Star: Difference between revisions
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|Black Hole | |Black Hole | ||
|{{icon|science}}2-4 | |{{icon|science}}2-4 | ||
|{{icon|speed}} {{red|−25%}} | |{{icon|speed}} {{red|−25% Speed}} | ||
|A region of space where the gravitational pull is so strong that nothing, not even light, can escape. Black holes form when massive stars collapse in on themselves. | |A region of space where the gravitational pull is so strong that nothing, not even light, can escape. Black holes form when massive stars collapse in on themselves. | ||
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|Pulsar | |Pulsar | ||
|{{Icon|energy}}1-2{{icon|science}}1-2 | |{{Icon|energy}}1-2{{icon|science}}1-2 | ||
|{{icon|shields}} {{red|−100%}} | |{{icon|shields}} {{red|−100% Shields}} | ||
|A highly magnetized, rotating neutron star that emits beams of electromagnetic radiation. Pulsars were first observed as objects emitting regular pulses of radio waves. | |A highly magnetized, rotating neutron star that emits beams of electromagnetic radiation. Pulsars were first observed as objects emitting regular pulses of radio waves. | ||
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|Neutron Star | |Neutron Star | ||
|{{Icon|energy}}1-2{{icon|science}}1-2 | |{{Icon|energy}}1-2{{icon|science}}1-2 | ||
|{{icon|speed}} {{red|−25%}} | |{{icon|speed}} {{red|−25% Speed}} | ||
|The collapsed core of a massive star that has gone supernova. Neutron stars are incredibly dense, with a mass greater than the Sun packed into a sphere just a few kilometers in diameter. | |The collapsed core of a massive star that has gone supernova. Neutron stars are incredibly dense, with a mass greater than the Sun packed into a sphere just a few kilometers in diameter. | ||
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Latest revision as of 23:58, 19 July 2024
Stars are the largest celestial bodies in the galaxy, and form the center of a star system where planets orbit around.











