SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM | |
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Hydra
User ID: 45363559 Germany 11/21/2014 09:05 AM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 Bullshit [link to www.godlikeproductions.com] And btw: You forgot the WISE survey in you list of "infrared observatories in space" . :ase26122019: Annular Solar Eclipse - December 26, 2019 - Kannur, Kerala, India |
Anonymous Coward User ID: 46411671 United States 11/21/2014 05:49 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 Bullshit [link to www.godlikeproductions.com] And btw: You forgot the WISE survey in you list of "infrared observatories in space" . They're all hiding it idiot |
Anonymous Coward User ID: 46411671 United States 11/21/2014 05:58 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 Bullshit [link to www.godlikeproductions.com] And btw: You forgot the WISE survey in you list of "infrared observatories in space" . They're all hiding it idiot |
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Hydra
User ID: 45363559 Germany 11/21/2014 06:30 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 Bullshit [link to www.godlikeproductions.com] And btw: You forgot the WISE survey in you list of "infrared observatories in space" . They're all hiding it idiot They're all hiding it? What can "they" hide, if amateur astronomers like Dr. Astro can image a brown dwarf star (Teegarden's star) 12 ly away? [link to www.godlikeproductions.com] Oh, and btw: Amateur astronomers can easily image Pluto because it reflects sun light. At what distance do you think amateur astronomers can image an object bigger than Jupiter that reflects sun light, too, when it enters our solar system. Who is the idiot now? . :ase26122019: Annular Solar Eclipse - December 26, 2019 - Kannur, Kerala, India |
Aradzell
User ID: 64320619 United States 11/21/2014 07:09 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Any large object close to the neighborhood of the sun could be located by reflected sunlight. Many if not most of the brown dwarfs would appear magenta in color, some orange, others red. A remarkable property of brown dwarfs is that they are all roughly the same radius as Jupiter. Yes they have greater masses (60–90 Jupiter masses), but their diameter would be about the size of Jupiter. Why? Lack of fusion to offset the gravitational and electric forces that hold matter together. For brown dwarfs the volume of a brown dwarf is governed primarily by electron-degeneracy pressure. Coulomb pressure is another factor which means that the radii of brown dwarfs vary by only 10–15% over the range of possible masses. This can make distinguishing them from planets difficult. While they are not under going fusion (as in what causes the sun to be so bright and hot), they are undergoing gravitational and electronic compression of matter which is leading to them producing higher amounts of various radiation across the spectrum, including infrared (heat) and x-rays and most importantly radio emissions. What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. Sent from my iPhone 12 - because I'm better than you. |
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Tampa Heather
User ID: 64674015 United States 11/21/2014 07:59 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Any large object close to the neighborhood of the sun could be located by reflected sunlight. Quoting: Aradzell Many if not most of the brown dwarfs would appear magenta in color, some orange, others red. A remarkable property of brown dwarfs is that they are all roughly the same radius as Jupiter. Yes they have greater masses (60–90 Jupiter masses), but their diameter would be about the size of Jupiter. Why? Lack of fusion to offset the gravitational and electric forces that hold matter together. For brown dwarfs the volume of a brown dwarf is governed primarily by electron-degeneracy pressure. Coulomb pressure is another factor which means that the radii of brown dwarfs vary by only 10–15% over the range of possible masses. This can make distinguishing them from planets difficult. While they are not under going fusion (as in what causes the sun to be so bright and hot), they are undergoing gravitational and electronic compression of matter which is leading to them producing higher amounts of various radiation across the spectrum, including infrared (heat) and x-rays and most importantly radio emissions. What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. Thank you... What doesn't kill me only makes me stronger... |
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Anonymous Coward User ID: 46411671 United States 11/21/2014 08:14 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Quoting: Aradzell Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. You're forgetting the 3600 orbit. It could be 1800 years away from us which is well beyond Pluto's orbit. Also the theory that brown dwarfs emit radio waves is We have a lot of official brown dwarfs near our solar system and none of them were found by radio which has been around a lot longer than 1988. |
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Hydra
User ID: 45363559 Germany 11/21/2014 08:34 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM ... Quoting: Hydra Bullshit [link to www.godlikeproductions.com] And btw: You forgot the WISE survey in you list of "infrared observatories in space" . They're all hiding it idiot They're all hiding it? What can "they" hide, if amateur astronomers like Dr. Astro can image a brown dwarf star (Teegarden's star) 12 ly away? [link to www.godlikeproductions.com] Oh, and btw: Amateur astronomers can easily image Pluto because it reflects sun light. At what distance do you think amateur astronomers can image an object bigger than Jupiter that reflects sun light, too, when it enters our solar system. Who is the idiot now? . Dr Astro is a shill you stupid fuck. Anything useful to contribute, other than ad hominem and insults? . :ase26122019: Annular Solar Eclipse - December 26, 2019 - Kannur, Kerala, India |
Hydra
User ID: 45363559 Germany 11/21/2014 09:32 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Quoting: Aradzell Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. You're forgetting the 3600 orbit. It could be 1800 years away from us which is well beyond Pluto's orbit. Let's do some math about the 3,600 year orbit. There is a simple formula that gives us the semi major axis when we know the orbital periode: p^2 = a^3 with p = orbital periode in years and a = semi major axis in AU a = (p^2)^1/3 = (3600^2)^1/3 = 12,960,000^1/3 = 234.9 Thus the semi major axis of Nibiru is 234.9 AU. Since we know that it comes close to Earth at it's perihelion, we know the aphelion distance: 2 * 234.9 - 1 = 468,8 AU. Sedna, a dwarf planet the size of about 1,000 km, was discovered when it was at a distance of 100 AU. Now imagine a brown dwarf star 280 times the size of Sedna (280,000 km) at, in the worst case (furthest distance from the sun), only 4.5 times the distance away. Easy to spot only by reflected sun light - even for amateur astronomers. How many light years are 468,8 AU? - 0.0000158 light years. OK, the brown dwarf in the picture below, imaged by Dr. Astro in the infrared spectrum, is 12 light years away. :teegarden1: . :ase26122019: Annular Solar Eclipse - December 26, 2019 - Kannur, Kerala, India |
Anonymous Coward User ID: 23244749 United States 11/21/2014 09:54 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Quoting: Aradzell Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. You're forgetting the 3600 orbit. It could be 1800 years away from us which is well beyond Pluto's orbit. Let's do some math about the 3,600 year orbit. There is a simple formula that gives us the semi major axis when we know the orbital periode: p^2 = a^3 with p = orbital periode in years and a = semi major axis in AU a = (p^2)^1/3 = (3600^2)^1/3 = 12,960,000^1/3 = 234.9 Thus the semi major axis of Nibiru is 234.9 AU. Since we know that it comes close to Earth at it's perihelion, we know the aphelion distance: 2 * 234.9 - 1 = 468,8 AU. Sedna, a dwarf planet the size of about 1,000 km, was discovered when it was at a distance of 100 AU. Now imagine a brown dwarf star 280 times the size of Sedna (280,000 km) at, in the worst case (furthest distance from the sun), only 4.5 times the distance away. Easy to spot only by reflected sun light - even for amateur astronomers. How many light years are 468,8 AU? - 0.0000158 light years. OK, the brown dwarf in the picture below, imaged by Dr. Astro in the infrared spectrum, is 12 light years away. :teegarden1: . Well what if the local brown dwarf was a black body? Yanno, eatting light? |
Anonymous Coward User ID: 46411671 United States 11/21/2014 09:58 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Quoting: Aradzell Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. You're forgetting the 3600 orbit. It could be 1800 years away from us which is well beyond Pluto's orbit. Let's do some math about the 3,600 year orbit. There is a simple formula that gives us the semi major axis when we know the orbital periode: p^2 = a^3 with p = orbital periode in years and a = semi major axis in AU a = (p^2)^1/3 = (3600^2)^1/3 = 12,960,000^1/3 = 234.9 Thus the semi major axis of Nibiru is 234.9 AU. Since we know that it comes close to Earth at it's perihelion, we know the aphelion distance: 2 * 234.9 - 1 = 468,8 AU. Sedna, a dwarf planet the size of about 1,000 km, was discovered when it was at a distance of 100 AU. Now imagine a brown dwarf star 280 times the size of Sedna (280,000 km) at, in the worst case (furthest distance from the sun), only 4.5 times the distance away. Easy to spot only by reflected sun light - even for amateur astronomers. How many light years are 468,8 AU? - 0.0000158 light years. OK, the brown dwarf in the picture below, imaged by Dr. Astro in the infrared spectrum, is 12 light years away. :teegarden1: . You referenced Dr Astro so |
Anonymous Coward User ID: 27167642 United States 11/21/2014 10:11 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Quoting: Aradzell Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. You're forgetting the 3600 orbit. It could be 1800 years away from us which is well beyond Pluto's orbit. Let's do some math about the 3,600 year orbit. There is a simple formula that gives us the semi major axis when we know the orbital periode: p^2 = a^3 with p = orbital periode in years and a = semi major axis in AU a = (p^2)^1/3 = (3600^2)^1/3 = 12,960,000^1/3 = 234.9 Thus the semi major axis of Nibiru is 234.9 AU. Since we know that it comes close to Earth at it's perihelion, we know the aphelion distance: 2 * 234.9 - 1 = 468,8 AU. Sedna, a dwarf planet the size of about 1,000 km, was discovered when it was at a distance of 100 AU. Now imagine a brown dwarf star 280 times the size of Sedna (280,000 km) at, in the worst case (furthest distance from the sun), only 4.5 times the distance away. Easy to spot only by reflected sun light - even for amateur astronomers. How many light years are 468,8 AU? - 0.0000158 light years. OK, the brown dwarf in the picture below, imaged by Dr. Astro in the infrared spectrum, is 12 light years away. :teegarden1: . You referenced Dr Astro so But you still fail at life, so..... Dumbfuck |
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Anonymous Coward User ID: 65336784 Australia 11/21/2014 10:44 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 not true! we would be able to detect the gravity changes, by things happening like the sun is in the wrong place, or the moon is in the wrong place. well have you EVER seen a thread where somebody said the sun or moon is in the wrong place? no? then nubiri can't be real sorry |
Anonymous Coward User ID: 42052674 United States 11/21/2014 10:52 PM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 not true! we would be able to detect the gravity changes, by things happening like the sun is in the wrong place, or the moon is in the wrong place. well have you EVER seen a thread where somebody said the sun or moon is in the wrong place? no? then nubiri can't be real sorry Assuming Nibiru is now further than Pluto, then from the earth's surface the only way to prove Nibiru's existence with a telescope would be a stellar occultation. Quoting: Anonymous Coward 46308100 not true! we would be able to detect the gravity changes, by things happening like the sun is in the wrong place, or the moon is in the wrong place. well have you EVER seen a thread where somebody said the sun or moon is in the wrong place? no? then nubiri can't be real sorry if it's up to 1800 years away, how would it effect anything? also we've only had the tech to measure those things for only like what, 50 years maybe? |
Anonymous Coward User ID: 65376737 United States 11/22/2014 12:06 AM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM They're all hiding it? What can "they" hide, if amateur astronomers like Dr. Astro can image a brown dwarf star (Teegarden's star) 12 ly away? [link to www.godlikeproductions.com] Oh, and btw: Amateur astronomers can easily image Pluto because it reflects sun light. At what distance do you think amateur astronomers can image an object bigger than Jupiter that reflects sun light, too, when it enters our solar system. Who is the idiot now? . Dr Astro is a shill you stupid fuck. Anything useful to contribute, other than ad hominem and insults? . using the words ass homomen = SHILL |
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Hydra
User ID: 65381669 Germany 11/22/2014 07:57 AM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM What this means to any 'lurking' brown star in our system, it would leave a decided gravitational wake, which would perturb the orbits of planets around the whole system in a manner that would pretty much pinpoint the location of a massive body. Quoting: Aradzell Secondly, they are not black bodies, they do radiate and reflect electromagnet energies across a wide spectrum including light. Yes it is possible to have missed a large body with optics even today in the outer solar system, however the mapping of the whole of space with radio telescopes has been done and continually gets updated all the time. A near brown dwarf would have signaled its presence via radio waves. And yes there are amateur radio astronomers out there. Yes over long distances their radio power is too low to pick up more than the faintest of signals. However anything within the solar system is close enough to be detected. We can still pickup the signals of Voyager craft and their transmissions are infinitesimally small compared to what a modest small brown dwarf can produce. You're forgetting the 3600 orbit. It could be 1800 years away from us which is well beyond Pluto's orbit. Let's do some math about the 3,600 year orbit. There is a simple formula that gives us the semi major axis when we know the orbital periode: p^2 = a^3 with p = orbital periode in years and a = semi major axis in AU a = (p^2)^1/3 = (3600^2)^1/3 = 12,960,000^1/3 = 234.9 Thus the semi major axis of Nibiru is 234.9 AU. Since we know that it comes close to Earth at it's perihelion, we know the aphelion distance: 2 * 234.9 - 1 = 468,8 AU. Sedna, a dwarf planet the size of about 1,000 km, was discovered when it was at a distance of 100 AU. Now imagine a brown dwarf star 280 times the size of Sedna (280,000 km) at, in the worst case (furthest distance from the sun), only 4.5 times the distance away. Easy to spot only by reflected sun light - even for amateur astronomers. How many light years are 468,8 AU? - 0.0000158 light years. OK, the brown dwarf in the picture below, imaged by Dr. Astro in the infrared spectrum, is 12 light years away. :teegarden1: . You referenced Dr Astro so You want references of other amateur astronomers? Voila: [link to www.astrofoto.de] [link to www.richweb.f9.co.uk] Shills, too? . :ase26122019: Annular Solar Eclipse - December 26, 2019 - Kannur, Kerala, India |
Hydra
User ID: 65381669 Germany 11/22/2014 07:57 AM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM Well what if the local brown dwarf was a black body? Yanno, eatting light? Quoting: Anonymous Coward 23244749 Do you even know what a Black body is? [link to en.wikipedia.org] Black body at what temperature? 200 K or 500 K? 1000 K? 2000 K? You are the usual GLP illiterate who picks up some terms from other posts that sound good and parrots it, without even knowing the meaning of the terms and without looking up the meaning or of it applies to the current situation. We are talking about a Brown dwarf star. Even if you idealize a Brown dwarf star as a Black body, you would get a Black body in the temperature range of 1000 K to 2000 K, emitting a lot of IR radiation and in the red sectrum. And of course a Brown dwarf star reflects light - per definition it's a failed star, composed mainly from Hydrogen. still no word from the shills about my black body statement/question Quoting: Anonymous Coward 43094504 Notice that im not 24/7 on GLP - and notice that I'm in a different time zone? . :ase26122019: Annular Solar Eclipse - December 26, 2019 - Kannur, Kerala, India |
Anonymous Coward User ID: 46435211 United States 11/22/2014 09:15 AM Report Abusive Post Report Copyright Violation | Re: SCIENCE GUY EXPLAINS HOW IT'S POSSIBLE AN UNDISCOVERED BROWN DWARF STAR CAN EXIST In OUR SOLAR SYSTEM ... Quoting: Hydra They're all hiding it? What can "they" hide, if amateur astronomers like Dr. Astro can image a brown dwarf star (Teegarden's star) 12 ly away? [link to www.godlikeproductions.com] Oh, and btw: Amateur astronomers can easily image Pluto because it reflects sun light. At what distance do you think amateur astronomers can image an object bigger than Jupiter that reflects sun light, too, when it enters our solar system. Who is the idiot now? . Dr Astro is a shill you stupid fuck. Anything useful to contribute, other than ad hominem and insults? . using the words ass homomen = SHILL |