Solar System: Difference between revisions

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==Planetary Bodies==
==Planetary Bodies==
Stars usually have planetary bodies orbiting them. Solar output based on the spectral classification and magnitude of each star determines the radius at which the habitable [[Orbit_Zone|orbit zone]] may occur. In this orbit zone [[world]]s may be habitable. Not all solar systems contain habitable worlds. Some solar systems have no planetary bodies at all.
Stars usually have planetary bodies orbiting them. Solar output (based on the spectral classification and magnitude of each star) determines the radius at which the habitable [[Orbit_Zone|orbit zone]] may occur. In this orbit zone, [[world]]s may be habitable. Not all solar systems contain habitable worlds. Some solar systems have no planetary bodies at all.


All planetary bodies orbit in a completely circler orbit around host star or world. Each world may have up to four [[moon]]s and [[ring]]s.
All planetary bodies orbit in a completely circular orbit around the host star or world. Each world may have up to four [[moon]]s and [[ring]]s.


==Interstellar Travel==
==Interstellar Travel==
It is possible for a [[spacecraft]] to travel through space directly to another solar system at [[lightspeed]] using normal propulsion, this is known as [[deadhead]]ing and travel time can be quite long depending on the distance. A spacecraft with a [[FTL_Drive|FTL drive]] can however travel the same distance in a faction of the time.
It is possible for a [[spacecraft]] to travel through space directly to another solar system at [[lightspeed]] using normal propulsion, this is known as [[deadhead]]ing and travel time can be quite long depending on the distance. A spacecraft with a [[FTL_Drive|FTL drive]] can however travel the same distance in a fraction of the time.


===Wormholes===
===Wormholes===
The primary [[star]] may have one or more naturally orrcouing [[wormhole]]s present around it. Wormholes connect to nearby solar systems in a loose branching network. Spacecraft use [[Wormhole_Drive|wormhole drive]]s to travel instantly from one solar system to another through wormholes.
The primary [[star]] may have one or more naturally occurring [[wormhole]]s present around it. Wormholes connect to nearby solar systems in a loose branching network. Spacecraft use [[Wormhole_Drive|wormhole drive]]s to travel instantly from one solar system to another through wormholes.


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

Revision as of 16:35, 24 February 2017

Sectors contain solar systems. The number of solar systems in each sector is based on the star density at the sector's coordinate in the galaxy.

Solar systems contain one, two or three stars. The primary star is at the center of the solar system. In a binary or trinary system, the secondary star orbits the primary star. In a trinary system, the tertiary star may orbit the primary or it may orbit the secondary.

Planetary Bodies

Stars usually have planetary bodies orbiting them. Solar output (based on the spectral classification and magnitude of each star) determines the radius at which the habitable orbit zone may occur. In this orbit zone, worlds may be habitable. Not all solar systems contain habitable worlds. Some solar systems have no planetary bodies at all.

All planetary bodies orbit in a completely circular orbit around the host star or world. Each world may have up to four moons and rings.

Interstellar Travel

It is possible for a spacecraft to travel through space directly to another solar system at lightspeed using normal propulsion, this is known as deadheading and travel time can be quite long depending on the distance. A spacecraft with a FTL drive can however travel the same distance in a fraction of the time.

Wormholes

The primary star may have one or more naturally occurring wormholes present around it. Wormholes connect to nearby solar systems in a loose branching network. Spacecraft use wormhole drives to travel instantly from one solar system to another through wormholes.