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'''Wormholes''' are portals that connect solar systems and galaxies. Spacecraft can utilize them to instantly travel between solar systems.
'''Wormholes''' are portals that connect solar systems and galaxies. Spacecraft can utilize them to instantly travel between solar systems.


''Interstellar wormholes'' interconnect [[Solar_System|solar system]]s in a loose branching network. Almost every solar system has one or more interstellar wormholes near the primary [[sun]]. Not all solar systems are interconnected by wormholes. Wormholes can create disjoint islands of interconnected solar systems.
A wormhole can also become ''obstructed'' by a celestial body that orbits across it. If a spacecraft emerges from a wormhole like that, the spacecraft is placed farther away from the destination sun until it doesn't hit anything. Crew will not attempt to enter a wormhole that is obstructed by a celestial body.
 
[[Starship]]s use [[Wormhole_Drive|wormhole drive]]s to travel instantly from one [[Solar_System|solar system]] to another through interstellar wormholes. Starships also use wormhole drives to travel instantly from one galaxy to another through intergalactic wormholes.
 
==Wormhole Types==
There are three types of wormholes:


''Intergalactic wormholes'' interconnect [[Galaxy|galaxies]] in a loose branching network. Every galaxy has one or more intergalactic wormholes around the [[Supermassive_Black_Hole|supermassive black hole]] at their core. All galaxies are interconnected by wormholes. Smaller [[Black_Hole_(Celestial)|celestial black holes]] found in random solar systems can also have one or more intergalactic wormholes around them.
===Interstellar Wormholes===
Interstellar wormholes form naturally in the universe and interconnect [[Solar_System|solar system]]s in a loose branching network. Almost every solar system has one or more interstellar wormholes near the primary [[sun]]. Not all solar systems are interconnected by wormholes. Wormholes can create disjoint islands of interconnected solar systems.


[[Ringworld#Star_Gate|Star gate]]s can create temporary ''artificial wormholes'' to a destination solar system from which a [[preon]] was harvested. The destination system of a star gate could even be in another galaxy, which of course require that the preon is from a star in that galaxy.
Interstellar wormholes form at their origin star with a positive polarity and then end at a random destination star within a 3[[pc]] range negative polarity.


A wormhole can also become ''obstructed'' by a celestial body that orbits across it. If a spacecraft emerges from a wormhole like that, the spacecraft is placed farther away from the destination sun until it doesn't hit anything. Crew will not attempt to enter a wormhole that is obstructed by a celestial body.
{|
| [[File:WormholeInterstellarPositive.png|thumb|none|100px|Interstellar positive wormhole.]]
| [[File:WormholeInterstellarNegative.png|thumb|none|100px|Interstellar negative wormhole.]]
|}


[[Starship]]s use [[Wormhole_Drive|wormhole drive]]s to travel instantly from one solar system to another through interstellar wormholes. Starships also use wormhole drives to travel instantly from one galaxy to another through intergalactic wormholes.
===Artificial Wormholes===
[[Ringworld#Star_Gate|Star gate]]s can create temporary artificial wormholes to a destination [[Solar_System|solar system]] from which a [[preon]] was harvested. The destination system of a star gate could even be in another galaxy, which of course require that the preon is from a star in that galaxy.


{|
{|
| [[File:WormholeInterstellarPositive.png|thumb|100px|None|Interstellar positive wormhole.]]
| [[File:WormholeArtificialPositive.png|thumb|none|100px|Artificial positive wormhole.]]
| [[File:WormholeInterstellarNegative.png|thumb|100px|None|Interstellar negative wormhole.]]
| [[File:WormholeArtificialNegative.png|thumb|none|100px|Artificial negative wormhole.]]
| [[File:WormholeArtificialPositive.png|thumb|100px|None|Artificial positive wormhole.]]
| [[File:WormholeArtificialNegative.png|thumb|100px|None|Artificial negative wormhole.]]
| [[File:WormholeIntergalacticNeutral.png|thumb|100px|None|Intergalactic neutral wormhole.]]
|}
|}


==Wormhole Pairs==
===Intergalactic Wormholes===
Most wormholes exist in pairs, either between two [[Solar_System|solar system]]s or two [[galaxies]]. The wormholes always point towards their other pair through the celestial host.
Intergalactic wormholes are special in how they are one-way wormholes to another [[galaxy]], they have a neutral polarity since they have no exit at the destination. They can be found at [[Black_Hole_(Celestial)|celestial black holes]] and at each galaxy's [[Supermassive_Black_Hole|supermassive black hole]]. Intergalactic wormholes at a supermassive black hole can usually be considered two-way, since they always have a wormhole leading both ways.
 
The exit point of a celestial black hole's intergalactic wormhole will be located at a relative location in the destination galaxy. The size of the origin galaxy and destination galaxies are used to scale the distance from the galaxy's core, traveling to a galaxy that is 50% the size will result in being being 50% closer to the core.


However, intergalactic wormholes found around [[Black_Hole_(Celestial)|celestial black holes]] are one-way, and do not provide a return path on the other side.
[[File:WormholeIntergalacticNeutral.png|thumb|none|100px|Intergalactic neutral wormhole.]]


===Polarity===
==Polarity==
Each end of an interstellar wormhole has its own polarity, one end of the wormhole will have a positive polarity, the other end of the wormhole will have a negative polarity. It is possible that two wormhole pairs exist between two solar systems, in this case the polarity of each pair is always opposite of the other.
Each end of an interstellar wormhole has its own polarity, one end of the wormhole will have a positive polarity, the other end of the wormhole will have a negative polarity.  


Intergalactic wormholes are '''always''' neutral.
Intergalactic wormholes are '''always''' neutral.
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* '''Negative''' wormholes are identified by red, yellow and white colors.
* '''Negative''' wormholes are identified by red, yellow and white colors.
* '''Neutral''' wormholes are identified by blue and magenta colors.
* '''Neutral''' wormholes are identified by blue and magenta colors.
==Wormhole Types==
There are three types of wormholes:
* Natural '''interstellar''' wormholes that are present around a [[Solar_System|solar system]]'s primary sun.
* Natural '''intergalactic''' wormholes that are present around [[Supermassive_Black_Hole|supermassive black holes]] and [[Black_Hole_(Celestial)|celestial black holes]].
* Temporary '''artificial''' wormholes are created by a [[Ringworld#Star_Gate|star gate]].


[[Category:Science]]
[[Category:Science]]

Revision as of 20:27, 14 April 2024

Interstellar wormhole network.

Wormholes are portals that connect solar systems and galaxies. Spacecraft can utilize them to instantly travel between solar systems.

A wormhole can also become obstructed by a celestial body that orbits across it. If a spacecraft emerges from a wormhole like that, the spacecraft is placed farther away from the destination sun until it doesn't hit anything. Crew will not attempt to enter a wormhole that is obstructed by a celestial body.

Starships use wormhole drives to travel instantly from one solar system to another through interstellar wormholes. Starships also use wormhole drives to travel instantly from one galaxy to another through intergalactic wormholes.

Wormhole Types

There are three types of wormholes:

Interstellar Wormholes

Interstellar wormholes form naturally in the universe and interconnect solar systems in a loose branching network. Almost every solar system has one or more interstellar wormholes near the primary sun. Not all solar systems are interconnected by wormholes. Wormholes can create disjoint islands of interconnected solar systems.

Interstellar wormholes form at their origin star with a positive polarity and then end at a random destination star within a 3pc range negative polarity.

Interstellar positive wormhole.
Interstellar negative wormhole.

Artificial Wormholes

Star gates can create temporary artificial wormholes to a destination solar system from which a preon was harvested. The destination system of a star gate could even be in another galaxy, which of course require that the preon is from a star in that galaxy.

Artificial positive wormhole.
Artificial negative wormhole.

Intergalactic Wormholes

Intergalactic wormholes are special in how they are one-way wormholes to another galaxy, they have a neutral polarity since they have no exit at the destination. They can be found at celestial black holes and at each galaxy's supermassive black hole. Intergalactic wormholes at a supermassive black hole can usually be considered two-way, since they always have a wormhole leading both ways.

The exit point of a celestial black hole's intergalactic wormhole will be located at a relative location in the destination galaxy. The size of the origin galaxy and destination galaxies are used to scale the distance from the galaxy's core, traveling to a galaxy that is 50% the size will result in being being 50% closer to the core.

Intergalactic neutral wormhole.

Polarity

Each end of an interstellar wormhole has its own polarity, one end of the wormhole will have a positive polarity, the other end of the wormhole will have a negative polarity.

Intergalactic wormholes are always neutral.

The polarity of a wormhole can be identified by its color:

  • Positive wormholes are identified by blue, cyan and white colors.
  • Negative wormholes are identified by red, yellow and white colors.
  • Neutral wormholes are identified by blue and magenta colors.