User:Rebecca1208/New Astronomical Objects

see --> Campaign for new Achievements

See --> Campaign for new Space Tools

New Page, more information shall be added as soon as possible, my apologies

Quick Introduction
''In the Space Stage of Spore, we have a small variety of space objects, including star systems, binary systems, wormholes (black holes in Spore), proto-planetery disks and the Galactic Core, with Steve living there. A group of people in the Electronic Arts Forums have suggested adding new objects, some which would make the Space Stage much more like real life or give more excitement into the stage. And so this page is dedicated into introducing new astronomical objects into Spore!''

please use this layout

Name:(name of object)

Apperance:(what the object looks like)

Rarety: (the rarety of the object)

Size: (the size of the object)

Information:(ifomation about the object, what it does, how it works)

premade layout so it's easier to edit.

Name:

Apperance:

Rarety:

Size:

Information:

Square star
Apperance: Much like any other star except square.

Rarety: Very rare, makes square planets look common.

Size: Depends on type of the star.

Information: No differance to gameplay, just a bit of fun like the square planet.

Black hole
Apperance: a black hole with an orange vortecs surounding it, everything is distorted in and around it.

Rarety: Very common, not as common as yellow dwarf stars however.

Size: the star is very small, no bigger then a moon, the vortex is the size of a white giant.

Information: Anything passing within the event horrizon gets consumed, however, if your the distance from where earth is away from it's sun your safe, meaning there can be planets orbiting it, these would be cold barren worlds. If the players ship gets to close it gets consumed, be carefull when visiting a blackhole.

Dwarfs (white, black)
Apperance: White dwarf looks like a small type O-type star while the black dwarf would look like a dark star with no flames on it what so ever. A white dwarf would have a planatary nebula around it whilst the black dwarf would look like a scorched black planet.

Rarety: A white dwarf will be fairly common wilst a black dwarf would be extremely rare and hard to find as they are so dim.

Size: Small (planet sized)

Information: Dwarf Stars are mainly just burnt out stars. If any planets remain in the system, they should all be ice worlds as during the star's life, becoming a red giant would have incinerated or destroyed any nearby planets. Only those with a larger orbit should 'survive (the universe has not had enough time yet for any black dwarths to exist but however if there where any they would look much like blackholes)'.

"All Star Sizes"
Appearance: Depending on star size

Rarety: A variety of star sizes would be very common

Size: The smallest stars would be slightly larger than a black hole, while the largest ones would be greater than the type 'O' stars in Spore.

Information: Spore only has a small number of star types, while in reality there are many. And the stars should also be coloured depending on their heat, eg. the hottest stars are blue, while in Spore it's the larger ones that are blue/white.

Pulsar/Magnetar
Appearence: A bright spinning star

Rarety: Rare

Size: Small

Infomation: They give off radio waves detected by the seti tool, and they spin at high velocity and they are surrounded by a supernova remmnant. Any tranmitions from other empires near these stars would be static due to it intiferring with the transmittion.

Additional Notes: (yet to be added)

Wolf-Rayet stars
Appearence: Similar to protostars but larger and with a nebula, and it is rappidly giving of materal.

Rarety: Very rare

Size: very large, twice the size of a type O star.

Infomation: It has no planets, goes suppernova with given time.

Interacting Binarys
Apperance: A binary star system that is interacting with each other, EG: A star getting consumed by a black hole. Rarety: Depending on what binary it is it could be quite common to very rare.

Size: Depends on binary.

Information: An interacting binary in a very unstable system, these are to stars more or less destroying each other, if a white dwarth was feeding on a yellow star the white dwarth will go super nova as it would gain too much mass to hold it up against gravity and the yellow star would be torn apart, evenchly the planets around it would be destroyed.

Early Planetary system
Apperance: Planets orbiting a proto planetary disk, these would be lavar worlds with craters as they would be constantly bombarded.

Rarety: fairly common in protoplantary disks.

Size: size of a nomal star system.

Information: An early planet would occur when the dust particals from the disk around the sun gather together so quickly that a planet forms before the star has properly formed. There would be no gas giants in such a system.

Triple Star System
Apperance: Basically, much like the Binary Star Systems (eg. OO, OE etc.) but with a third star. May result in planets, if any, orbiting further away, more lava planets.

Rarety: Fairy Uncommon - same number as a giant binary star system?

Size: The object size would be fairly large, especially if the system contains three giant stars, and any planets orbiting them.

Information: Planets orbiting this system should be far away, or any closer ones should be lava planets. Could mainly be a single, large star at the centre of the system, with smaller ones orbiting it. Chances of a OOO system would be highley uncommon.

Stars orbiting planets
Apperance: A planets larger than then a type O star sits in the middle while the star orbits it.

Rarety: Extremely rare, 1 in 1000 white super giants is a star obiting a planet.

Size: The system is the same size as a binary star system.

Information: The star obiting the planet system is very rare, the planet can have up to ten coloneys, the eco systems are also much larger to keep it stable, the system is often to only have this giant planet and the sun in the system.

Size Shifting Planets
Apperance: like any other planet except the size of it fluctuates, it might be big, it might be small, these size changes are unpredictible, and can happen before the players eyes.

Rarety: very rare

Size: deppends, one minute half the size of a moon in spore, next minuite size of a type O star.

Information: Often a very low T1 as when a fluctuation occurs one side would be very fare away and the other right next to the sun, it is possible to terreform but verry hard and can only surport one colony as if two colide they get destroyed.

Discworld
Apperance: An earthian floating planetary disc with a golden rim around it

Rarety: Very rare

Size: The approx diameter of Earth

Information: Flat planets are unusual in the fact that they are a Disc, making it possible to fall of of the planets surface, they are very rare and most likely not natural.

Brown dwarf
Apperance: Looks like a gas giant, except it is tinted dim red or brown

Rarety: Common, slightly less common than yellow stars

Size: One 10th the size of a red dwarf, much larger than Jupiter.

Information: Once classified as stars but now they are intermediate with planets, these are basically stars that never had nuclear fusion take place, or never ignited. Any planet in this system would be a cold dead world. Most planets in such a system would be very small, even the gas giants would be slightly smaller than Uranus. Most Brown dwarfs would have no planet in this system at all.

Ringworld
Apperance: Almost identicle to a Halo ring from the halo series

Rarety: Very rare for prebuilt ones, common for empire built ones

Size: Roughly the same diameter as earth

Information: Created for various purposes, ringworlds are a space megastructure that generally orbit a gas giant, they are used for cleansing a galaxy of a specific life form or religious purposes. they can be built by a player and colonized to give a bonus to the spice production in the star system it orbits.

Dwarf planet
Apperance: looks like a normal planet except very mishapen, often more than a normal planet

Rarety: very common, occures in most systems

Size: half the size of a "moon" in spore.

Information: these are planets that are smaller than normal planets, they are too small to have cleared the astroids in there path and often are found in an asteroid belt. They normally have less spice in Spore and are too small to support more than 2 colonys.

Hollow Planet
Appearance: like a normal planet

Rarety: Extremely rare

Size: Normal planet size

Information: Look exactly like normal planets, apart from the fact there will be some kind of opening somewhere on the planet, large enough for the spaceship to enter. Colonies can be placed inside the planet, and gather an expensive spice colour slowly

Rogue Planet
Appearance: A cold, dark planet in permanent night

Rarety: Quite common, but difficult to find so they seem rare

Size: Planet sized or moon sized or occaisonally gas giant

Information: Planets that orbit no star but float free in space. They would be permanent T0s, and may need a special tool to detect. They could in time be captured by a nearby star, and would then function as a normal planet.

Artificial Planet
Appearance: Like the death star

Rarety: N/A

Size: Moon sized

Information: Planets created with a tool. They can sustain colonies, and are free to recharge at. The colonies on this planet gather the spice colour of the planet they orbit veeerrry slowly, and each planet can only have 1 artificial planet orbiting it.

Super Nova
Appearance: A star exploding

Rarety: Quite Rare

Size: Depending on star size, the supernova could be fairly large, or a massive event

Information: When a supernova is about to occur near your spaceship, eg. 150(pc) then a warning will appear on screen. The player could fly to the event in time to watch the star ignite and explode, although this could destroy the spaceship too.

Additional Notes: It's been suggested that a tool could be used to prevent supernova so that colonies aren't destroyed. Such tool should be avaliable at a higher level, and may require resources, eg. an ancient relic or number of purple spice.

Gammma ray burst
Appearance: A been of bright light, in galatic view, in other views the screen would simply go white

Rarety: very rare, non of your conlonys are likley to see one.

Size: verry large, can out shine a whole galaxy.

Information: A gamma ray burst occures when two black holes collide, a newtron star falls into a black hole, or if two newtron stars collide, however they are extreemerly radioactive, any life caught within 100 parsecs of the burst would get destroyed and the planet no matter what Tscore would be uninhabitible.