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What Does A Neutron Star Look Like. Same way Helios 3 shares DNA information we would not be the same. They beam radio waves in narrow cones which periodically sweep across Earth like lighthouse beacons. A pulsar from pulse and - ar as in quasar is a highly magnetized compact star assumed to be a rapidly rotating neutron star that emits regular pulsesbeam of. What does an isolated neutron star look like.
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They result from the supernova explosion of a massive star combined with gravitational collapse that compresses the core past white dwarf star density to that of atomic nuclei. Nearly 800 million light-years away something has been forming. I would like to consider the case where the neutron star has cooled to room temperature so it is no longer producing visible light of its own. So there is a maximum mass of a neutron star analagous to the Chandrasekhar limit for white dwarfs of. However under certain conditions they can. These objects seem to defy the laws of physics - they pack more mass than the Sun into something the size of a city producing some of the most intense conditions known to exist.
The escape velocity is around 100000 ks 13 C so if you shined a light onto its surface the reflection would be 30 red shifted.
These relatively young objects rotate extremely rapidly with some spinning faster than a kitchen blender. Now after a decade of highly successful high energy astronomy experiments over 100 star-like X-ray sources have been discovered. They result from the supernova explosion of a massive star combined with gravitational collapse that compresses the core past white dwarf star density to that of atomic nuclei. Most of them will be very hot indeed 100000 K or more though the cooling histories of neutron stars are still uncertain and depend on some exotic physics. Same way Helios 3 shares DNA information we would not be the same. To make my question more specific.
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They result from the supernova explosion of a massive star combined with gravitational collapse that compresses the core past white dwarf star density to that of atomic nuclei. These objects seem to defy the laws of physics - they pack more mass than the Sun into something the size of a city producing some of the most intense conditions known to exist. What would a neutron star look like from nearby. To make my question more specific. And I would like to assume that it is lit by normal sunlight emanating from a sunlike companion star at 1 AU.
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They beam radio waves in narrow cones which periodically sweep across Earth like lighthouse beacons. Youd have to live in orbit of a neutron star to watch it correctly. A neutron is far too small to have color but a neutron star would probably look reddish. But the light from pulsars does. Neutron stars and black holes however are a product of modern astrophysics.
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They result from the supernova explosion of a massive star combined with gravitational collapse that compresses the core past white dwarf star density to that of atomic nuclei. Same way Helios 3 shares DNA information we would not be the same. To make my question more specific. Look here Also like white dwarfs as a neutron star becomes more and more massive the neutrons become relativistic and the equation of state becomes that of a relativistic degenerate gas of neutrons. On and off on and off they seem to blink with a regular rhythm.
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Many neutron stars are likely undetectable because they simply do not emit enough radiation. A neutron star all by itself that is not interacting with any other matter would probably be invisible except possibly as a gravitational lensing event which would occur if it passed through the observers line of sight of some other visible object. The emitted lightwould be dominated by blue with decreasing intensitytowards the red end of the spectrum. An artistic illustration of what a. Neutron stars are pretty massive usually weighing several.
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But the light from pulsars does. This is how a pulsar looks like. Neutrons stars rise right through solids because the solid is the density of liquid or gas to a neutron star phase density. However most of them are very hot around 100000K or more. What color are they and how bright do they tend to be.
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However a person on the surface would see the light shining down would be blue. We get attracted to Helios if star densities change like nothing ever happened as long as there are. Most of them will be very hot indeed 100000 K or more though the cooling histories of neutron stars are still uncertain and depend on some exotic physics. These objects seem to defy the laws of physics - they pack more mass than the Sun into something the size of a city producing some of the most intense conditions known to exist. From Earth pulsars often look like flickering stars.
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To make my question more specific. Since neutron stars began their existence as stars they are found scattered throughout the galaxy in the same places where we find stars. Since neutron stars are extremely hot with even the oldest clocking in at millions of Kelvins theyll all appear a bluish-white color. And I would like to assume that it is lit by normal sunlight emanating from a sunlike companion star at 1 AU. Most neutron stars fall in neither of these categories.
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What does a neutron star look like. A pulsar from pulse and - ar as in quasar is a highly magnetized compact star assumed to be a rapidly rotating neutron star that emits regular pulsesbeam of. They beam radio waves in narrow cones which periodically sweep across Earth like lighthouse beacons. What would a neutron star look like from nearby. Neutron stars are pretty massive usually weighing several.
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Neutron stars have a radius on the order of 10 kilometres 6 mi and a mass of about 14 solar masses. And like stars they can be found by themselves or in binary systems with a companion. This is how a pulsar looks like. A neutron is far too small to have color but a neutron star would probably look reddish. And unlike black holes we can actually see them.
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What would a neutron star look like from nearby. A neutron star would shine brilliantly with its own light for a very long time indeed especially if it were being heated by matter falling onto it. These relatively young objects rotate extremely rapidly with some spinning faster than a kitchen blender. However under certain conditions they can. When electrons and protons combine during the formation of a neutron star the result is a dense ball of pure neutrons.
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From Earth pulsars often look like flickering stars. The emitted lightwould be dominated by blue with decreasing intensitytowards the red end of the spectrum. Image will be Uploaded Soon It is a degenerate neutron star a small heavy in relation to its size and very dense compact star that rotates rapidly and emits regular pulses of radiation. Many neutron stars are likely undetectable because they simply do not emit enough radiation. Most neutron stars fall in neither of these categories.
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Same way Helios 3 shares DNA information we would not be the same. What does an isolated neutron star look like. What would a neutron star look like from nearby. And like stars they can be found by themselves or in binary systems with a companion. Neutron stars are pretty massive usually weighing several.
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A standard neutron star will look like any other star at a similar temperature. And I would like to assume that it is lit by normal sunlight emanating from a sunlike companion star at 1 AU. Youd have to live in orbit of a neutron star to watch it correctly. To make my question more specific. But the light from pulsars does.
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Neutron stars were not discovered until 1968 and the first compelling evidence for a black hole was not obtained until 1971. When electrons and protons combine during the formation of a neutron star the result is a dense ball of pure neutrons. A neutron star would shine brilliantly with its own light for a very long time indeed especially if it were being heated by matter falling onto it. And I would like to assume that it is lit by normal sunlight emanating from a sunlike companion star at 1 AU. Neutron stars are pretty massive usually weighing several.
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Since neutron stars are extremely hot with even the oldest clocking in at millions of Kelvins theyll all appear a bluish-white color. These relatively young objects rotate extremely rapidly with some spinning faster than a kitchen blender. But heres where the fun begins. Now after a decade of highly successful high energy astronomy experiments over 100 star-like X-ray sources have been discovered. And like stars they can be found by themselves or in binary systems with a companion.
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These relatively young objects rotate extremely rapidly with some spinning faster than a kitchen blender. A pulsar from pulse and - ar as in quasar is a highly magnetized compact star assumed to be a rapidly rotating neutron star that emits regular pulsesbeam of. A standard neutron star will look like any other star at a similar temperature. Neutron stars were not discovered until 1968 and the first compelling evidence for a black hole was not obtained until 1971. Many neutron stars are likely undetectable because they simply do not emit enough radiation.
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However we do know that is a spherical object. And I would like to assume that it is lit by normal sunlight emanating from a sunlike companion star at 1 AU. Since neutron stars began their existence as stars they are found scattered throughout the galaxy in the same places where we find stars. These are neutron stars a black holes smaller cousin and the leftovers of an exploded massive star. A pulsar from pulse and - ar as in quasar is a highly magnetized compact star assumed to be a rapidly rotating neutron star that emits regular pulsesbeam of.
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Nearly 800 million light-years away something has been forming. Most of them will be very hot indeed - 100000 K or more though the cooling histories of neutron stars are still uncertain and depend on some exotic physics. Neutron stars are pretty massive usually weighing several. They beam radio waves in narrow cones which periodically sweep across Earth like lighthouse beacons. Since neutron stars are extremely hot with even the oldest clocking in at millions of Kelvins theyll all appear a bluish-white color.
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