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Difference between revisions of "Neutron Star"

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[[Neutron Star (Tau-65)]]
 
[[Neutron Star (Tau-65)]]
  
[[Neutron Star (Maine (System))]]
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[[Brulon Neutron Star (Maine (System))]]
  
 
[[Black Hole]]
 
[[Black Hole]]

Latest revision as of 08:24, 10 December 2019

WARNING, NAVIGATIONAL HAZARD!

A Neutron Star is a stellar remnant, a super-compressed object left over when stars with a mass between 1.4 and about 3 times the mass of a medium class star exhaust their nuclear fuel and collapse inwards. The result is a condensed sphere of matter about 20 km (12 miles) across, with a gravitational field approximately 2 x 10^11 times stronger than that of a normal terrestrial planet.

The density of a Neutron Star is so great that the protons and electrons making up the atoms fuse to form electrically neutral neutrons, the primary particles making up the neutron star. Because they are electrically neutral, such particles can be packed very closely together, resulting in a celestial object with similar density to that of the atomic nucleus.

Several Neutron Stars are known to exist in Sirius, with one located in Puerto Rico, one at the center of Omega-41 and one recently created during the Omega-58 Incident. Another known Neutron Star was the X-ray Pulsar located in Tau-65.

Civilian vessels not equipped for deep space exploration are advised to use strong caution, as Neutron Stars are extremely radioactive, and can cause severe damage to spacecraft or even kill their occupants.

Getting close to a Neutron Star is extremely dangerous, as the powerful magnetic field and gravity well can rip even the toughest ships apart.



See Also


Neutron Star (Omega-41)

Neutron Star (Omega-58)

Neutron Star (Puerto Rico)

Neutron Star (Tau-65)

Brulon Neutron Star (Maine (System))

Black Hole