Let's make a solar system Veeky Forums, using a fuckhuge complex system that I'll do my best to pare down on your end.
To start! Let's generate some stellar data, can I get 1d100, 2d10, and a name for our star.
Let's make a solar system Veeky Forums, using a fuckhuge complex system that I'll do my best to pare down on your end
Jayden Price
Ethan King
Hyperion?
Matthew Nguyen
Rolled 14 (1d100)
Whoops
Jack Edwards
Rolled 56 (1d100)
The Star is called Kesson
Anthony Bennett
We'll go with this name and
this roll.
Our star, Kesson A will be a Spectral Class K star with a size code of V, can I get a d10 for our spectral classification, and a d10 for our luminosity?
Jordan Brooks
Rolled 1 (1d10)
Mason Baker
Rolled 10 (1d10)
Jack Bell
Very good, Kesson A is now classified as K1V. The K represents the stellar type, the 1 represents the spectral classification (rated from 0 to 9, with 0 being the hottest and 9 the coolest), and size code V, which is where stars spend most of their "lifespan."
It's luminosity is 0.46 compared to our sun, so about half the intensity. It's mass is 0.82 compared to our sun, about 4/5ths as massive. It's surface temperature is 5200 kelvin, and it's radius is 0.9 compared to our sun, so just a bit less radially wide.
Now that that's done, can I get 1d10 for system age, and 2d10 for system abundance?
Matthew Garcia
Bumping, any interest in this at all?
Eli Ross
...
Jordan King
Rolled 8, 4 = 12 (2d10)
It keeps eating my dice.
Luis Wright
Yes, there is
Joseph Davis
Rolled 5, 3, 1 = 9 (3d10)
Brayden Gray
Rolled 1 (1d6)
Dominic Lopez
Rolled 3 (1d10)
Isaiah Adams
Taking the first d10 of this one for age and
this 2d10 for system abundance.
Weird, dicebot seems to be acting up for some reason.
Good to hear, thanks.
The system is 5 GY (Billions of years) old, this is fairly young, as based on a calculation with our mass and luminosity, Kesson A's lifespan is 18 GY.
The system is abundant in heavy elements, it's essentially just a dice mod for me later.
Now I just need 2d10 for number of planetary orbits. As this goes on there will start to be quite a few calculations for me to do on my end that could lead to slower responses.
Sebastian Wright
Rolled 5, 2 = 7 (2d10)
Connor Nguyen
...
Caleb Clark
That gives us 7 potential orbits, and as such, could I get 7d10s?
That's what I'm using alright.
Jace Perry
Rolled 5, 7, 1, 6, 1, 1, 9 = 30 (7d10)
Here.
Luke Rivera
Bump
Brody Ramirez
Sorry, had to step out for a second, calculating orbit distance now.
Someone wanna give me 7d100s to determine what's in each of the orbits while I do this?
Christopher Sanders
Rolled 31, 53, 66, 63, 84, 96, 92 = 485 (7d100)
Jace Russell
And so it is done. We've got several terrestrial planets, which just refers to any non-gas giant non-chunk. We've got a couple of chunks, which are essentially large asteroids. We have a superjovian, which is a gas giant in the middle of transitioning into a brown dwarf, and a gas giant. All are within our star's inner zone, which just means that icy planets won't be likely due to proximity to the star.
Next I need 7d10 to figure out each planet's equatorial radius, from that I'll get the density, mass, gravity, and escape velocity, then we can move onto the life zone.
Blake Baker
Rolled 4, 4, 8, 9, 7, 4, 6 = 42 (7d10)
Awesome, keep them coming
Alexander Stewart
Very interested in this, can't contribute atm.
Blake Harris
Bump with hope that OP comes back.