaotic color patterns floating both on its surface and all the way down to the seabed.



      This is called the Belousov–Zhabotinsky reaction.



      All weather changes, including the amount of sunlight absorbed, the surface waves, the underwater currents (well, technically it`s not water, but whatever), the winds, the evaporation, the volcanic activity — everything of the sort would add to the total randomness and uniqueness of the pattern.



      Here`s a video of it oscillating in a Petri dish. And here`s another one.






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        A watery body, such as Enceladus (maybe Ceres as long as it has an icy core), orbits as a moon. This moon could have a very eccentric orbit, causing tidal forced to act upon it, causing cryo-volcanism. these cryovolcanos can cover the surface with various chemicals and minerals (water, salty brine, methane, ethane, or other organics) in an ever changing pattern.



        The cracking and shifting of the fragile surface would also aid in the changing surface patterns.






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          The "no atmosphere" requirement makes this especially tough because it means we're limited to solid materials at the surface. Any liquid would evaporate in the near-perfect vacuum, and any appreciable amount of gas would be, well, an atmosphere.



          You say the moon hasn't rotated, so that leads me to assume it is tidally locked. My suggestion would be a very slow cyclical chemical reaction which occurs in the moon's crust at the surface, similar to the iodine clock reaction. I'm imagining bands of light or color slowly propagating across the surface of the moon, sort of like the Belousov–Zhabotinsky reaction, taking a few hours to travel the full diameter of the moon's disc. This reaction could be catalyzed by the sunlight hitting the surface of the moon as it faces away from the planet, then continue through the moon's "night", where it is visible from the surface of the parent planet.



          This setup could make the moon potentially livable (not a volcanic mess like Io) while avoiding any surface liquids or gases.






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          New contributor




          Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
          Check out our Code of Conduct.






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            Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
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            – Elmy
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            Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
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            – Tyler King
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            No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
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            Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
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            – Tyler King
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          That solar system could be experiencing a phenomenon like the late heavy bombardment: the moon is constantly hit by meteorites, so that it is continuously shaped by these impacts.

          The problem is that these meteorites must be very frequent (say in the order of the dozen of impacts in a day), but quite small - in the range of 10-20 meters - in order not to cause damage when they fall onto the main planet, burning in its atmosphere. In this case probably you should somehow justify the lack of bigger asteroids.

          You could also point that the moon is of recent formation (maybe captured by the gravity of the planet), which implies its core is still active and gives origin to some vulcanic activity that shapes its surface (but in this case the changes would be slower and the surface of the moon wouldn't change a lot in the span of some days).






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            Possibly there could be intelligence of some sort on the moon and their activities can make a big visual change in the appearance of large sections of the moon during short periods.



            Possibly they are artists trying out various "paint" patterns to see which make the moon look best.



            Perhaps they move countless millions of large vehicles of various colors around on the moon, arranging them in various patterns as part of some sort of "dance".



            Maybe they are trying to send a message to the natives of the planet and thus making an ever changing series of patterns on the moon.



            A century or so ago an astronomer believed that some tiny changes of color he observed on the moon were the results of vast hordes of insects moving around.



            So possibly on your moon thick areas of vegetation spring up, changing the color of vast regions, and then vast wandering hordes of insects travel toward them, changing the face of the moon as they move. When the insects arrive at the forest or meadow or swamp their color mingles with the color of the plants and changes the color of the region as seen from the planet.



            So the insects eat all the vegetation in the region, changing its color, and leave their wastes (containing many seeds) behind to fertilize the soil. The insects move on, searching for another area of vegetation, and the area is now a different color, barren of vegetation until the seeds sprout and start to grow. Eventually the plants become thick enough to change the color of the region back to vegetation colored, then the region retains that color until the same or a different horde of insects arrives to eat the vegetation.



            Of course it seem rather doubtful that a planet small enough to be habitable would have a moon large enough to be habitable for at least some types of life. That would make them seem a lot more like a double planet than like a planet and its moon.



            Of course the intelligent beings on the moon don't have to be living beings; they could be machines.



            Or the two worlds could both be habitable planets orbiting their star if their orbits are a lot closer to each other than any planetary orbits in our solar system, so that when the planets pass closest to each other the natives of one can see surface features on the other. There is actually a known solar system where planets in the habitable zone of their star do sometimes orbit close enough for someone on one of them to see surface features on the other - TRAPPIST-1.




            The distance between the orbits of TRAPPIST-1b and TRAPPIST-1c is only 1.6 times the distance between the Earth and the Moon. The planets should appear prominently in each other's skies, in some cases appearing several times larger than the Moon appears from Earth.[41] A year on the closest planet passes in only 1.5 Earth days, while the seventh planet's year passes in only 18.8 days.[38][34]




            https://en.wikipedia.org/wiki/TRAPPIST-11



            Or maybe the "planet" and "moon" are actually both moons that orbit a gas giant planet.
            Your "planet" could actually be a giant, Earth sized habitable moon, and the "moon" would orbit closer to the gas giant. Sometimes your "planet" and the inner moon would be almost on opposite sides of the gas giant and the inner moon wouldn't look big enough for details to be visible. But at intervals, probably every few days, the inner moon would pass close to the outer habitable moon and the natives of the habitable moon could see details of the surface of the inner moon and note the changes (and only in the parts of the moon that were lit by their star) .



            If the inner moon orbits close enough to the gas giant the tidal heating should make the inner moon hyper volcanic like Io, the innermost Galilean moon of Jupiter. Various volcanoes might erupt often, spewing out vast amounts of lava of various colors to constantly resurface the inner moon. So each time that details of the inner moon were visible the surface patterns would be at least slightly different.



            The problem with this is that the clouds and weather patterns on the gas giant planet would be visible all the time and would also change, thus possibly distracting the natives of the habitable moon from the show on the inner moon.



            Possibly the moon in your story could suffer from tidal heating and constant resurfacing if it orbited a habitable planet in the right way. It would probably have to have an eccentric orbit which made it get noticeably farther and closer to the planet at various points in its orbit, and thus the patterns on its surface would only be visible when the moon was closer to the planet (and only in the parts of the moon that were lit by their star).



            Possibly someone here can calculate if it is possible for a habitable planet to have a presumably recently captured moon with enough tidal heating to be constantly resurfacing itself.






            share|improve this answer









            $endgroup$





















              0












              $begingroup$

              An alien race has covered the planet, or whatever percentage you see fit with a giant TV screen.



              Maybe they double as solar panels somehow.



              Now they can literally change any part of the visible surface at whim.



              Just wait till they spam you with moon sized commericials... muhhahahahaha!






              share|improve this answer









              $endgroup$













              • $begingroup$
                worldbuilding.stackexchange.com/questions/131609/…
                $endgroup$
                – chasly from UK
                11 hours ago



















              0












              $begingroup$

              Long ago an intelligent species found this moon and made plans to inhabit it. They created a network of tunnels all across the planet just below its surface. They planted the seeds of life and prepared to begin settling, but for some reason, they never did. So the moon was left, carved tunnels beneath its surface with the beginnings of life sprouting.



              Fast forward a few thousand years to today, and the moon is buzzing with life--but that life all lives underground. A specific creature, the Mitter, has thrived on the underground flora and fauna. They are a fast moving species that is nomadic by nature, constantly moving to different places in different patterns every day.



              However, when they move, they let off an abundance of benign chemicals that rise to the surface. These chemicals glow when in contact with the outside air--glowing a slightly different hue for each Mitter. With the abundance of the creatures and their unusual travel patterns, the planet appears to glow in ever changing shades and hues. Perhaps the Mitters' chemicals glow different colors depending on the time of season so the moon will go through phases of colors throughout the year?






              share|improve this answer









              $endgroup$





















                0












                $begingroup$

                Here are some ideas, for a moon with a solid face:




                • It could have really active plate tectonics moving the surface features around, which (as I understand it) would also imply a strong magnetic field and lots of volcanic activity.

                • It could be very large, and the orbit of your planet could be just near-enough to an asteroid belt that whenever the moon moves toward the outer side of the orbit, it pulls asteroids into itself, actively rearranging the craters on its face

                • If your planet is large, its moon could have a ring small of meteors around it, regularly falling into the moon (with no atmosphere to destroy them) and those could also rearrange the craters.






                share|improve this answer









                $endgroup$





















                  0












                  $begingroup$

                  Arctic sea ice is constantly changing, although not on a daily timescale:
                  https://thumbs.gfycat.com/BothDismalEmperorpenguin.webp






                  share|improve this answer









                  $endgroup$





















                    0












                    $begingroup$

                    The surface of the moon is covered in an exotic lifeform with an exceedingly rapid lifecycle. Colonies of this lifeform grow to cover large portions of the lunar surface in as little as 12 hours, competing for space with surrounding colonies, before rapidly crashing as soil fertility is depleted. No sooner has one colony collapsed, than another has begun its growth on another part of the moon's surface.






                    share|improve this answer









                    $endgroup$












                      protected by James 58 mins ago



                      Thank you for your interest in this question.
                      Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).



                      Would you like to answer one of these unanswered questions instead?














                      16 Answers
                      16






                      active

                      oldest

                      votes








                      16 Answers
                      16






                      active

                      oldest

                      votes









                      active

                      oldest

                      votes






                      active

                      oldest

                      votes









                      18












                      $begingroup$

                      Make the Moon Bigger



                      Or, more accurately, more massive. You'd have to move its orbit out a bit to prevent more brutal tides on the planet, but make it massive enough to hold an atmosphere of its own. Make that atmosphere out of denser gases, ones that can be held with a more tenuous grip than our own, and, ideally, ones that can be coloured and have interesting fluid dynamics. Dinitrogen tetroxide, maybe.



                      With shifting cloud patterns (doubtless very lethal but very pretty), maybe from core heating, you get a relatively rapidly shifting lunar appearance without having to make the moon out of anything implausible.



                      Edit: Another option - if you're already allowing for an active core for additional heating (and an extra swirly atmosphere), you could also have volcanism. Nothing like a man in the moon with acne!






                      share|improve this answer











                      $endgroup$













                      • $begingroup$
                        It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
                        $endgroup$
                        – Mazura
                        yesterday










                      • $begingroup$
                        You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
                        $endgroup$
                        – jdunlop
                        yesterday










                      • $begingroup$
                        Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
                        $endgroup$
                        – Willk
                        yesterday










                      • $begingroup$
                        Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
                        $endgroup$
                        – B.fox
                        5 hours ago
















                      18












                      $begingroup$

                      Make the Moon Bigger



                      Or, more accurately, more massive. You'd have to move its orbit out a bit to prevent more brutal tides on the planet, but make it massive enough to hold an atmosphere of its own. Make that atmosphere out of denser gases, ones that can be held with a more tenuous grip than our own, and, ideally, ones that can be coloured and have interesting fluid dynamics. Dinitrogen tetroxide, maybe.



                      With shifting cloud patterns (doubtless very lethal but very pretty), maybe from core heating, you get a relatively rapidly shifting lunar appearance without having to make the moon out of anything implausible.



                      Edit: Another option - if you're already allowing for an active core for additional heating (and an extra swirly atmosphere), you could also have volcanism. Nothing like a man in the moon with acne!






                      share|improve this answer











                      $endgroup$













                      • $begingroup$
                        It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
                        $endgroup$
                        – Mazura
                        yesterday










                      • $begingroup$
                        You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
                        $endgroup$
                        – jdunlop
                        yesterday










                      • $begingroup$
                        Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
                        $endgroup$
                        – Willk
                        yesterday










                      • $begingroup$
                        Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
                        $endgroup$
                        – B.fox
                        5 hours ago














                      18












                      18








                      18





                      $begingroup$

                      Make the Moon Bigger



                      Or, more accurately, more massive. You'd have to move its orbit out a bit to prevent more brutal tides on the planet, but make it massive enough to hold an atmosphere of its own. Make that atmosphere out of denser gases, ones that can be held with a more tenuous grip than our own, and, ideally, ones that can be coloured and have interesting fluid dynamics. Dinitrogen tetroxide, maybe.



                      With shifting cloud patterns (doubtless very lethal but very pretty), maybe from core heating, you get a relatively rapidly shifting lunar appearance without having to make the moon out of anything implausible.



                      Edit: Another option - if you're already allowing for an active core for additional heating (and an extra swirly atmosphere), you could also have volcanism. Nothing like a man in the moon with acne!






                      share|improve this answer











                      $endgroup$



                      Make the Moon Bigger



                      Or, more accurately, more massive. You'd have to move its orbit out a bit to prevent more brutal tides on the planet, but make it massive enough to hold an atmosphere of its own. Make that atmosphere out of denser gases, ones that can be held with a more tenuous grip than our own, and, ideally, ones that can be coloured and have interesting fluid dynamics. Dinitrogen tetroxide, maybe.



                      With shifting cloud patterns (doubtless very lethal but very pretty), maybe from core heating, you get a relatively rapidly shifting lunar appearance without having to make the moon out of anything implausible.



                      Edit: Another option - if you're already allowing for an active core for additional heating (and an extra swirly atmosphere), you could also have volcanism. Nothing like a man in the moon with acne!







                      share|improve this answer














                      share|improve this answer



                      share|improve this answer








                      edited yesterday

























                      answered yesterday









                      jdunlopjdunlop

                      7,51211643




                      7,51211643












                      • $begingroup$
                        It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
                        $endgroup$
                        – Mazura
                        yesterday










                      • $begingroup$
                        You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
                        $endgroup$
                        – jdunlop
                        yesterday










                      • $begingroup$
                        Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
                        $endgroup$
                        – Willk
                        yesterday










                      • $begingroup$
                        Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
                        $endgroup$
                        – B.fox
                        5 hours ago


















                      • $begingroup$
                        It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
                        $endgroup$
                        – Mazura
                        yesterday










                      • $begingroup$
                        You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
                        $endgroup$
                        – jdunlop
                        yesterday










                      • $begingroup$
                        Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
                        $endgroup$
                        – Willk
                        yesterday










                      • $begingroup$
                        Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
                        $endgroup$
                        – B.fox
                        5 hours ago
















                      $begingroup$
                      It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
                      $endgroup$
                      – Mazura
                      yesterday




                      $begingroup$
                      It has to be big enough to hold an atmosphere otherwise it will have frozen to death long ago. You can't have geological activity on a body without an atmosphere that isn't being tidally heated - and live on it (can't live on Io) +1
                      $endgroup$
                      – Mazura
                      yesterday












                      $begingroup$
                      You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
                      $endgroup$
                      – jdunlop
                      yesterday




                      $begingroup$
                      You're not required to live on it; the OP's specs are just that it have a changing face. Definitely wouldn't want to live on Titan, either!
                      $endgroup$
                      – jdunlop
                      yesterday












                      $begingroup$
                      Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
                      $endgroup$
                      – Willk
                      yesterday




                      $begingroup$
                      Check out Jupiter's swirly atmosphere! cnn.com/2018/01/08/weather/jupiter-nasa-photos-juno-trnd/…
                      $endgroup$
                      – Willk
                      yesterday












                      $begingroup$
                      Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
                      $endgroup$
                      – B.fox
                      5 hours ago




                      $begingroup$
                      Wouldn't these acne volcanoes create regular patterns in the cloudscape? Would the atmosphere tend towards regular bands and belts, i.e., along the equatorial it prominent jet streams?
                      $endgroup$
                      – B.fox
                      5 hours ago











                      15












                      $begingroup$

                      Unutterably Immense Aurora Borealis



                      Aurora of Jupiter



                      Credit: nasa.gov -- Aurorae on Jupiter



                      If you don't already know, aurorae are electromagnetic spectacles caused by high-energy, solar-charged particles bombarding with an atmosphere. They come in many shapes, magnitudes, and colors. Here's how we'll construct your shape-shifting moon with them:



                      Multicolored Aurorae



                      Because you've now allowed for an atmosphere, we can actually design how our aurorae will appear. Atmospheric composition determines the color of the aurorae as those high-energy ions interact with the various gases involved. Atomic oxygen produces red, orange, or green light depending on the amount of energy it becomes excited by (generally green light at lower altitudes, more-so ruddy light at higher altitudes in Earth's specific atmosphere). At much lower altitudes, atomic oxygen (again, specific to Earth's atmosphere) becomes less common (atomic oxygen is produced when diatomic oxygen drifts into the upper stratosphere and is broken by UV radiation); nitrogen instead can be used and excited: nitrogen absorbing energy will produce blue light, while nitrogen losing energy (after having gained excess) will produce red light.



                      Aurorae manifest in curtains descending into the atmosphere, where atmospheric composition, descending into the atmosphere, changes as well. This results in regions where the colors mix: pink, a mixture of red and green light; and yellow, a mixture of green and red (greater intensity followed by lesser intensity).



                      We have a lot more colors to work with, however (keep in mind, lighter gases are likely to escape the atmosphere, so their concentrations will naturally be diminished [one should also factor in relative abundance under planetary formation conditions]): Helium, white to orange; Neon, red-orange; Argon, violet to a lavender blue; Water Vapor, dimmer pink or magenta; and Carbon Dioxide, blue-white to pink. Personally, I would select our basic, Earth-analog atmospheric concoction of Nitrogen and Oxygen, yet, with a greater proportion of Carbon Dioxide--much greater for the following reason:



                      Aurorae magnitude in relation to gravity, magnetosphere strength, and atmospheric mass



                      The magnetosphere of Earth is kind of weak. It manages to nudge only a small fraction of solar-charged particles to collide with the atmosphere. A stronger field will affect particle trajectories more, meaning more collisions with the atmosphere and more lights. Most of the particles flying off the Sun (besides neutrinos, I think) are electrons, which are negative in charge. If geomagnetic north sits at the north pole, then the aurorae will be stronger in the northern hemisphere, although, after some degree of intensity, this distinction may no longer matter as particles bombard most of the atmospheric surface pretty uniformly, in the sense of whether any particular region of atmosphere is exposed naked and non-bombarded. The south pole will attract the remaining positively-charged particles--protons and alpha particles--however, they are lesser in their abundances. Withal, the north pole would be "brighter," or more-so populated with aurorae than the south pole, however, ideally the aurorae will span the whole moon, just being brighter in those regions. Onward.



                      A thicker, more massive atmosphere in tandem with a weaker gravitational pull is ideal for maximal aurorae activity. The weaker gravity will extend the atmosphere further from the moon's surface. The volumes of atmosphere where the solar-charged particles may interact will be extended under weaker gravity (the atmosphere will be taller).



                      To complete the picture



                      Our atmosphere may allow an observer to see the surface. Ideally, we want our aurorae to be consistent and it turns out that solar activity itself is pretty consistent and unvarying. If the surface is ever visible through the swathes of folding, shaping, shifting, entombing, iridescent ribbons, then we must make it indistinct. A volcanic past could achieve this.



                      Basalt rock



                      Credit: earthscienceeducation.org -- Basalt Rock



                      A surface largely of basaltic and obsidian-like rock could probably accomplish this.



                      Non-repeating patterns



                      Now, aurorae typically follow magnetic field lines of the magnetosphere. Magnetosphere structures vary depending on a multitude of factors, such as the distance from the sun, the intensity of solar winds, among others. Magnetic geometry is not quite that simple, however. The Aurorae we should expect shouldn't fall into predictable routines, though, just to be safe, let's just offset it from its rotational axis and center of mass and make it do other weird stuff. Also, let's assume that our inhabited world also has a magnetosphere (a safe assumption?) of different, lesser strength and perhaps offset to another angle which isn't perpendicular to the equatorial (also a safe assumption that the moon orbits near the equatorial?). The planet's and the moon's magnetospheres will mesh and interact with one another, possibly in a chaotic fashion, which will certainly help the chaotic appearance of our moon's aurorae.



                      Interacting magnetic dipoles



                      Credit: youtube.com -- Interacting magnetic dipoles



                      In essence, we are taking advantage of the dynamic state of our planet-moon system to mesh and twist the involved electromagnetic geometry as much as possible.



                      Conclusion



                      A small moon with a relatively thick atmosphere (perhaps the atmospheric mass of Earth's) perhaps comprised of oxygen, nitrogen, and carbon dioxide, with a basaltic surface of supremely dark, perhaps sooty-like rock and regolith, and an immense, offset, dislodged, and powerful magnetosphere responsible for chaotic bands of aurorae across its photosphere.






                      share|improve this answer











                      $endgroup$













                      • $begingroup$
                        Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
                        $endgroup$
                        – Elmy
                        23 hours ago










                      • $begingroup$
                        @Elmy Oh! This'll surely make things a lot more interesting!
                        $endgroup$
                        – B.fox
                        23 hours ago
















                      15












                      $begingroup$

                      Unutterably Immense Aurora Borealis



                      Aurora of Jupiter



                      Credit: nasa.gov -- Aurorae on Jupiter



                      If you don't already know, aurorae are electromagnetic spectacles caused by high-energy, solar-charged particles bombarding with an atmosphere. They come in many shapes, magnitudes, and colors. Here's how we'll construct your shape-shifting moon with them:



                      Multicolored Aurorae



                      Because you've now allowed for an atmosphere, we can actually design how our aurorae will appear. Atmospheric composition determines the color of the aurorae as those high-energy ions interact with the various gases involved. Atomic oxygen produces red, orange, or green light depending on the amount of energy it becomes excited by (generally green light at lower altitudes, more-so ruddy light at higher altitudes in Earth's specific atmosphere). At much lower altitudes, atomic oxygen (again, specific to Earth's atmosphere) becomes less common (atomic oxygen is produced when diatomic oxygen drifts into the upper stratosphere and is broken by UV radiation); nitrogen instead can be used and excited: nitrogen absorbing energy will produce blue light, while nitrogen losing energy (after having gained excess) will produce red light.



                      Aurorae manifest in curtains descending into the atmosphere, where atmospheric composition, descending into the atmosphere, changes as well. This results in regions where the colors mix: pink, a mixture of red and green light; and yellow, a mixture of green and red (greater intensity followed by lesser intensity).



                      We have a lot more colors to work with, however (keep in mind, lighter gases are likely to escape the atmosphere, so their concentrations will naturally be diminished [one should also factor in relative abundance under planetary formation conditions]): Helium, white to orange; Neon, red-orange; Argon, violet to a lavender blue; Water Vapor, dimmer pink or magenta; and Carbon Dioxide, blue-white to pink. Personally, I would select our basic, Earth-analog atmospheric concoction of Nitrogen and Oxygen, yet, with a greater proportion of Carbon Dioxide--much greater for the following reason:



                      Aurorae magnitude in relation to gravity, magnetosphere strength, and atmospheric mass



                      The magnetosphere of Earth is kind of weak. It manages to nudge only a small fraction of solar-charged particles to collide with the atmosphere. A stronger field will affect particle trajectories more, meaning more collisions with the atmosphere and more lights. Most of the particles flying off the Sun (besides neutrinos, I think) are electrons, which are negative in charge. If geomagnetic north sits at the north pole, then the aurorae will be stronger in the northern hemisphere, although, after some degree of intensity, this distinction may no longer matter as particles bombard most of the atmospheric surface pretty uniformly, in the sense of whether any particular region of atmosphere is exposed naked and non-bombarded. The south pole will attract the remaining positively-charged particles--protons and alpha particles--however, they are lesser in their abundances. Withal, the north pole would be "brighter," or more-so populated with aurorae than the south pole, however, ideally the aurorae will span the whole moon, just being brighter in those regions. Onward.



                      A thicker, more massive atmosphere in tandem with a weaker gravitational pull is ideal for maximal aurorae activity. The weaker gravity will extend the atmosphere further from the moon's surface. The volumes of atmosphere where the solar-charged particles may interact will be extended under weaker gravity (the atmosphere will be taller).



                      To complete the picture



                      Our atmosphere may allow an observer to see the surface. Ideally, we want our aurorae to be consistent and it turns out that solar activity itself is pretty consistent and unvarying. If the surface is ever visible through the swathes of folding, shaping, shifting, entombing, iridescent ribbons, then we must make it indistinct. A volcanic past could achieve this.



                      Basalt rock



                      Credit: earthscienceeducation.org -- Basalt Rock



                      A surface largely of basaltic and obsidian-like rock could probably accomplish this.



                      Non-repeating patterns



                      Now, aurorae typically follow magnetic field lines of the magnetosphere. Magnetosphere structures vary depending on a multitude of factors, such as the distance from the sun, the intensity of solar winds, among others. Magnetic geometry is not quite that simple, however. The Aurorae we should expect shouldn't fall into predictable routines, though, just to be safe, let's just offset it from its rotational axis and center of mass and make it do other weird stuff. Also, let's assume that our inhabited world also has a magnetosphere (a safe assumption?) of different, lesser strength and perhaps offset to another angle which isn't perpendicular to the equatorial (also a safe assumption that the moon orbits near the equatorial?). The planet's and the moon's magnetospheres will mesh and interact with one another, possibly in a chaotic fashion, which will certainly help the chaotic appearance of our moon's aurorae.



                      Interacting magnetic dipoles



                      Credit: youtube.com -- Interacting magnetic dipoles



                      In essence, we are taking advantage of the dynamic state of our planet-moon system to mesh and twist the involved electromagnetic geometry as much as possible.



                      Conclusion



                      A small moon with a relatively thick atmosphere (perhaps the atmospheric mass of Earth's) perhaps comprised of oxygen, nitrogen, and carbon dioxide, with a basaltic surface of supremely dark, perhaps sooty-like rock and regolith, and an immense, offset, dislodged, and powerful magnetosphere responsible for chaotic bands of aurorae across its photosphere.






                      share|improve this answer











                      $endgroup$













                      • $begingroup$
                        Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
                        $endgroup$
                        – Elmy
                        23 hours ago










                      • $begingroup$
                        @Elmy Oh! This'll surely make things a lot more interesting!
                        $endgroup$
                        – B.fox
                        23 hours ago














                      15












                      15








                      15





                      $begingroup$

                      Unutterably Immense Aurora Borealis



                      Aurora of Jupiter



                      Credit: nasa.gov -- Aurorae on Jupiter



                      If you don't already know, aurorae are electromagnetic spectacles caused by high-energy, solar-charged particles bombarding with an atmosphere. They come in many shapes, magnitudes, and colors. Here's how we'll construct your shape-shifting moon with them:



                      Multicolored Aurorae



                      Because you've now allowed for an atmosphere, we can actually design how our aurorae will appear. Atmospheric composition determines the color of the aurorae as those high-energy ions interact with the various gases involved. Atomic oxygen produces red, orange, or green light depending on the amount of energy it becomes excited by (generally green light at lower altitudes, more-so ruddy light at higher altitudes in Earth's specific atmosphere). At much lower altitudes, atomic oxygen (again, specific to Earth's atmosphere) becomes less common (atomic oxygen is produced when diatomic oxygen drifts into the upper stratosphere and is broken by UV radiation); nitrogen instead can be used and excited: nitrogen absorbing energy will produce blue light, while nitrogen losing energy (after having gained excess) will produce red light.



                      Aurorae manifest in curtains descending into the atmosphere, where atmospheric composition, descending into the atmosphere, changes as well. This results in regions where the colors mix: pink, a mixture of red and green light; and yellow, a mixture of green and red (greater intensity followed by lesser intensity).



                      We have a lot more colors to work with, however (keep in mind, lighter gases are likely to escape the atmosphere, so their concentrations will naturally be diminished [one should also factor in relative abundance under planetary formation conditions]): Helium, white to orange; Neon, red-orange; Argon, violet to a lavender blue; Water Vapor, dimmer pink or magenta; and Carbon Dioxide, blue-white to pink. Personally, I would select our basic, Earth-analog atmospheric concoction of Nitrogen and Oxygen, yet, with a greater proportion of Carbon Dioxide--much greater for the following reason:



                      Aurorae magnitude in relation to gravity, magnetosphere strength, and atmospheric mass



                      The magnetosphere of Earth is kind of weak. It manages to nudge only a small fraction of solar-charged particles to collide with the atmosphere. A stronger field will affect particle trajectories more, meaning more collisions with the atmosphere and more lights. Most of the particles flying off the Sun (besides neutrinos, I think) are electrons, which are negative in charge. If geomagnetic north sits at the north pole, then the aurorae will be stronger in the northern hemisphere, although, after some degree of intensity, this distinction may no longer matter as particles bombard most of the atmospheric surface pretty uniformly, in the sense of whether any particular region of atmosphere is exposed naked and non-bombarded. The south pole will attract the remaining positively-charged particles--protons and alpha particles--however, they are lesser in their abundances. Withal, the north pole would be "brighter," or more-so populated with aurorae than the south pole, however, ideally the aurorae will span the whole moon, just being brighter in those regions. Onward.



                      A thicker, more massive atmosphere in tandem with a weaker gravitational pull is ideal for maximal aurorae activity. The weaker gravity will extend the atmosphere further from the moon's surface. The volumes of atmosphere where the solar-charged particles may interact will be extended under weaker gravity (the atmosphere will be taller).



                      To complete the picture



                      Our atmosphere may allow an observer to see the surface. Ideally, we want our aurorae to be consistent and it turns out that solar activity itself is pretty consistent and unvarying. If the surface is ever visible through the swathes of folding, shaping, shifting, entombing, iridescent ribbons, then we must make it indistinct. A volcanic past could achieve this.



                      Basalt rock



                      Credit: earthscienceeducation.org -- Basalt Rock



                      A surface largely of basaltic and obsidian-like rock could probably accomplish this.



                      Non-repeating patterns



                      Now, aurorae typically follow magnetic field lines of the magnetosphere. Magnetosphere structures vary depending on a multitude of factors, such as the distance from the sun, the intensity of solar winds, among others. Magnetic geometry is not quite that simple, however. The Aurorae we should expect shouldn't fall into predictable routines, though, just to be safe, let's just offset it from its rotational axis and center of mass and make it do other weird stuff. Also, let's assume that our inhabited world also has a magnetosphere (a safe assumption?) of different, lesser strength and perhaps offset to another angle which isn't perpendicular to the equatorial (also a safe assumption that the moon orbits near the equatorial?). The planet's and the moon's magnetospheres will mesh and interact with one another, possibly in a chaotic fashion, which will certainly help the chaotic appearance of our moon's aurorae.



                      Interacting magnetic dipoles



                      Credit: youtube.com -- Interacting magnetic dipoles



                      In essence, we are taking advantage of the dynamic state of our planet-moon system to mesh and twist the involved electromagnetic geometry as much as possible.



                      Conclusion



                      A small moon with a relatively thick atmosphere (perhaps the atmospheric mass of Earth's) perhaps comprised of oxygen, nitrogen, and carbon dioxide, with a basaltic surface of supremely dark, perhaps sooty-like rock and regolith, and an immense, offset, dislodged, and powerful magnetosphere responsible for chaotic bands of aurorae across its photosphere.






                      share|improve this answer











                      $endgroup$



                      Unutterably Immense Aurora Borealis



                      Aurora of Jupiter



                      Credit: nasa.gov -- Aurorae on Jupiter



                      If you don't already know, aurorae are electromagnetic spectacles caused by high-energy, solar-charged particles bombarding with an atmosphere. They come in many shapes, magnitudes, and colors. Here's how we'll construct your shape-shifting moon with them:



                      Multicolored Aurorae



                      Because you've now allowed for an atmosphere, we can actually design how our aurorae will appear. Atmospheric composition determines the color of the aurorae as those high-energy ions interact with the various gases involved. Atomic oxygen produces red, orange, or green light depending on the amount of energy it becomes excited by (generally green light at lower altitudes, more-so ruddy light at higher altitudes in Earth's specific atmosphere). At much lower altitudes, atomic oxygen (again, specific to Earth's atmosphere) becomes less common (atomic oxygen is produced when diatomic oxygen drifts into the upper stratosphere and is broken by UV radiation); nitrogen instead can be used and excited: nitrogen absorbing energy will produce blue light, while nitrogen losing energy (after having gained excess) will produce red light.



                      Aurorae manifest in curtains descending into the atmosphere, where atmospheric composition, descending into the atmosphere, changes as well. This results in regions where the colors mix: pink, a mixture of red and green light; and yellow, a mixture of green and red (greater intensity followed by lesser intensity).



                      We have a lot more colors to work with, however (keep in mind, lighter gases are likely to escape the atmosphere, so their concentrations will naturally be diminished [one should also factor in relative abundance under planetary formation conditions]): Helium, white to orange; Neon, red-orange; Argon, violet to a lavender blue; Water Vapor, dimmer pink or magenta; and Carbon Dioxide, blue-white to pink. Personally, I would select our basic, Earth-analog atmospheric concoction of Nitrogen and Oxygen, yet, with a greater proportion of Carbon Dioxide--much greater for the following reason:



                      Aurorae magnitude in relation to gravity, magnetosphere strength, and atmospheric mass



                      The magnetosphere of Earth is kind of weak. It manages to nudge only a small fraction of solar-charged particles to collide with the atmosphere. A stronger field will affect particle trajectories more, meaning more collisions with the atmosphere and more lights. Most of the particles flying off the Sun (besides neutrinos, I think) are electrons, which are negative in charge. If geomagnetic north sits at the north pole, then the aurorae will be stronger in the northern hemisphere, although, after some degree of intensity, this distinction may no longer matter as particles bombard most of the atmospheric surface pretty uniformly, in the sense of whether any particular region of atmosphere is exposed naked and non-bombarded. The south pole will attract the remaining positively-charged particles--protons and alpha particles--however, they are lesser in their abundances. Withal, the north pole would be "brighter," or more-so populated with aurorae than the south pole, however, ideally the aurorae will span the whole moon, just being brighter in those regions. Onward.



                      A thicker, more massive atmosphere in tandem with a weaker gravitational pull is ideal for maximal aurorae activity. The weaker gravity will extend the atmosphere further from the moon's surface. The volumes of atmosphere where the solar-charged particles may interact will be extended under weaker gravity (the atmosphere will be taller).



                      To complete the picture



                      Our atmosphere may allow an observer to see the surface. Ideally, we want our aurorae to be consistent and it turns out that solar activity itself is pretty consistent and unvarying. If the surface is ever visible through the swathes of folding, shaping, shifting, entombing, iridescent ribbons, then we must make it indistinct. A volcanic past could achieve this.



                      Basalt rock



                      Credit: earthscienceeducation.org -- Basalt Rock



                      A surface largely of basaltic and obsidian-like rock could probably accomplish this.



                      Non-repeating patterns



                      Now, aurorae typically follow magnetic field lines of the magnetosphere. Magnetosphere structures vary depending on a multitude of factors, such as the distance from the sun, the intensity of solar winds, among others. Magnetic geometry is not quite that simple, however. The Aurorae we should expect shouldn't fall into predictable routines, though, just to be safe, let's just offset it from its rotational axis and center of mass and make it do other weird stuff. Also, let's assume that our inhabited world also has a magnetosphere (a safe assumption?) of different, lesser strength and perhaps offset to another angle which isn't perpendicular to the equatorial (also a safe assumption that the moon orbits near the equatorial?). The planet's and the moon's magnetospheres will mesh and interact with one another, possibly in a chaotic fashion, which will certainly help the chaotic appearance of our moon's aurorae.



                      Interacting magnetic dipoles



                      Credit: youtube.com -- Interacting magnetic dipoles



                      In essence, we are taking advantage of the dynamic state of our planet-moon system to mesh and twist the involved electromagnetic geometry as much as possible.



                      Conclusion



                      A small moon with a relatively thick atmosphere (perhaps the atmospheric mass of Earth's) perhaps comprised of oxygen, nitrogen, and carbon dioxide, with a basaltic surface of supremely dark, perhaps sooty-like rock and regolith, and an immense, offset, dislodged, and powerful magnetosphere responsible for chaotic bands of aurorae across its photosphere.







                      share|improve this answer














                      share|improve this answer



                      share|improve this answer








                      edited 21 hours ago

























                      answered yesterday









                      B.foxB.fox

                      1,1181317




                      1,1181317












                      • $begingroup$
                        Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
                        $endgroup$
                        – Elmy
                        23 hours ago










                      • $begingroup$
                        @Elmy Oh! This'll surely make things a lot more interesting!
                        $endgroup$
                        – B.fox
                        23 hours ago


















                      • $begingroup$
                        Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
                        $endgroup$
                        – Elmy
                        23 hours ago










                      • $begingroup$
                        @Elmy Oh! This'll surely make things a lot more interesting!
                        $endgroup$
                        – B.fox
                        23 hours ago
















                      $begingroup$
                      Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
                      $endgroup$
                      – Elmy
                      23 hours ago




                      $begingroup$
                      Thanks for your answer, it sounds really interesting. Please note that I edited the question to allow an atmosphere.
                      $endgroup$
                      – Elmy
                      23 hours ago












                      $begingroup$
                      @Elmy Oh! This'll surely make things a lot more interesting!
                      $endgroup$
                      – B.fox
                      23 hours ago




                      $begingroup$
                      @Elmy Oh! This'll surely make things a lot more interesting!
                      $endgroup$
                      – B.fox
                      23 hours ago











                      7












                      $begingroup$

                      How it could work



                      Water example



                      Your planet has a (water)ice surface. When the star doesn't shine upon the surface of the moon surface temperature falls below -10 °C (there is likely no pressure on the moon). But when it does shine temperature rises above -10 °C and it melts and the surface transforms, because of gravitational pulls. Other things effecting the surface would be:



                      Meteor impacts, solar winds, relative position to planet and sun.



                      Additional effects



                      Meteor impacts can form large mountain waves which take for months to get molten down while still changing their shape every day. They could also cause swirls and other uneven textures over the moon surface. Although these swirls would mostly be caused by solar winds. Another thing to consider is that the relative position between planet and sun will cause the overall flow direction to change, as would meteor impacts.



                      Alternatives



                      You could also use other elements with different melting points for scenarios where temperatures always exceed -10 °C or never exceed -10 °C. Examples:



                      Lower than -10 °C




                      • oxygen -218 °C

                      • chlorine -101 °C

                      • mercury -38 °C


                      Higher than -10 °C




                      • rubidium 39 °C

                      • sodium 97 °C

                      • tin 231 °C


                      Now these are just examples but I hope at least one of them can come to use.



                      This is my source(just type in the mentioned element and compare the result)






                      share|improve this answer











                      $endgroup$









                      • 3




                        $begingroup$
                        Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
                        $endgroup$
                        – Shufflepants
                        yesterday










                      • $begingroup$
                        @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
                        $endgroup$
                        – Soan
                        21 hours ago






                      • 1




                        $begingroup$
                        Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
                        $endgroup$
                        – B.fox
                        20 hours ago










                      • $begingroup$
                        @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
                        $endgroup$
                        – Soan
                        15 hours ago
















                      7












                      $begingroup$

                      How it could work



                      Water example



                      Your planet has a (water)ice surface. When the star doesn't shine upon the surface of the moon surface temperature falls below -10 °C (there is likely no pressure on the moon). But when it does shine temperature rises above -10 °C and it melts and the surface transforms, because of gravitational pulls. Other things effecting the surface would be:



                      Meteor impacts, solar winds, relative position to planet and sun.



                      Additional effects



                      Meteor impacts can form large mountain waves which take for months to get molten down while still changing their shape every day. They could also cause swirls and other uneven textures over the moon surface. Although these swirls would mostly be caused by solar winds. Another thing to consider is that the relative position between planet and sun will cause the overall flow direction to change, as would meteor impacts.



                      Alternatives



                      You could also use other elements with different melting points for scenarios where temperatures always exceed -10 °C or never exceed -10 °C. Examples:



                      Lower than -10 °C




                      • oxygen -218 °C

                      • chlorine -101 °C

                      • mercury -38 °C


                      Higher than -10 °C




                      • rubidium 39 °C

                      • sodium 97 °C

                      • tin 231 °C


                      Now these are just examples but I hope at least one of them can come to use.



                      This is my source(just type in the mentioned element and compare the result)






                      share|improve this answer











                      $endgroup$









                      • 3




                        $begingroup$
                        Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
                        $endgroup$
                        – Shufflepants
                        yesterday










                      • $begingroup$
                        @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
                        $endgroup$
                        – Soan
                        21 hours ago






                      • 1




                        $begingroup$
                        Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
                        $endgroup$
                        – B.fox
                        20 hours ago










                      • $begingroup$
                        @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
                        $endgroup$
                        – Soan
                        15 hours ago














                      7












                      7








                      7





                      $begingroup$

                      How it could work



                      Water example



                      Your planet has a (water)ice surface. When the star doesn't shine upon the surface of the moon surface temperature falls below -10 °C (there is likely no pressure on the moon). But when it does shine temperature rises above -10 °C and it melts and the surface transforms, because of gravitational pulls. Other things effecting the surface would be:



                      Meteor impacts, solar winds, relative position to planet and sun.



                      Additional effects



                      Meteor impacts can form large mountain waves which take for months to get molten down while still changing their shape every day. They could also cause swirls and other uneven textures over the moon surface. Although these swirls would mostly be caused by solar winds. Another thing to consider is that the relative position between planet and sun will cause the overall flow direction to change, as would meteor impacts.



                      Alternatives



                      You could also use other elements with different melting points for scenarios where temperatures always exceed -10 °C or never exceed -10 °C. Examples:



                      Lower than -10 °C




                      • oxygen -218 °C

                      • chlorine -101 °C

                      • mercury -38 °C


                      Higher than -10 °C




                      • rubidium 39 °C

                      • sodium 97 °C

                      • tin 231 °C


                      Now these are just examples but I hope at least one of them can come to use.



                      This is my source(just type in the mentioned element and compare the result)






                      share|improve this answer











                      $endgroup$



                      How it could work



                      Water example



                      Your planet has a (water)ice surface. When the star doesn't shine upon the surface of the moon surface temperature falls below -10 °C (there is likely no pressure on the moon). But when it does shine temperature rises above -10 °C and it melts and the surface transforms, because of gravitational pulls. Other things effecting the surface would be:



                      Meteor impacts, solar winds, relative position to planet and sun.



                      Additional effects



                      Meteor impacts can form large mountain waves which take for months to get molten down while still changing their shape every day. They could also cause swirls and other uneven textures over the moon surface. Although these swirls would mostly be caused by solar winds. Another thing to consider is that the relative position between planet and sun will cause the overall flow direction to change, as would meteor impacts.



                      Alternatives



                      You could also use other elements with different melting points for scenarios where temperatures always exceed -10 °C or never exceed -10 °C. Examples:



                      Lower than -10 °C




                      • oxygen -218 °C

                      • chlorine -101 °C

                      • mercury -38 °C


                      Higher than -10 °C




                      • rubidium 39 °C

                      • sodium 97 °C

                      • tin 231 °C


                      Now these are just examples but I hope at least one of them can come to use.



                      This is my source(just type in the mentioned element and compare the result)







                      share|improve this answer














                      share|improve this answer



                      share|improve this answer








                      edited 21 hours ago

























                      answered yesterday









                      SoanSoan

                      1,729217




                      1,729217








                      • 3




                        $begingroup$
                        Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
                        $endgroup$
                        – Shufflepants
                        yesterday










                      • $begingroup$
                        @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
                        $endgroup$
                        – Soan
                        21 hours ago






                      • 1




                        $begingroup$
                        Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
                        $endgroup$
                        – B.fox
                        20 hours ago










                      • $begingroup$
                        @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
                        $endgroup$
                        – Soan
                        15 hours ago














                      • 3




                        $begingroup$
                        Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
                        $endgroup$
                        – Shufflepants
                        yesterday










                      • $begingroup$
                        @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
                        $endgroup$
                        – Soan
                        21 hours ago






                      • 1




                        $begingroup$
                        Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
                        $endgroup$
                        – B.fox
                        20 hours ago










                      • $begingroup$
                        @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
                        $endgroup$
                        – Soan
                        15 hours ago








                      3




                      3




                      $begingroup$
                      Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
                      $endgroup$
                      – Shufflepants
                      yesterday




                      $begingroup$
                      Not sure this will get what the OP wants. Melting and refreezing will almost certainly occur in the same places each day. It might change a bit from season to season, but each day will look pretty much like yesterday and each season will look pretty much the same as the same season last year. Definitely not the 1/4 of it is completely different from yesterday every day.
                      $endgroup$
                      – Shufflepants
                      yesterday












                      $begingroup$
                      @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
                      $endgroup$
                      – Soan
                      21 hours ago




                      $begingroup$
                      @Shufflepants that's not the case because solar winds and other factors hugely effect the flow of molten substances. Other factors are impacts of meteors, current position in the orbit relative to the planet and the sun.
                      $endgroup$
                      – Soan
                      21 hours ago




                      1




                      1




                      $begingroup$
                      Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
                      $endgroup$
                      – B.fox
                      20 hours ago




                      $begingroup$
                      Reshaping a celestial body's surface requires a lot of energy in and of itself; solar winds are nearly intangible and will likely not fuel such processes--consider the interplanetary medium. Ices in a vacuum and exposed to hard sunlight will convert to a gas and eventually form an atmosphere. The sheer energy required to alter a landscape continuously is astronomically great.
                      $endgroup$
                      – B.fox
                      20 hours ago












                      $begingroup$
                      @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
                      $endgroup$
                      – Soan
                      15 hours ago




                      $begingroup$
                      @B.fox The solar winds would probably still cause different flow directions and other imperfections on the molten part of the moon surface. And of course they wouldn't be on the same level as a meteor impact.
                      $endgroup$
                      – Soan
                      15 hours ago











                      4












                      $begingroup$

                      Naturally occurring Thermochromic chemicals.



                      Those of us old enough to remember the 1970s remember mood rings.



                      While such chemicals are unlikely as natural deposits, it is fairly easy to imagine that some flowering plants could incorporate such as a form of sexual attraction or such-like.



                      No earth-like plants exist without the benefit of atmosphere, but perhaps an different design of plant forms could exist in thin carbon-dioxide atmosphere that may be compatible with your story. A hard-vacuum is likely to make significant plant-like coverage impossible.



                      Any high-contrast vegetation that has a short lifespan would perhaps be sufficient, esp. competing forms with different reflectance characteristics.






                      share|improve this answer









                      $endgroup$


















                        4












                        $begingroup$

                        Naturally occurring Thermochromic chemicals.



                        Those of us old enough to remember the 1970s remember mood rings.



                        While such chemicals are unlikely as natural deposits, it is fairly easy to imagine that some flowering plants could incorporate such as a form of sexual attraction or such-like.



                        No earth-like plants exist without the benefit of atmosphere, but perhaps an different design of plant forms could exist in thin carbon-dioxide atmosphere that may be compatible with your story. A hard-vacuum is likely to make significant plant-like coverage impossible.



                        Any high-contrast vegetation that has a short lifespan would perhaps be sufficient, esp. competing forms with different reflectance characteristics.






                        share|improve this answer









                        $endgroup$
















                          4












                          4








                          4





                          $begingroup$

                          Naturally occurring Thermochromic chemicals.



                          Those of us old enough to remember the 1970s remember mood rings.



                          While such chemicals are unlikely as natural deposits, it is fairly easy to imagine that some flowering plants could incorporate such as a form of sexual attraction or such-like.



                          No earth-like plants exist without the benefit of atmosphere, but perhaps an different design of plant forms could exist in thin carbon-dioxide atmosphere that may be compatible with your story. A hard-vacuum is likely to make significant plant-like coverage impossible.



                          Any high-contrast vegetation that has a short lifespan would perhaps be sufficient, esp. competing forms with different reflectance characteristics.






                          share|improve this answer









                          $endgroup$



                          Naturally occurring Thermochromic chemicals.



                          Those of us old enough to remember the 1970s remember mood rings.



                          While such chemicals are unlikely as natural deposits, it is fairly easy to imagine that some flowering plants could incorporate such as a form of sexual attraction or such-like.



                          No earth-like plants exist without the benefit of atmosphere, but perhaps an different design of plant forms could exist in thin carbon-dioxide atmosphere that may be compatible with your story. A hard-vacuum is likely to make significant plant-like coverage impossible.



                          Any high-contrast vegetation that has a short lifespan would perhaps be sufficient, esp. competing forms with different reflectance characteristics.







                          share|improve this answer












                          share|improve this answer



                          share|improve this answer










                          answered yesterday









                          Gary WalkerGary Walker

                          14.8k22754




                          14.8k22754























                              3












                              $begingroup$

                              Take Pluto as inspiration. From the wiki (all emphasis are mine):




                              Pluto's surface is composed of more than 98 percent solid nitrogen, with traces of methane and carbon monoxide. The face of Pluto oriented toward Charon contains more solid methane, whereas the opposite face contains more nitrogen and solid carbon monoxide. Distribution of volatile ices is thought to be season-dependent and influenced more by solar insolation and topography than subsurface processes.



                              (...)



                              Pluto's surface color has changed between 1994 and 2003: the northern polar region has brightened and the southern hemisphere has darkened. Pluto's overall redness has also increased substantially between 2000 and 2002. These rapid changes are probably related to seasonal condensation and sublimation of portions of Pluto's atmosphere (...)




                              Now this may seem to conflict with one of your requirements:




                              The moon does not have an atmosphere




                              But again, according to another page in Wikipedia:




                              The surface pressure of the atmosphere of Pluto, measured by New Horizons in 2015, is about 1 Pa (10 μbar), roughly 100,000 times less than Earth's atmospheric pressure.




                              Some satellites in LEO face similar atmospheric pressures and need reboosting every then. Bottom line being: that's what objects in space around us face. So for all practical purposes Pluto's surface is exposed to a vacuum. Standing naked on it wouldn't be much different from being naked on Earth's orbit.






                              share|improve this answer









                              $endgroup$













                              • $begingroup$
                                The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
                                $endgroup$
                                – Nuclear Wang
                                yesterday










                              • $begingroup$
                                I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
                                $endgroup$
                                – Renan
                                23 hours ago










                              • $begingroup$
                                Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
                                $endgroup$
                                – Elmy
                                23 hours ago










                              • $begingroup$
                                @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
                                $endgroup$
                                – Renan
                                23 hours ago






                              • 1




                                $begingroup$
                                @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
                                $endgroup$
                                – alephzero
                                21 hours ago


















                              3












                              $begingroup$

                              Take Pluto as inspiration. From the wiki (all emphasis are mine):




                              Pluto's surface is composed of more than 98 percent solid nitrogen, with traces of methane and carbon monoxide. The face of Pluto oriented toward Charon contains more solid methane, whereas the opposite face contains more nitrogen and solid carbon monoxide. Distribution of volatile ices is thought to be season-dependent and influenced more by solar insolation and topography than subsurface processes.



                              (...)



                              Pluto's surface color has changed between 1994 and 2003: the northern polar region has brightened and the southern hemisphere has darkened. Pluto's overall redness has also increased substantially between 2000 and 2002. These rapid changes are probably related to seasonal condensation and sublimation of portions of Pluto's atmosphere (...)




                              Now this may seem to conflict with one of your requirements:




                              The moon does not have an atmosphere




                              But again, according to another page in Wikipedia:




                              The surface pressure of the atmosphere of Pluto, measured by New Horizons in 2015, is about 1 Pa (10 μbar), roughly 100,000 times less than Earth's atmospheric pressure.




                              Some satellites in LEO face similar atmospheric pressures and need reboosting every then. Bottom line being: that's what objects in space around us face. So for all practical purposes Pluto's surface is exposed to a vacuum. Standing naked on it wouldn't be much different from being naked on Earth's orbit.






                              share|improve this answer









                              $endgroup$













                              • $begingroup$
                                The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
                                $endgroup$
                                – Nuclear Wang
                                yesterday










                              • $begingroup$
                                I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
                                $endgroup$
                                – Renan
                                23 hours ago










                              • $begingroup$
                                Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
                                $endgroup$
                                – Elmy
                                23 hours ago










                              • $begingroup$
                                @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
                                $endgroup$
                                – Renan
                                23 hours ago






                              • 1




                                $begingroup$
                                @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
                                $endgroup$
                                – alephzero
                                21 hours ago
















                              3












                              3








                              3





                              $begingroup$

                              Take Pluto as inspiration. From the wiki (all emphasis are mine):




                              Pluto's surface is composed of more than 98 percent solid nitrogen, with traces of methane and carbon monoxide. The face of Pluto oriented toward Charon contains more solid methane, whereas the opposite face contains more nitrogen and solid carbon monoxide. Distribution of volatile ices is thought to be season-dependent and influenced more by solar insolation and topography than subsurface processes.



                              (...)



                              Pluto's surface color has changed between 1994 and 2003: the northern polar region has brightened and the southern hemisphere has darkened. Pluto's overall redness has also increased substantially between 2000 and 2002. These rapid changes are probably related to seasonal condensation and sublimation of portions of Pluto's atmosphere (...)




                              Now this may seem to conflict with one of your requirements:




                              The moon does not have an atmosphere




                              But again, according to another page in Wikipedia:




                              The surface pressure of the atmosphere of Pluto, measured by New Horizons in 2015, is about 1 Pa (10 μbar), roughly 100,000 times less than Earth's atmospheric pressure.




                              Some satellites in LEO face similar atmospheric pressures and need reboosting every then. Bottom line being: that's what objects in space around us face. So for all practical purposes Pluto's surface is exposed to a vacuum. Standing naked on it wouldn't be much different from being naked on Earth's orbit.






                              share|improve this answer









                              $endgroup$



                              Take Pluto as inspiration. From the wiki (all emphasis are mine):




                              Pluto's surface is composed of more than 98 percent solid nitrogen, with traces of methane and carbon monoxide. The face of Pluto oriented toward Charon contains more solid methane, whereas the opposite face contains more nitrogen and solid carbon monoxide. Distribution of volatile ices is thought to be season-dependent and influenced more by solar insolation and topography than subsurface processes.



                              (...)



                              Pluto's surface color has changed between 1994 and 2003: the northern polar region has brightened and the southern hemisphere has darkened. Pluto's overall redness has also increased substantially between 2000 and 2002. These rapid changes are probably related to seasonal condensation and sublimation of portions of Pluto's atmosphere (...)




                              Now this may seem to conflict with one of your requirements:




                              The moon does not have an atmosphere




                              But again, according to another page in Wikipedia:




                              The surface pressure of the atmosphere of Pluto, measured by New Horizons in 2015, is about 1 Pa (10 μbar), roughly 100,000 times less than Earth's atmospheric pressure.




                              Some satellites in LEO face similar atmospheric pressures and need reboosting every then. Bottom line being: that's what objects in space around us face. So for all practical purposes Pluto's surface is exposed to a vacuum. Standing naked on it wouldn't be much different from being naked on Earth's orbit.







                              share|improve this answer












                              share|improve this answer



                              share|improve this answer










                              answered yesterday









                              RenanRenan

                              45.8k11107233




                              45.8k11107233












                              • $begingroup$
                                The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
                                $endgroup$
                                – Nuclear Wang
                                yesterday










                              • $begingroup$
                                I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
                                $endgroup$
                                – Renan
                                23 hours ago










                              • $begingroup$
                                Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
                                $endgroup$
                                – Elmy
                                23 hours ago










                              • $begingroup$
                                @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
                                $endgroup$
                                – Renan
                                23 hours ago






                              • 1




                                $begingroup$
                                @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
                                $endgroup$
                                – alephzero
                                21 hours ago




















                              • $begingroup$
                                The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
                                $endgroup$
                                – Nuclear Wang
                                yesterday










                              • $begingroup$
                                I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
                                $endgroup$
                                – Renan
                                23 hours ago










                              • $begingroup$
                                Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
                                $endgroup$
                                – Elmy
                                23 hours ago










                              • $begingroup$
                                @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
                                $endgroup$
                                – Renan
                                23 hours ago






                              • 1




                                $begingroup$
                                @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
                                $endgroup$
                                – alephzero
                                21 hours ago


















                              $begingroup$
                              The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
                              $endgroup$
                              – Nuclear Wang
                              yesterday




                              $begingroup$
                              The changes you describe are seasonal in nature, and wouldn't give a changing appearance on the order of days.
                              $endgroup$
                              – Nuclear Wang
                              yesterday












                              $begingroup$
                              I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
                              $endgroup$
                              – Renan
                              23 hours ago




                              $begingroup$
                              I said use Pluto as an inspiration. It is very far from the Sun, so the temperature differences between its day and night are smaller than our Moon's. At our distance from the Sun the changes could happen daily.
                              $endgroup$
                              – Renan
                              23 hours ago












                              $begingroup$
                              Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
                              $endgroup$
                              – Elmy
                              23 hours ago




                              $begingroup$
                              Thanks for your answer. It sounds really intetesting, but could this kind of condensation occur in such a magnitude that it changes the look of the moon on a daily basis? Also please note that I edited the question to allow an atmosphere.
                              $endgroup$
                              – Elmy
                              23 hours ago












                              $begingroup$
                              @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
                              $endgroup$
                              – Renan
                              23 hours ago




                              $begingroup$
                              @elmy yes. The (non-water) ices on the moon will not melt completely, but will become slush that slowly ane constantly moves as the Moon's own terminator line terminator line moves over its surface.
                              $endgroup$
                              – Renan
                              23 hours ago




                              1




                              1




                              $begingroup$
                              @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
                              $endgroup$
                              – alephzero
                              21 hours ago






                              $begingroup$
                              @Elmy Yes it could. We don't know what the climate is like where you live, but in in the UK on winter mornings the ground is often covered overnight with white frost which melts within a few hours after sunrise.
                              $endgroup$
                              – alephzero
                              21 hours ago













                              3












                              $begingroup$

                              Your planet is tidally locked and it's moon is made of something with a low melting point.



                              This means that it's eternal twilight on the narrow band of habitable terrain on your planet, and that the day is marked by the ascent of the moon, which, continually melted by the sun and frozen by the planet's shadow, changes each day.






                              share|improve this answer









                              $endgroup$


















                                3












                                $begingroup$

                                Your planet is tidally locked and it's moon is made of something with a low melting point.



                                This means that it's eternal twilight on the narrow band of habitable terrain on your planet, and that the day is marked by the ascent of the moon, which, continually melted by the sun and frozen by the planet's shadow, changes each day.






                                share|improve this answer









                                $endgroup$
















                                  3












                                  3








                                  3





                                  $begingroup$

                                  Your planet is tidally locked and it's moon is made of something with a low melting point.



                                  This means that it's eternal twilight on the narrow band of habitable terrain on your planet, and that the day is marked by the ascent of the moon, which, continually melted by the sun and frozen by the planet's shadow, changes each day.






                                  share|improve this answer









                                  $endgroup$



                                  Your planet is tidally locked and it's moon is made of something with a low melting point.



                                  This means that it's eternal twilight on the narrow band of habitable terrain on your planet, and that the day is marked by the ascent of the moon, which, continually melted by the sun and frozen by the planet's shadow, changes each day.







                                  share|improve this answer












                                  share|improve this answer



                                  share|improve this answer










                                  answered 20 hours ago









                                  Iron GremlinIron Gremlin

                                  6797




                                  6797























                                      2












                                      $begingroup$

                                      Oceans of nonlinear chemical oscillator compound!



                                      Imagine that there`s an ocean on the moon that is filled to the brim with e.g. malonic acid and potassium bromate. That would yield literal chaotic color patterns floating both on its surface and all the way down to the seabed.



                                      This is called the Belousov–Zhabotinsky reaction.



                                      All weather changes, including the amount of sunlight absorbed, the surface waves, the underwater currents (well, technically it`s not water, but whatever), the winds, the evaporation, the volcanic activity — everything of the sort would add to the total randomness and uniqueness of the pattern.



                                      Here`s a video of it oscillating in a Petri dish. And here`s another one.






                                      share|improve this answer











                                      $endgroup$


















                                        2












                                        $begingroup$

                                        Oceans of nonlinear chemical oscillator compound!



                                        Imagine that there`s an ocean on the moon that is filled to the brim with e.g. malonic acid and potassium bromate. That would yield literal chaotic color patterns floating both on its surface and all the way down to the seabed.



                                        This is called the Belousov–Zhabotinsky reaction.



                                        All weather changes, including the amount of sunlight absorbed, the surface waves, the underwater currents (well, technically it`s not water, but whatever), the winds, the evaporation, the volcanic activity — everything of the sort would add to the total randomness and uniqueness of the pattern.



                                        Here`s a video of it oscillating in a Petri dish. And here`s another one.






                                        share|improve this answer











                                        $endgroup$
















                                          2












                                          2








                                          2





                                          $begingroup$

                                          Oceans of nonlinear chemical oscillator compound!



                                          Imagine that there`s an ocean on the moon that is filled to the brim with e.g. malonic acid and potassium bromate. That would yield literal chaotic color patterns floating both on its surface and all the way down to the seabed.



                                          This is called the Belousov–Zhabotinsky reaction.



                                          All weather changes, including the amount of sunlight absorbed, the surface waves, the underwater currents (well, technically it`s not water, but whatever), the winds, the evaporation, the volcanic activity — everything of the sort would add to the total randomness and uniqueness of the pattern.



                                          Here`s a video of it oscillating in a Petri dish. And here`s another one.






                                          share|improve this answer











                                          $endgroup$



                                          Oceans of nonlinear chemical oscillator compound!



                                          Imagine that there`s an ocean on the moon that is filled to the brim with e.g. malonic acid and potassium bromate. That would yield literal chaotic color patterns floating both on its surface and all the way down to the seabed.



                                          This is called the Belousov–Zhabotinsky reaction.



                                          All weather changes, including the amount of sunlight absorbed, the surface waves, the underwater currents (well, technically it`s not water, but whatever), the winds, the evaporation, the volcanic activity — everything of the sort would add to the total randomness and uniqueness of the pattern.



                                          Here`s a video of it oscillating in a Petri dish. And here`s another one.







                                          share|improve this answer














                                          share|improve this answer



                                          share|improve this answer








                                          edited 22 hours ago

























                                          answered 23 hours ago









                                          hidefromkgbhidefromkgb

                                          24318




                                          24318























                                              2












                                              $begingroup$

                                              A watery body, such as Enceladus (maybe Ceres as long as it has an icy core), orbits as a moon. This moon could have a very eccentric orbit, causing tidal forced to act upon it, causing cryo-volcanism. these cryovolcanos can cover the surface with various chemicals and minerals (water, salty brine, methane, ethane, or other organics) in an ever changing pattern.



                                              The cracking and shifting of the fragile surface would also aid in the changing surface patterns.






                                              share|improve this answer











                                              $endgroup$


















                                                2












                                                $begingroup$

                                                A watery body, such as Enceladus (maybe Ceres as long as it has an icy core), orbits as a moon. This moon could have a very eccentric orbit, causing tidal forced to act upon it, causing cryo-volcanism. these cryovolcanos can cover the surface with various chemicals and minerals (water, salty brine, methane, ethane, or other organics) in an ever changing pattern.



                                                The cracking and shifting of the fragile surface would also aid in the changing surface patterns.






                                                share|improve this answer











                                                $endgroup$
















                                                  2












                                                  2








                                                  2





                                                  $begingroup$

                                                  A watery body, such as Enceladus (maybe Ceres as long as it has an icy core), orbits as a moon. This moon could have a very eccentric orbit, causing tidal forced to act upon it, causing cryo-volcanism. these cryovolcanos can cover the surface with various chemicals and minerals (water, salty brine, methane, ethane, or other organics) in an ever changing pattern.



                                                  The cracking and shifting of the fragile surface would also aid in the changing surface patterns.






                                                  share|improve this answer











                                                  $endgroup$



                                                  A watery body, such as Enceladus (maybe Ceres as long as it has an icy core), orbits as a moon. This moon could have a very eccentric orbit, causing tidal forced to act upon it, causing cryo-volcanism. these cryovolcanos can cover the surface with various chemicals and minerals (water, salty brine, methane, ethane, or other organics) in an ever changing pattern.



                                                  The cracking and shifting of the fragile surface would also aid in the changing surface patterns.







                                                  share|improve this answer














                                                  share|improve this answer



                                                  share|improve this answer








                                                  edited 22 hours ago

























                                                  answered 22 hours ago









                                                  sonvarsonvar

                                                  614




                                                  614























                                                      2












                                                      $begingroup$

                                                      The "no atmosphere" requirement makes this especially tough because it means we're limited to solid materials at the surface. Any liquid would evaporate in the near-perfect vacuum, and any appreciable amount of gas would be, well, an atmosphere.



                                                      You say the moon hasn't rotated, so that leads me to assume it is tidally locked. My suggestion would be a very slow cyclical chemical reaction which occurs in the moon's crust at the surface, similar to the iodine clock reaction. I'm imagining bands of light or color slowly propagating across the surface of the moon, sort of like the Belousov–Zhabotinsky reaction, taking a few hours to travel the full diameter of the moon's disc. This reaction could be catalyzed by the sunlight hitting the surface of the moon as it faces away from the planet, then continue through the moon's "night", where it is visible from the surface of the parent planet.



                                                      This setup could make the moon potentially livable (not a volcanic mess like Io) while avoiding any surface liquids or gases.






                                                      share|improve this answer








                                                      New contributor




                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.






                                                      $endgroup$









                                                      • 1




                                                        $begingroup$
                                                        Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
                                                        $endgroup$
                                                        – Elmy
                                                        5 hours ago










                                                      • $begingroup$
                                                        Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
                                                        $endgroup$
                                                        – Tyler King
                                                        5 hours ago










                                                      • $begingroup$
                                                        No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
                                                        $endgroup$
                                                        – Carl Witthoft
                                                        2 hours ago










                                                      • $begingroup$
                                                        Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
                                                        $endgroup$
                                                        – Tyler King
                                                        2 hours ago
















                                                      2












                                                      $begingroup$

                                                      The "no atmosphere" requirement makes this especially tough because it means we're limited to solid materials at the surface. Any liquid would evaporate in the near-perfect vacuum, and any appreciable amount of gas would be, well, an atmosphere.



                                                      You say the moon hasn't rotated, so that leads me to assume it is tidally locked. My suggestion would be a very slow cyclical chemical reaction which occurs in the moon's crust at the surface, similar to the iodine clock reaction. I'm imagining bands of light or color slowly propagating across the surface of the moon, sort of like the Belousov–Zhabotinsky reaction, taking a few hours to travel the full diameter of the moon's disc. This reaction could be catalyzed by the sunlight hitting the surface of the moon as it faces away from the planet, then continue through the moon's "night", where it is visible from the surface of the parent planet.



                                                      This setup could make the moon potentially livable (not a volcanic mess like Io) while avoiding any surface liquids or gases.






                                                      share|improve this answer








                                                      New contributor




                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.






                                                      $endgroup$









                                                      • 1




                                                        $begingroup$
                                                        Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
                                                        $endgroup$
                                                        – Elmy
                                                        5 hours ago










                                                      • $begingroup$
                                                        Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
                                                        $endgroup$
                                                        – Tyler King
                                                        5 hours ago










                                                      • $begingroup$
                                                        No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
                                                        $endgroup$
                                                        – Carl Witthoft
                                                        2 hours ago










                                                      • $begingroup$
                                                        Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
                                                        $endgroup$
                                                        – Tyler King
                                                        2 hours ago














                                                      2












                                                      2








                                                      2





                                                      $begingroup$

                                                      The "no atmosphere" requirement makes this especially tough because it means we're limited to solid materials at the surface. Any liquid would evaporate in the near-perfect vacuum, and any appreciable amount of gas would be, well, an atmosphere.



                                                      You say the moon hasn't rotated, so that leads me to assume it is tidally locked. My suggestion would be a very slow cyclical chemical reaction which occurs in the moon's crust at the surface, similar to the iodine clock reaction. I'm imagining bands of light or color slowly propagating across the surface of the moon, sort of like the Belousov–Zhabotinsky reaction, taking a few hours to travel the full diameter of the moon's disc. This reaction could be catalyzed by the sunlight hitting the surface of the moon as it faces away from the planet, then continue through the moon's "night", where it is visible from the surface of the parent planet.



                                                      This setup could make the moon potentially livable (not a volcanic mess like Io) while avoiding any surface liquids or gases.






                                                      share|improve this answer








                                                      New contributor




                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.






                                                      $endgroup$



                                                      The "no atmosphere" requirement makes this especially tough because it means we're limited to solid materials at the surface. Any liquid would evaporate in the near-perfect vacuum, and any appreciable amount of gas would be, well, an atmosphere.



                                                      You say the moon hasn't rotated, so that leads me to assume it is tidally locked. My suggestion would be a very slow cyclical chemical reaction which occurs in the moon's crust at the surface, similar to the iodine clock reaction. I'm imagining bands of light or color slowly propagating across the surface of the moon, sort of like the Belousov–Zhabotinsky reaction, taking a few hours to travel the full diameter of the moon's disc. This reaction could be catalyzed by the sunlight hitting the surface of the moon as it faces away from the planet, then continue through the moon's "night", where it is visible from the surface of the parent planet.



                                                      This setup could make the moon potentially livable (not a volcanic mess like Io) while avoiding any surface liquids or gases.







                                                      share|improve this answer








                                                      New contributor




                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.









                                                      share|improve this answer



                                                      share|improve this answer






                                                      New contributor




                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.









                                                      answered 6 hours ago









                                                      Tyler KingTyler King

                                                      213




                                                      213




                                                      New contributor




                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.





                                                      New contributor





                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.






                                                      Tyler King is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                      Check out our Code of Conduct.








                                                      • 1




                                                        $begingroup$
                                                        Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
                                                        $endgroup$
                                                        – Elmy
                                                        5 hours ago










                                                      • $begingroup$
                                                        Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
                                                        $endgroup$
                                                        – Tyler King
                                                        5 hours ago










                                                      • $begingroup$
                                                        No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
                                                        $endgroup$
                                                        – Carl Witthoft
                                                        2 hours ago










                                                      • $begingroup$
                                                        Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
                                                        $endgroup$
                                                        – Tyler King
                                                        2 hours ago














                                                      • 1




                                                        $begingroup$
                                                        Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
                                                        $endgroup$
                                                        – Elmy
                                                        5 hours ago










                                                      • $begingroup$
                                                        Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
                                                        $endgroup$
                                                        – Tyler King
                                                        5 hours ago










                                                      • $begingroup$
                                                        No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
                                                        $endgroup$
                                                        – Carl Witthoft
                                                        2 hours ago










                                                      • $begingroup$
                                                        Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
                                                        $endgroup$
                                                        – Tyler King
                                                        2 hours ago








                                                      1




                                                      1




                                                      $begingroup$
                                                      Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
                                                      $endgroup$
                                                      – Elmy
                                                      5 hours ago




                                                      $begingroup$
                                                      Thanks for your answer, this surely is a new and very interesting approach. Please note, though, that the question was edited to allow an atmosphere. It also doesn't say that the moon has to be tidally locked, it just has to change in such a magnitude that it looks different every day without a predictable pattern.
                                                      $endgroup$
                                                      – Elmy
                                                      5 hours ago












                                                      $begingroup$
                                                      Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
                                                      $endgroup$
                                                      – Tyler King
                                                      5 hours ago




                                                      $begingroup$
                                                      Ah, I see I missed the word "just" in "It didn't just rotate". I took that to explictly mean that it did not rotate, and was therefore tidally locked. Fortunately, I don't think that would have any major impact on the scheme I proposed except for timing.
                                                      $endgroup$
                                                      – Tyler King
                                                      5 hours ago












                                                      $begingroup$
                                                      No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
                                                      $endgroup$
                                                      – Carl Witthoft
                                                      2 hours ago




                                                      $begingroup$
                                                      No, liquids do not automatically evaporate in a vacuum. See "partial pressure" .
                                                      $endgroup$
                                                      – Carl Witthoft
                                                      2 hours ago












                                                      $begingroup$
                                                      Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
                                                      $endgroup$
                                                      – Tyler King
                                                      2 hours ago




                                                      $begingroup$
                                                      Liquids automatically evaporate all the time at all pressures, which is what gives rise to partial pressure. Boiling occurs when the partial pressure of the liquid is greater than atmospheric pressure. If atmospheric pressure is 0, any surface liquid would have a partial pressure greater than 0 and boil away.
                                                      $endgroup$
                                                      – Tyler King
                                                      2 hours ago











                                                      1












                                                      $begingroup$

                                                      That solar system could be experiencing a phenomenon like the late heavy bombardment: the moon is constantly hit by meteorites, so that it is continuously shaped by these impacts.

                                                      The problem is that these meteorites must be very frequent (say in the order of the dozen of impacts in a day), but quite small - in the range of 10-20 meters - in order not to cause damage when they fall onto the main planet, burning in its atmosphere. In this case probably you should somehow justify the lack of bigger asteroids.

                                                      You could also point that the moon is of recent formation (maybe captured by the gravity of the planet), which implies its core is still active and gives origin to some vulcanic activity that shapes its surface (but in this case the changes would be slower and the surface of the moon wouldn't change a lot in the span of some days).






                                                      share|improve this answer









                                                      $endgroup$


















                                                        1












                                                        $begingroup$

                                                        That solar system could be experiencing a phenomenon like the late heavy bombardment: the moon is constantly hit by meteorites, so that it is continuously shaped by these impacts.

                                                        The problem is that these meteorites must be very frequent (say in the order of the dozen of impacts in a day), but quite small - in the range of 10-20 meters - in order not to cause damage when they fall onto the main planet, burning in its atmosphere. In this case probably you should somehow justify the lack of bigger asteroids.

                                                        You could also point that the moon is of recent formation (maybe captured by the gravity of the planet), which implies its core is still active and gives origin to some vulcanic activity that shapes its surface (but in this case the changes would be slower and the surface of the moon wouldn't change a lot in the span of some days).






                                                        share|improve this answer









                                                        $endgroup$
















                                                          1












                                                          1








                                                          1





                                                          $begingroup$

                                                          That solar system could be experiencing a phenomenon like the late heavy bombardment: the moon is constantly hit by meteorites, so that it is continuously shaped by these impacts.

                                                          The problem is that these meteorites must be very frequent (say in the order of the dozen of impacts in a day), but quite small - in the range of 10-20 meters - in order not to cause damage when they fall onto the main planet, burning in its atmosphere. In this case probably you should somehow justify the lack of bigger asteroids.

                                                          You could also point that the moon is of recent formation (maybe captured by the gravity of the planet), which implies its core is still active and gives origin to some vulcanic activity that shapes its surface (but in this case the changes would be slower and the surface of the moon wouldn't change a lot in the span of some days).






                                                          share|improve this answer









                                                          $endgroup$



                                                          That solar system could be experiencing a phenomenon like the late heavy bombardment: the moon is constantly hit by meteorites, so that it is continuously shaped by these impacts.

                                                          The problem is that these meteorites must be very frequent (say in the order of the dozen of impacts in a day), but quite small - in the range of 10-20 meters - in order not to cause damage when they fall onto the main planet, burning in its atmosphere. In this case probably you should somehow justify the lack of bigger asteroids.

                                                          You could also point that the moon is of recent formation (maybe captured by the gravity of the planet), which implies its core is still active and gives origin to some vulcanic activity that shapes its surface (but in this case the changes would be slower and the surface of the moon wouldn't change a lot in the span of some days).







                                                          share|improve this answer












                                                          share|improve this answer



                                                          share|improve this answer










                                                          answered yesterday









                                                          McTroopersMcTroopers

                                                          2313




                                                          2313























                                                              0












                                                              $begingroup$

                                                              Possibly there could be intelligence of some sort on the moon and their activities can make a big visual change in the appearance of large sections of the moon during short periods.



                                                              Possibly they are artists trying out various "paint" patterns to see which make the moon look best.



                                                              Perhaps they move countless millions of large vehicles of various colors around on the moon, arranging them in various patterns as part of some sort of "dance".



                                                              Maybe they are trying to send a message to the natives of the planet and thus making an ever changing series of patterns on the moon.



                                                              A century or so ago an astronomer believed that some tiny changes of color he observed on the moon were the results of vast hordes of insects moving around.



                                                              So possibly on your moon thick areas of vegetation spring up, changing the color of vast regions, and then vast wandering hordes of insects travel toward them, changing the face of the moon as they move. When the insects arrive at the forest or meadow or swamp their color mingles with the color of the plants and changes the color of the region as seen from the planet.



                                                              So the insects eat all the vegetation in the region, changing its color, and leave their wastes (containing many seeds) behind to fertilize the soil. The insects move on, searching for another area of vegetation, and the area is now a different color, barren of vegetation until the seeds sprout and start to grow. Eventually the plants become thick enough to change the color of the region back to vegetation colored, then the region retains that color until the same or a different horde of insects arrives to eat the vegetation.



                                                              Of course it seem rather doubtful that a planet small enough to be habitable would have a moon large enough to be habitable for at least some types of life. That would make them seem a lot more like a double planet than like a planet and its moon.



                                                              Of course the intelligent beings on the moon don't have to be living beings; they could be machines.



                                                              Or the two worlds could both be habitable planets orbiting their star if their orbits are a lot closer to each other than any planetary orbits in our solar system, so that when the planets pass closest to each other the natives of one can see surface features on the other. There is actually a known solar system where planets in the habitable zone of their star do sometimes orbit close enough for someone on one of them to see surface features on the other - TRAPPIST-1.




                                                              The distance between the orbits of TRAPPIST-1b and TRAPPIST-1c is only 1.6 times the distance between the Earth and the Moon. The planets should appear prominently in each other's skies, in some cases appearing several times larger than the Moon appears from Earth.[41] A year on the closest planet passes in only 1.5 Earth days, while the seventh planet's year passes in only 18.8 days.[38][34]




                                                              https://en.wikipedia.org/wiki/TRAPPIST-11



                                                              Or maybe the "planet" and "moon" are actually both moons that orbit a gas giant planet.
                                                              Your "planet" could actually be a giant, Earth sized habitable moon, and the "moon" would orbit closer to the gas giant. Sometimes your "planet" and the inner moon would be almost on opposite sides of the gas giant and the inner moon wouldn't look big enough for details to be visible. But at intervals, probably every few days, the inner moon would pass close to the outer habitable moon and the natives of the habitable moon could see details of the surface of the inner moon and note the changes (and only in the parts of the moon that were lit by their star) .



                                                              If the inner moon orbits close enough to the gas giant the tidal heating should make the inner moon hyper volcanic like Io, the innermost Galilean moon of Jupiter. Various volcanoes might erupt often, spewing out vast amounts of lava of various colors to constantly resurface the inner moon. So each time that details of the inner moon were visible the surface patterns would be at least slightly different.



                                                              The problem with this is that the clouds and weather patterns on the gas giant planet would be visible all the time and would also change, thus possibly distracting the natives of the habitable moon from the show on the inner moon.



                                                              Possibly the moon in your story could suffer from tidal heating and constant resurfacing if it orbited a habitable planet in the right way. It would probably have to have an eccentric orbit which made it get noticeably farther and closer to the planet at various points in its orbit, and thus the patterns on its surface would only be visible when the moon was closer to the planet (and only in the parts of the moon that were lit by their star).



                                                              Possibly someone here can calculate if it is possible for a habitable planet to have a presumably recently captured moon with enough tidal heating to be constantly resurfacing itself.






                                                              share|improve this answer









                                                              $endgroup$


















                                                                0












                                                                $begingroup$

                                                                Possibly there could be intelligence of some sort on the moon and their activities can make a big visual change in the appearance of large sections of the moon during short periods.



                                                                Possibly they are artists trying out various "paint" patterns to see which make the moon look best.



                                                                Perhaps they move countless millions of large vehicles of various colors around on the moon, arranging them in various patterns as part of some sort of "dance".



                                                                Maybe they are trying to send a message to the natives of the planet and thus making an ever changing series of patterns on the moon.



                                                                A century or so ago an astronomer believed that some tiny changes of color he observed on the moon were the results of vast hordes of insects moving around.



                                                                So possibly on your moon thick areas of vegetation spring up, changing the color of vast regions, and then vast wandering hordes of insects travel toward them, changing the face of the moon as they move. When the insects arrive at the forest or meadow or swamp their color mingles with the color of the plants and changes the color of the region as seen from the planet.



                                                                So the insects eat all the vegetation in the region, changing its color, and leave their wastes (containing many seeds) behind to fertilize the soil. The insects move on, searching for another area of vegetation, and the area is now a different color, barren of vegetation until the seeds sprout and start to grow. Eventually the plants become thick enough to change the color of the region back to vegetation colored, then the region retains that color until the same or a different horde of insects arrives to eat the vegetation.



                                                                Of course it seem rather doubtful that a planet small enough to be habitable would have a moon large enough to be habitable for at least some types of life. That would make them seem a lot more like a double planet than like a planet and its moon.



                                                                Of course the intelligent beings on the moon don't have to be living beings; they could be machines.



                                                                Or the two worlds could both be habitable planets orbiting their star if their orbits are a lot closer to each other than any planetary orbits in our solar system, so that when the planets pass closest to each other the natives of one can see surface features on the other. There is actually a known solar system where planets in the habitable zone of their star do sometimes orbit close enough for someone on one of them to see surface features on the other - TRAPPIST-1.




                                                                The distance between the orbits of TRAPPIST-1b and TRAPPIST-1c is only 1.6 times the distance between the Earth and the Moon. The planets should appear prominently in each other's skies, in some cases appearing several times larger than the Moon appears from Earth.[41] A year on the closest planet passes in only 1.5 Earth days, while the seventh planet's year passes in only 18.8 days.[38][34]




                                                                https://en.wikipedia.org/wiki/TRAPPIST-11



                                                                Or maybe the "planet" and "moon" are actually both moons that orbit a gas giant planet.
                                                                Your "planet" could actually be a giant, Earth sized habitable moon, and the "moon" would orbit closer to the gas giant. Sometimes your "planet" and the inner moon would be almost on opposite sides of the gas giant and the inner moon wouldn't look big enough for details to be visible. But at intervals, probably every few days, the inner moon would pass close to the outer habitable moon and the natives of the habitable moon could see details of the surface of the inner moon and note the changes (and only in the parts of the moon that were lit by their star) .



                                                                If the inner moon orbits close enough to the gas giant the tidal heating should make the inner moon hyper volcanic like Io, the innermost Galilean moon of Jupiter. Various volcanoes might erupt often, spewing out vast amounts of lava of various colors to constantly resurface the inner moon. So each time that details of the inner moon were visible the surface patterns would be at least slightly different.



                                                                The problem with this is that the clouds and weather patterns on the gas giant planet would be visible all the time and would also change, thus possibly distracting the natives of the habitable moon from the show on the inner moon.



                                                                Possibly the moon in your story could suffer from tidal heating and constant resurfacing if it orbited a habitable planet in the right way. It would probably have to have an eccentric orbit which made it get noticeably farther and closer to the planet at various points in its orbit, and thus the patterns on its surface would only be visible when the moon was closer to the planet (and only in the parts of the moon that were lit by their star).



                                                                Possibly someone here can calculate if it is possible for a habitable planet to have a presumably recently captured moon with enough tidal heating to be constantly resurfacing itself.






                                                                share|improve this answer









                                                                $endgroup$
















                                                                  0












                                                                  0








                                                                  0





                                                                  $begingroup$

                                                                  Possibly there could be intelligence of some sort on the moon and their activities can make a big visual change in the appearance of large sections of the moon during short periods.



                                                                  Possibly they are artists trying out various "paint" patterns to see which make the moon look best.



                                                                  Perhaps they move countless millions of large vehicles of various colors around on the moon, arranging them in various patterns as part of some sort of "dance".



                                                                  Maybe they are trying to send a message to the natives of the planet and thus making an ever changing series of patterns on the moon.



                                                                  A century or so ago an astronomer believed that some tiny changes of color he observed on the moon were the results of vast hordes of insects moving around.



                                                                  So possibly on your moon thick areas of vegetation spring up, changing the color of vast regions, and then vast wandering hordes of insects travel toward them, changing the face of the moon as they move. When the insects arrive at the forest or meadow or swamp their color mingles with the color of the plants and changes the color of the region as seen from the planet.



                                                                  So the insects eat all the vegetation in the region, changing its color, and leave their wastes (containing many seeds) behind to fertilize the soil. The insects move on, searching for another area of vegetation, and the area is now a different color, barren of vegetation until the seeds sprout and start to grow. Eventually the plants become thick enough to change the color of the region back to vegetation colored, then the region retains that color until the same or a different horde of insects arrives to eat the vegetation.



                                                                  Of course it seem rather doubtful that a planet small enough to be habitable would have a moon large enough to be habitable for at least some types of life. That would make them seem a lot more like a double planet than like a planet and its moon.



                                                                  Of course the intelligent beings on the moon don't have to be living beings; they could be machines.



                                                                  Or the two worlds could both be habitable planets orbiting their star if their orbits are a lot closer to each other than any planetary orbits in our solar system, so that when the planets pass closest to each other the natives of one can see surface features on the other. There is actually a known solar system where planets in the habitable zone of their star do sometimes orbit close enough for someone on one of them to see surface features on the other - TRAPPIST-1.




                                                                  The distance between the orbits of TRAPPIST-1b and TRAPPIST-1c is only 1.6 times the distance between the Earth and the Moon. The planets should appear prominently in each other's skies, in some cases appearing several times larger than the Moon appears from Earth.[41] A year on the closest planet passes in only 1.5 Earth days, while the seventh planet's year passes in only 18.8 days.[38][34]




                                                                  https://en.wikipedia.org/wiki/TRAPPIST-11



                                                                  Or maybe the "planet" and "moon" are actually both moons that orbit a gas giant planet.
                                                                  Your "planet" could actually be a giant, Earth sized habitable moon, and the "moon" would orbit closer to the gas giant. Sometimes your "planet" and the inner moon would be almost on opposite sides of the gas giant and the inner moon wouldn't look big enough for details to be visible. But at intervals, probably every few days, the inner moon would pass close to the outer habitable moon and the natives of the habitable moon could see details of the surface of the inner moon and note the changes (and only in the parts of the moon that were lit by their star) .



                                                                  If the inner moon orbits close enough to the gas giant the tidal heating should make the inner moon hyper volcanic like Io, the innermost Galilean moon of Jupiter. Various volcanoes might erupt often, spewing out vast amounts of lava of various colors to constantly resurface the inner moon. So each time that details of the inner moon were visible the surface patterns would be at least slightly different.



                                                                  The problem with this is that the clouds and weather patterns on the gas giant planet would be visible all the time and would also change, thus possibly distracting the natives of the habitable moon from the show on the inner moon.



                                                                  Possibly the moon in your story could suffer from tidal heating and constant resurfacing if it orbited a habitable planet in the right way. It would probably have to have an eccentric orbit which made it get noticeably farther and closer to the planet at various points in its orbit, and thus the patterns on its surface would only be visible when the moon was closer to the planet (and only in the parts of the moon that were lit by their star).



                                                                  Possibly someone here can calculate if it is possible for a habitable planet to have a presumably recently captured moon with enough tidal heating to be constantly resurfacing itself.






                                                                  share|improve this answer









                                                                  $endgroup$



                                                                  Possibly there could be intelligence of some sort on the moon and their activities can make a big visual change in the appearance of large sections of the moon during short periods.



                                                                  Possibly they are artists trying out various "paint" patterns to see which make the moon look best.



                                                                  Perhaps they move countless millions of large vehicles of various colors around on the moon, arranging them in various patterns as part of some sort of "dance".



                                                                  Maybe they are trying to send a message to the natives of the planet and thus making an ever changing series of patterns on the moon.



                                                                  A century or so ago an astronomer believed that some tiny changes of color he observed on the moon were the results of vast hordes of insects moving around.



                                                                  So possibly on your moon thick areas of vegetation spring up, changing the color of vast regions, and then vast wandering hordes of insects travel toward them, changing the face of the moon as they move. When the insects arrive at the forest or meadow or swamp their color mingles with the color of the plants and changes the color of the region as seen from the planet.



                                                                  So the insects eat all the vegetation in the region, changing its color, and leave their wastes (containing many seeds) behind to fertilize the soil. The insects move on, searching for another area of vegetation, and the area is now a different color, barren of vegetation until the seeds sprout and start to grow. Eventually the plants become thick enough to change the color of the region back to vegetation colored, then the region retains that color until the same or a different horde of insects arrives to eat the vegetation.



                                                                  Of course it seem rather doubtful that a planet small enough to be habitable would have a moon large enough to be habitable for at least some types of life. That would make them seem a lot more like a double planet than like a planet and its moon.



                                                                  Of course the intelligent beings on the moon don't have to be living beings; they could be machines.



                                                                  Or the two worlds could both be habitable planets orbiting their star if their orbits are a lot closer to each other than any planetary orbits in our solar system, so that when the planets pass closest to each other the natives of one can see surface features on the other. There is actually a known solar system where planets in the habitable zone of their star do sometimes orbit close enough for someone on one of them to see surface features on the other - TRAPPIST-1.




                                                                  The distance between the orbits of TRAPPIST-1b and TRAPPIST-1c is only 1.6 times the distance between the Earth and the Moon. The planets should appear prominently in each other's skies, in some cases appearing several times larger than the Moon appears from Earth.[41] A year on the closest planet passes in only 1.5 Earth days, while the seventh planet's year passes in only 18.8 days.[38][34]




                                                                  https://en.wikipedia.org/wiki/TRAPPIST-11



                                                                  Or maybe the "planet" and "moon" are actually both moons that orbit a gas giant planet.
                                                                  Your "planet" could actually be a giant, Earth sized habitable moon, and the "moon" would orbit closer to the gas giant. Sometimes your "planet" and the inner moon would be almost on opposite sides of the gas giant and the inner moon wouldn't look big enough for details to be visible. But at intervals, probably every few days, the inner moon would pass close to the outer habitable moon and the natives of the habitable moon could see details of the surface of the inner moon and note the changes (and only in the parts of the moon that were lit by their star) .



                                                                  If the inner moon orbits close enough to the gas giant the tidal heating should make the inner moon hyper volcanic like Io, the innermost Galilean moon of Jupiter. Various volcanoes might erupt often, spewing out vast amounts of lava of various colors to constantly resurface the inner moon. So each time that details of the inner moon were visible the surface patterns would be at least slightly different.



                                                                  The problem with this is that the clouds and weather patterns on the gas giant planet would be visible all the time and would also change, thus possibly distracting the natives of the habitable moon from the show on the inner moon.



                                                                  Possibly the moon in your story could suffer from tidal heating and constant resurfacing if it orbited a habitable planet in the right way. It would probably have to have an eccentric orbit which made it get noticeably farther and closer to the planet at various points in its orbit, and thus the patterns on its surface would only be visible when the moon was closer to the planet (and only in the parts of the moon that were lit by their star).



                                                                  Possibly someone here can calculate if it is possible for a habitable planet to have a presumably recently captured moon with enough tidal heating to be constantly resurfacing itself.







                                                                  share|improve this answer












                                                                  share|improve this answer



                                                                  share|improve this answer










                                                                  answered yesterday









                                                                  M. A. GoldingM. A. Golding

                                                                  8,021425




                                                                  8,021425























                                                                      0












                                                                      $begingroup$

                                                                      An alien race has covered the planet, or whatever percentage you see fit with a giant TV screen.



                                                                      Maybe they double as solar panels somehow.



                                                                      Now they can literally change any part of the visible surface at whim.



                                                                      Just wait till they spam you with moon sized commericials... muhhahahahaha!






                                                                      share|improve this answer









                                                                      $endgroup$













                                                                      • $begingroup$
                                                                        worldbuilding.stackexchange.com/questions/131609/…
                                                                        $endgroup$
                                                                        – chasly from UK
                                                                        11 hours ago
















                                                                      0












                                                                      $begingroup$

                                                                      An alien race has covered the planet, or whatever percentage you see fit with a giant TV screen.



                                                                      Maybe they double as solar panels somehow.



                                                                      Now they can literally change any part of the visible surface at whim.



                                                                      Just wait till they spam you with moon sized commericials... muhhahahahaha!






                                                                      share|improve this answer









                                                                      $endgroup$













                                                                      • $begingroup$
                                                                        worldbuilding.stackexchange.com/questions/131609/…
                                                                        $endgroup$
                                                                        – chasly from UK
                                                                        11 hours ago














                                                                      0












                                                                      0








                                                                      0





                                                                      $begingroup$

                                                                      An alien race has covered the planet, or whatever percentage you see fit with a giant TV screen.



                                                                      Maybe they double as solar panels somehow.



                                                                      Now they can literally change any part of the visible surface at whim.



                                                                      Just wait till they spam you with moon sized commericials... muhhahahahaha!






                                                                      share|improve this answer









                                                                      $endgroup$



                                                                      An alien race has covered the planet, or whatever percentage you see fit with a giant TV screen.



                                                                      Maybe they double as solar panels somehow.



                                                                      Now they can literally change any part of the visible surface at whim.



                                                                      Just wait till they spam you with moon sized commericials... muhhahahahaha!







                                                                      share|improve this answer












                                                                      share|improve this answer



                                                                      share|improve this answer










                                                                      answered yesterday









                                                                      cybernardcybernard

                                                                      2,04836




                                                                      2,04836












                                                                      • $begingroup$
                                                                        worldbuilding.stackexchange.com/questions/131609/…
                                                                        $endgroup$
                                                                        – chasly from UK
                                                                        11 hours ago


















                                                                      • $begingroup$
                                                                        worldbuilding.stackexchange.com/questions/131609/…
                                                                        $endgroup$
                                                                        – chasly from UK
                                                                        11 hours ago
















                                                                      $begingroup$
                                                                      worldbuilding.stackexchange.com/questions/131609/…
                                                                      $endgroup$
                                                                      – chasly from UK
                                                                      11 hours ago




                                                                      $begingroup$
                                                                      worldbuilding.stackexchange.com/questions/131609/…
                                                                      $endgroup$
                                                                      – chasly from UK
                                                                      11 hours ago











                                                                      0












                                                                      $begingroup$

                                                                      Long ago an intelligent species found this moon and made plans to inhabit it. They created a network of tunnels all across the planet just below its surface. They planted the seeds of life and prepared to begin settling, but for some reason, they never did. So the moon was left, carved tunnels beneath its surface with the beginnings of life sprouting.



                                                                      Fast forward a few thousand years to today, and the moon is buzzing with life--but that life all lives underground. A specific creature, the Mitter, has thrived on the underground flora and fauna. They are a fast moving species that is nomadic by nature, constantly moving to different places in different patterns every day.



                                                                      However, when they move, they let off an abundance of benign chemicals that rise to the surface. These chemicals glow when in contact with the outside air--glowing a slightly different hue for each Mitter. With the abundance of the creatures and their unusual travel patterns, the planet appears to glow in ever changing shades and hues. Perhaps the Mitters' chemicals glow different colors depending on the time of season so the moon will go through phases of colors throughout the year?






                                                                      share|improve this answer









                                                                      $endgroup$


















                                                                        0












                                                                        $begingroup$

                                                                        Long ago an intelligent species found this moon and made plans to inhabit it. They created a network of tunnels all across the planet just below its surface. They planted the seeds of life and prepared to begin settling, but for some reason, they never did. So the moon was left, carved tunnels beneath its surface with the beginnings of life sprouting.



                                                                        Fast forward a few thousand years to today, and the moon is buzzing with life--but that life all lives underground. A specific creature, the Mitter, has thrived on the underground flora and fauna. They are a fast moving species that is nomadic by nature, constantly moving to different places in different patterns every day.



                                                                        However, when they move, they let off an abundance of benign chemicals that rise to the surface. These chemicals glow when in contact with the outside air--glowing a slightly different hue for each Mitter. With the abundance of the creatures and their unusual travel patterns, the planet appears to glow in ever changing shades and hues. Perhaps the Mitters' chemicals glow different colors depending on the time of season so the moon will go through phases of colors throughout the year?






                                                                        share|improve this answer









                                                                        $endgroup$
















                                                                          0












                                                                          0








                                                                          0





                                                                          $begingroup$

                                                                          Long ago an intelligent species found this moon and made plans to inhabit it. They created a network of tunnels all across the planet just below its surface. They planted the seeds of life and prepared to begin settling, but for some reason, they never did. So the moon was left, carved tunnels beneath its surface with the beginnings of life sprouting.



                                                                          Fast forward a few thousand years to today, and the moon is buzzing with life--but that life all lives underground. A specific creature, the Mitter, has thrived on the underground flora and fauna. They are a fast moving species that is nomadic by nature, constantly moving to different places in different patterns every day.



                                                                          However, when they move, they let off an abundance of benign chemicals that rise to the surface. These chemicals glow when in contact with the outside air--glowing a slightly different hue for each Mitter. With the abundance of the creatures and their unusual travel patterns, the planet appears to glow in ever changing shades and hues. Perhaps the Mitters' chemicals glow different colors depending on the time of season so the moon will go through phases of colors throughout the year?






                                                                          share|improve this answer









                                                                          $endgroup$



                                                                          Long ago an intelligent species found this moon and made plans to inhabit it. They created a network of tunnels all across the planet just below its surface. They planted the seeds of life and prepared to begin settling, but for some reason, they never did. So the moon was left, carved tunnels beneath its surface with the beginnings of life sprouting.



                                                                          Fast forward a few thousand years to today, and the moon is buzzing with life--but that life all lives underground. A specific creature, the Mitter, has thrived on the underground flora and fauna. They are a fast moving species that is nomadic by nature, constantly moving to different places in different patterns every day.



                                                                          However, when they move, they let off an abundance of benign chemicals that rise to the surface. These chemicals glow when in contact with the outside air--glowing a slightly different hue for each Mitter. With the abundance of the creatures and their unusual travel patterns, the planet appears to glow in ever changing shades and hues. Perhaps the Mitters' chemicals glow different colors depending on the time of season so the moon will go through phases of colors throughout the year?







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                                                                          answered 23 hours ago









                                                                          scohe001scohe001

                                                                          8051517




                                                                          8051517























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                                                                              $begingroup$

                                                                              Here are some ideas, for a moon with a solid face:




                                                                              • It could have really active plate tectonics moving the surface features around, which (as I understand it) would also imply a strong magnetic field and lots of volcanic activity.

                                                                              • It could be very large, and the orbit of your planet could be just near-enough to an asteroid belt that whenever the moon moves toward the outer side of the orbit, it pulls asteroids into itself, actively rearranging the craters on its face

                                                                              • If your planet is large, its moon could have a ring small of meteors around it, regularly falling into the moon (with no atmosphere to destroy them) and those could also rearrange the craters.






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                                                                              $endgroup$


















                                                                                0












                                                                                $begingroup$

                                                                                Here are some ideas, for a moon with a solid face:




                                                                                • It could have really active plate tectonics moving the surface features around, which (as I understand it) would also imply a strong magnetic field and lots of volcanic activity.

                                                                                • It could be very large, and the orbit of your planet could be just near-enough to an asteroid belt that whenever the moon moves toward the outer side of the orbit, it pulls asteroids into itself, actively rearranging the craters on its face

                                                                                • If your planet is large, its moon could have a ring small of meteors around it, regularly falling into the moon (with no atmosphere to destroy them) and those could also rearrange the craters.






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                                                                                $endgroup$
















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                                                                                  0








                                                                                  0





                                                                                  $begingroup$

                                                                                  Here are some ideas, for a moon with a solid face:




                                                                                  • It could have really active plate tectonics moving the surface features around, which (as I understand it) would also imply a strong magnetic field and lots of volcanic activity.

                                                                                  • It could be very large, and the orbit of your planet could be just near-enough to an asteroid belt that whenever the moon moves toward the outer side of the orbit, it pulls asteroids into itself, actively rearranging the craters on its face

                                                                                  • If your planet is large, its moon could have a ring small of meteors around it, regularly falling into the moon (with no atmosphere to destroy them) and those could also rearrange the craters.






                                                                                  share|improve this answer









                                                                                  $endgroup$



                                                                                  Here are some ideas, for a moon with a solid face:




                                                                                  • It could have really active plate tectonics moving the surface features around, which (as I understand it) would also imply a strong magnetic field and lots of volcanic activity.

                                                                                  • It could be very large, and the orbit of your planet could be just near-enough to an asteroid belt that whenever the moon moves toward the outer side of the orbit, it pulls asteroids into itself, actively rearranging the craters on its face

                                                                                  • If your planet is large, its moon could have a ring small of meteors around it, regularly falling into the moon (with no atmosphere to destroy them) and those could also rearrange the craters.







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                                                                                  answered 22 hours ago









                                                                                  boxcartenantboxcartenant

                                                                                  2,012117




                                                                                  2,012117























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                                                                                      Arctic sea ice is constantly changing, although not on a daily timescale:
                                                                                      https://thumbs.gfycat.com/BothDismalEmperorpenguin.webp






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                                                                                      $endgroup$


















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                                                                                        $begingroup$

                                                                                        Arctic sea ice is constantly changing, although not on a daily timescale:
                                                                                        https://thumbs.gfycat.com/BothDismalEmperorpenguin.webp






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                                                                                        $endgroup$
















                                                                                          0












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                                                                                          0





                                                                                          $begingroup$

                                                                                          Arctic sea ice is constantly changing, although not on a daily timescale:
                                                                                          https://thumbs.gfycat.com/BothDismalEmperorpenguin.webp






                                                                                          share|improve this answer









                                                                                          $endgroup$



                                                                                          Arctic sea ice is constantly changing, although not on a daily timescale:
                                                                                          https://thumbs.gfycat.com/BothDismalEmperorpenguin.webp







                                                                                          share|improve this answer












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                                                                                          answered 20 hours ago









                                                                                          Keith McClaryKeith McClary

                                                                                          1492




                                                                                          1492























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                                                                                              The surface of the moon is covered in an exotic lifeform with an exceedingly rapid lifecycle. Colonies of this lifeform grow to cover large portions of the lunar surface in as little as 12 hours, competing for space with surrounding colonies, before rapidly crashing as soil fertility is depleted. No sooner has one colony collapsed, than another has begun its growth on another part of the moon's surface.






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                                                                                                0












                                                                                                $begingroup$

                                                                                                The surface of the moon is covered in an exotic lifeform with an exceedingly rapid lifecycle. Colonies of this lifeform grow to cover large portions of the lunar surface in as little as 12 hours, competing for space with surrounding colonies, before rapidly crashing as soil fertility is depleted. No sooner has one colony collapsed, than another has begun its growth on another part of the moon's surface.






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                                                                                                $endgroup$
















                                                                                                  0












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                                                                                                  0





                                                                                                  $begingroup$

                                                                                                  The surface of the moon is covered in an exotic lifeform with an exceedingly rapid lifecycle. Colonies of this lifeform grow to cover large portions of the lunar surface in as little as 12 hours, competing for space with surrounding colonies, before rapidly crashing as soil fertility is depleted. No sooner has one colony collapsed, than another has begun its growth on another part of the moon's surface.






                                                                                                  share|improve this answer









                                                                                                  $endgroup$



                                                                                                  The surface of the moon is covered in an exotic lifeform with an exceedingly rapid lifecycle. Colonies of this lifeform grow to cover large portions of the lunar surface in as little as 12 hours, competing for space with surrounding colonies, before rapidly crashing as soil fertility is depleted. No sooner has one colony collapsed, than another has begun its growth on another part of the moon's surface.







                                                                                                  share|improve this answer












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                                                                                                  answered 19 hours ago









                                                                                                  Arkenstein XIIArkenstein XII

                                                                                                  2,320425




                                                                                                  2,320425

















                                                                                                      protected by James 58 mins ago



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