Io, Io.
A large nebula of matter didn't manage to cluster together into rocks.
It forms a blanket like celestial body, 1,4 AU away from the twin stars. It blocks the light path between the our planet and the sun every 4th solar year ( the time the rocky planets takes to revolve around the twin suns) for 0,5 solar years.
Well, I doubt that asteroid belts are dense enough to blanket the light from a star... I mean, look at the biggest body of the asteroid belt in our Solar system, Ceres. It makes up one third of the asteroid belt's mass, and it has only the mass of 0.013 Moons. Asteroid belts have an extremely low denstity.
I'd like to have some asteroid belt.
I want an asterid belt.
How about having a belt with a highly exentric orbit that crosses with out planets orbit. Yearly asteroid showers are nice.
I want some gasgiants and some nice, but strange moons for our planet. As in 90 degree angled orbit, which will cause floods moving from South to North and North to South. Also, twice a year you get a rapid series of daily eclipses, compared with freak tides.
I like both of your ideas... But how would those two moons be formed?
That thing is dense. Really, more like the density of a planet. It should glob into one.
Also, in 0.5 year the temperature would certainly drop well below freezing, unless our planet produces more geothermal heat than normal. Which would cause it to cook over the rest of the time.
Maybe it's magnetical charged enough to not form a body?
And it's kinda my plan that it makes every 4th year a new ice time. 
Well... magnets, when close together, orient themselves to make it possible to combine the magnetic fields. Doubt that that would work... If something should cover the suns completely for a time of the year, a gas giant would be an option.
That thing is dense. Really, more like the density of a planet. It should glob into one.
Also, in 0.5 year the temperature would certainly drop well below freezing, unless our planet produces more geothermal heat than normal. Which would cause it to cook over the rest of the time.
Maybe it's magnetical charged enough to not form a body?
And it's kinda my plan that it makes every 4th year a new ice time.
It won't be an ice time. It'd be far worse. The planet would become a barren, frozen rock, without any chances of survival of live except inside the deepest ocean layers.
If you wan't to go for an ice age a partial occlusion instead of a complete one. What if we replace the dark cloud with something that's already in the system. The planet, probably has a fairly long rotational period, and every so often one of the suns might obstruct the other for an extended period of time. If the weakest sun obstructs the strongest, the planet would enter a short, but non destructive iceage. Otherwise, it will enter a mild iceage.
(the suns will probably need to be way to close to each other for this to happen but.)
Okay, so I'll have a take at the planetary system:
- 0.6AU: Dwarf Rocky Planet. orbiting closely to the K star (directly around it, not around the couple). 0.65g, 0.008atm. Mostly carbon under high pressure. Graphite plains, solid diamond mountains, pitch black lava...
- 1.2-3.6 AU: Asteroid Belt, remnants torn apart by tidal forces from the stars.In order to have the afforementioned crossing, the orbit needs to be very excentric.
- 2.4 AU: Us.I advise adding a moon or two. They are nice for tidal forces, and if added in the previously suggested orbit, will give some nice effects. You can even sync them up with the destructive ice age thing.
- 4.8 AU: Generic Rocky Planet. 1.6g, 1.1atm. Lots of ice, mostly CO2 atmosphere. Too cold for liquid water, sadly.
-Moon 1: 2.5km asteroid
-Moon 2: 0.3km asteroid
-Moon 3: 0.1km asteroid
- 9.6 AU: Generic Red and white Gas Giant. Neptun-sized. Mostly H2 and He. At least 6 notable moons. Small, but noticeable white rings.
- 19.2 AU: Generic Blue Gas Giant. Saturn-sized. H2, He and CH4. Fairly noticeable orange rings (nothing like saturn though). At least 3 notable moons, probably more.
- 38.4 AU: Generic Dwarf Rocky Planet. 0.8g, 0atm. Completely and utterly frozen. At least 1 notable moon, probably more. Also Asteroid Belt with several planetoids.
I like the solar system model, but the diamond planet couldn't orbit "directly around" the K star. The stars orbit around each other quite closely.
Well, scrap the whole cloud jenkins. Was a bad idea in the first place. Tried to bring up something exotic. Hrn.
Oh well, we can still have the eccentric belt, which the planet will pass through twice a year. That sounds quite exotic to me.
Hmm...
Can rocky planets supports planetary rings?
Sure, why not?
We also have a suggestion for a name for our planet! Feel free to post new ones. We still need to name the stars and the other planets though
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Topic: Create a Planet (Read 65246 times)