actually the version we have is Universal sandbox 2 but it's called just Universal sandbox
The next version is the third but they call it Universe sandbox˛
well I have steam version 2 .2 .0 ... what does that means then ?
actually the version we have is Universal sandbox 2 but it's called just Universal sandbox
The next version is the third but they call it Universe sandbox˛
Ok back to some weird new Extreme planetary features :
Half emisphere Illuminated
A planet with only one side under sun and the other under night and an eternal twilight zone .
Red sun
As title says what woudl change , how woudl be the size of sun insky , how atmoshpere colors etc? Any influence on
possible civilizations?
Long/short day cycles
What woudl happen toEarthlike planets with a too short day cycle , like 6 -12 hours or longer like 48 - 96 hours? How would
life adapt?
Long/Short Seasons
Hw woudl change life on earthlike planets if the orbit around the sun was extreme slow or faster?
Increased mineral presence
How woudl be a planet gravity if its Iron mass was extremely more abundant than our planet or the opposite ?
How would
Acid Lakes
Are possible Acid like supersized lakes or even seas?
Binary/Trinary Star systems
how would life adapt and survive?
Gliese 667 Sunrise
1599px-Gliese_667_Cc_sunset.jpg
The Earth itself may be used as an example, since it's rotation has been slowing down and continues to slow down. 620 million years ago the day was ~22 hours. It may have been something like only 4-5 hours at the time when the Moon formed. Life would probably adapt to a shorter day/night cycle quite easily. A longer cycle might be more challenging in arid climes due to the temperature changes (deserts get very hot during day and very cold during night; if both day and night last longer then there's more time for heating up and cooling down.)
How long it takes to complete a near-circular orbit mostly just effects the length of seasons on the planet.
If the orbit happens to be very elliptic then it's duration becomes much more relevant because the planet's distance to the sun changes significantly throughout a year. Seasons might be more extreme for either the northern or southern hemisphere, and milder for the other. If for example the planet happens to be closest to the sun during the winter of northern hemisphere, then winters will be mild in the north and extremely cold in the south, with summers being cool in the north and extremely hot in the south.
Last edited by Ghostman; 07-17-2014 at 08:41 AM.
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So if the axial tilt is stuck vertically on the elliptical traje tory , the seasons would be always eternal and with slight ups and downs due to the distances ?
I can contribute some details here as well.
Moon of a Larger Gas Giant
While gas giants do have huge magnetic fields that deflect a lot of radiation, they also create tons. Jupiter's moon, Io for example is in a radiation belt strong enough to give a human a lethal dose in a very short timespan. I can elaborate on xpian's ideas about heat generation as well. Jupiter generates heat because it's still contracting from its formation. That gravitational energy is radiated out slowly. However, this energy does little to warm anything except Jupiter itself.
Additionally, unless your moon is a captured asteroid, it's almost guaranteed to be composed primarily of ice. Most of the gas giant moons are. This has advantages, though. The tidal forces that stretch Io are also suspected to be stretching Europa and Callisto, possibly creating a liquid ocean beneath a surface of ice. Sooo, if you want an aquatic race, gas giant moons are excellent. But xpian is right. You could easily have something like an earth-sized planet an acceptable distance from a gas giant to support life. With a thick enough atmosphere, you could even keep it relatively warm.
Twin Earths
Entirely possible. In fact, Earth and its moon are considered to be a "double planet" because they're so close in size (astronomically speaking). This likely would cause tidal locking, but wouldn't necessarily mean some parts of each planet get no sunlight. The moon is tidally locked to earth, but because its axis is tilted, it doesn't create an eclipse every time it orbits.
Axial Tilting Periodical Movements
Yes. Theoretically possible. What you're describing is an effect called "precession". Earth does it at a small angle on a 50,000 year cycle. Think of it like a spinning top that starts to wobble. We don't see this mess with the seasons on Earth because that 50,000 year period is far slower than the 365 day period for a year. But IF you had a planet that was precessing much faster than it was orbiting, you could get some wonky effects. However, any planet precessing that fast would sort of even itself out. So the only way you could do this would be to bend reality and have the planet precess very quickly but have a very far orbit. Science fiction, right!
I can add a few other crazy ideas, too.
Interesting Exosolar Planets
Some of the planets we're theorizing have some crazy properties. Planets tidally locked with their parent stars so that one side is permanently dark, the other bright. This creates turbulent wind patterns at the terminator (the border between light and dark). You could then have a planet with permanent areas of twilight with permanent violent storms.
We've also theorized that there are "carbon planets" composed almost entirely of carbon. These planets could literally have volcanoes that erupt diamonds.
Rogue Planets
It's hardly impossible to have planets that get flung away from their parent stars and sent into deep space. These rogue planets would literally just wander between stars, almost permanently dark and frozen. But you could have life living deep under the surface, surviving on heat radiating from the core. I think there was a Star Trek Voyager episode that did something with a rogue planet.
If your axial tilt is stuck vertically (which, if I understand what you're getting at would mean NO tilt), then you pretty much won't have seasons. You'll get a planet with weather the same all year round. Farther north you go, the colder it gets, but that'd be about it. If your trajectory is elliptical enough, you will get seasons, but they'll affect the entire planet at once, rather than the north-south hemisphere opposites we get on earth.
Last edited by BlackChakram; 07-20-2014 at 11:47 PM.
“What is a fantasy map but a space beyond which There Be Dragons? On the Discworld we know that There Be Dragons Everywhere. They might not all have scales and forked tongues, but they Be Here all right, grinning and jostling and trying to sell you souvenirs. ”
~~ Terry Pratchett
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Thankyou , how many different abitable worlds you can Imagine? or Astronomy can define as abitable? from positions in the system to size, features, etc etc ... I really can think only of a few but I bet there are dozens of other combinations I Can't think of .
I mentioned in this thread, that only real requirement for life as we know it is liquid water as a solvent and transport mechanism for complex organic molecules. Note that I said "as we know it". I suppose it's possible for some kind of life to exist without water, but it would be so foreign that we may not even be able to recognize or understand that it's alive.
So where do we get liquid water? The simplest model is based on distance from the star. This wikipedia article discusses that distance based on star size. We can modify this, though, from several things. If your planet is too far away, you need to warm it up. This could be through tidal forces like has been discussed here with Jupiter's moons. It could be a thick atmosphere that traps heat. It could be water deep underground that is warmed to liquid state by heat from volcanoes. Anything you can reasonably come up with here is good.
Same with being too close. You need to cool down to get liquid water. This could be in a band near the tops of mountains where things are cooler. It could be under an atmosphere that reflects the star's heat. It could be on the terminator of a tidally locked planet. Once again, any reasonable way you could conceive to drop the temperature.
As for size, I think someone already mentioned that here, but I could be wrong. Heavier worlds would create shorter, stockier creatures. I'm not a biologist, but I would assume you can reach a point with gravity where creatures can't hold themselves up, no matter how stocky or solid they are. Low gravity will breed more flying-type creatures. No need to waste energy if you can get around better by gliding than walking.
As for other features, I guess you'd have to look at that on a case-by-case basis. Mass Effect had the perfect example. On Palaven, the Turian homeworld, there was no planetary magnetic field. This allowed more dangerous radiation to reach the surface where it could affect the creatures. So life on that world evolved to have metallic components in their skin that could deflect / deal with this radiation. (They really nailed their science in that series.)
There probably are endless combos, but I can think of at least one. A planet in the path of a pulsar would get bathed with deadly radiation thousands of times per second. But you could have a planet and a pulsar arranged in such a way that only one latitude gets exposed, so you have a dead strip on the planet where nothing can survive.
Hope this answers your question!
“What is a fantasy map but a space beyond which There Be Dragons? On the Discworld we know that There Be Dragons Everywhere. They might not all have scales and forked tongues, but they Be Here all right, grinning and jostling and trying to sell you souvenirs. ”
~~ Terry Pratchett
- My fantasy gamebook
- My old Traveller actual play podcast
- My upcoming DND cloak and dagger actual play podcast
Just an off-topic comment .... when I saw this thread, I thought here is something I can really contribute to, having taught Planetary Geology at two different universities. Instead, I am really impressed with the number of people who have posted really excellent answers. Not sure why, but I pictured cartography as a technical art form, and instead I discover a lot of seriously good scientific knowledge here as well. Very cool!
Please post the most of the information you can , I sugest even to make possible scenarios , those could be usefull as well , let your ideas and fantasy go wild but tied to physics and universe laws .