- published: 29 Oct 2020
- views: 3
back to playlist
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. Around 36 times as massive as the Sun, it is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of around 850,000 times that of the Sun and a radius 103 times that of the Sun.The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6 solar masses per year, or roughly the equivalent to the Sun\s
#Astrofotografia #Telescopio #Temuco
Datos de dos grupos de estrellas en escorpión
Telescopio Celestron Newton 8" F/5
Cámara Canon Rebel T6
- published: 25 Sep 2018
- views: 99
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members of this star cluster. This cluster is estimated about 3.2 million years old, and is approaching the Solar System at 22 km/s. Very young stars including it, belong to the Scorpius OB association. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.[1]) is hottest star in it. It was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae[2] in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
(courtesy of Wikipedia)
- published: 22 May 2009
- views: 755
Telescope: 10 inch dobsonian
Camera: Canon EOS Rebel t6
exposure: 0.6s
ISO:3200
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera: Canon EOS Rebel t6
exposição: 0.6s
ISO:3200
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
- published: 11 Aug 2019
- views: 166
Tools:
Telescope: 80mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 15 s
ISO: 1600
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Astrophotography:
37 light frames of 10 seconds (9 minutes and 15 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
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About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: 80 mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 15 s
ISO:1600
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Astrofotografia:
37 light frames de 15 segundos (9 minutos and 15 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
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O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Air to the Throne - Doug Maxwell
- published: 14 Aug 2021
- views: 188
Tools:
Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrophotography:
20 light frames of 10 seconds (3 minutes and 20 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrofotografia:
20 light frames de 10 segundos (3 minutos and 20 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Ether Oar - The Whole Other
- published: 19 Jul 2020
- views: 313
Tools:
Telescope: 10 inch dobsonian (Skywatcher)
CAMERA AS1120 MC
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
NGC 6231 also includes three Wolf-Rayet stars: HD 151932, HD 152270, and HD 152408.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera ASI120MC
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O NGC 6231 também inclui três estrelas Wolf-Rayet: HD 151932, HD 152270 e HD 152408.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
- published: 15 Aug 2018
- views: 383
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Luminous_blue_variable
00:00:32 1 Discovery and history
00:04:03 2 Physical properties
00:08:06 3 Evolution
00:11:30 4 Supernova-like outbursts
00:14:02 5 List of LBVs
00:21:03 6 See also
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9498154047030867
Voice name: en-US-Wavenet-C
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
Luminous blue variables (LBVs) are massive evolved stars that show unpredictable and sometimes dramatic variations in both their spectra and brightness. They are also known as S Doradus variables after S Doradus, one of the brightest stars of the Large Magellanic Cloud. They are extraordinarily rare with just 20 objects listed in the General Catalogue of Variable Stars as SDor, and a number of these are no longer considered to be LBVs.
- published: 04 Oct 2019
- views: 43
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Binary_star
00:02:55 1 Discovery
00:06:36 2 Classifications
00:06:45 2.1 Methods of observation
00:07:26 2.1.1 Visual binaries
00:09:22 2.1.2 Spectroscopic binaries
00:12:42 2.1.3 Eclipsing binaries
00:15:26 2.1.4 Non-eclipsing binaries that can be detected through photometry
00:16:11 2.1.5 Astrometric binaries
00:18:25 2.2 Configuration of the system
00:19:48 2.3 Cataclysmic variables and X-ray binaries
00:21:25 3 Orbital period
00:21:48 3.1 Variations in period
00:22:58 4 Designations
00:23:08 4.1 A and B
00:24:00 4.2 Discoverer designations
00:24:30 4.3 Hot and cold
00:26:33 5 Evolution
00:26:42 5.1 Formation
00:27:49 5.2 Mass transfer and accretion
00:29:48 5.3 Runaways and novae
00:31:31 6 Astrophysics
00:32:41 6.1 Calculating the center of mass in binary stars
00:34:06 6.2 Center of mass animations
00:34:21 6.3 Research findings
00:34:31 6.3.1 Planets
00:34:42 7 Examples
00:37:22 8 Multiple star examples
00:40:08 9 See also
00:43:07 10 Notes and references
00:44:55 11 External links
00:45:04 Notes and references
00:45:14 External links
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9306662182569719
Voice name: en-US-Wavenet-E
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
A binary star is a star system consisting of two stars orbiting around their common barycenter. Systems of two or more stars are called multiple star systems. These systems, especially when more distant, often appear to the unaided eye as a single point of light, and are then revealed as multiple by other means. Research over the last two centuries suggests that half or more of visible stars are part of multiple star systems.The term double star is often used synonymously with binary star; however, double star can also mean optical double star. Optical doubles are so called because the two stars appear close together in the sky as seen from the Earth; they are almost on the same line of sight. Nevertheless, their "doubleness" depends only on this optical effect; the stars themselves are distant from one another and share no physical connection. A double star can be revealed as optical by means of differences in their parallax measurements, proper motions, or radial velocities. Most known double stars have not been studied adequately to determine whether they are optical doubles or doubles physically bound through gravitation into a multiple star system.
Binary star systems are very important in astrophysics because calculations of their orbits allow the masses of their component stars to be directly determined, which in turn allows other stellar parameters, such as radius and density, to be indirectly estimated. This also determines an empirical mass-luminosity relationship (MLR) from which the masses of single stars can be estimated.
Binary stars are often detected optically, in which case they are called visual binaries. Many visual binaries have long orbital periods of several centuries or millennia and therefore have orbits which are uncertain or poorly known. They may also be detected by indirect techniques, such as spectroscopy (spectroscopic binaries) or astrometry (astrometric binaries). If a binary star happens to orbit in a plane along our line of sight, its components will eclipse and transit each other; these pairs are called eclipsing binaries, or, as they are detected by their changes in brightness during eclipses and transits, photometric binaries.
If components in binary star systems are close enough they can gravitationally distort their mutual outer stellar atmospheres. In some cases, these close binary systems can exchange mass, which may bring their evolution to stages that single stars cannot attain. Examples of binaries are Sirius, and Cygnus X-1 (Cygnus X-1 being a well-known black hole). Binary stars are also common as the nuclei of many planetary nebulae, and are the progenitors of both novae and type Ia supernovae.
- published: 20 Mar 2019
- views: 12
developed with YouTube
Zeta1 Scorpii
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. It is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of nearly a million times the Sun's.
The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6solar masses per year, or roughly the equivalent to the Sun's mass every 640,000 years.
ζ1 Scorpii forms a naked eye double with ζ2 Scorpii, but the stars are merely coincidentally near in the line of sight from Earth. ζ2 is a mere 155 light years distant and much less luminous in real terms. ζ1 Scorpii can also be distinguished from ζ2, due to the latter's orange hue especially in long-exposure photographs.
References
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Zeta1_Scorpii
Podcasts:
-
Zeta1 Scorpii
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. Around 36 times as massive as the Sun, it is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of around 850,000 times that of the Sun and a radius 103 times that of the Sun.The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6 solar masses per year, or roughly the equivalent to the Sun\s
published: 29 Oct 2020 -
Astrofotografia "Zeta Scorpii y Mu Scorpii" Temuco Telescopio Newton 8"
#Astrofotografia #Telescopio #Temuco Datos de dos grupos de estrellas en escorpión Telescopio Celestron Newton 8" F/5 Cámara Canon Rebel T6
published: 25 Sep 2018 -
NGC6231
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members of this star cluster. This cluster is estimated about 3.2 million years old, and is approaching the Solar System at 22 km/s. Very young stars including it, belong to the Scorpius OB association. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.[1]) is hottest star in it. It was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae[2] in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna. (courtesy of Wikipedia)
published: 22 May 2009 -
The open cluster NGC 6231 through a 10 inch telescope (254 mm)
Telescope: 10 inch dobsonian Camera: Canon EOS Rebel t6 exposure: 0.6s ISO:3200 NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy. The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomer...
published: 11 Aug 2019 -
NGC 6231 through a 80 mm telescope + astrophotography
Tools: Telescope: 80mm Orion ShortTube Base: NexStar 8 SE GoTo Camera: Canon EOS Rebel t6 exposure: 15 s ISO: 1600 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; Astrophotography: 37 light frames of 10 seconds (9 minutes and 15 seconds exposure) 20 dark frames 20 bias DeepSkyStacker ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; About the target: NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and mag...
published: 14 Aug 2021 -
NGC 6231 through telescope + astrophotography
Tools: Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo Camera: Canon EOS Rebel t6 exposure: 10 s ISO:3200 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; Astrophotography: 20 light frames of 10 seconds (3 minutes and 20 seconds exposure) 20 dark frames 20 bias DeepSkyStacker ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; About the target: NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral typ...
published: 19 Jul 2020 -
The Open Cluster NGC 6231 (10 inch telescope)
Tools: Telescope: 10 inch dobsonian (Skywatcher) CAMERA AS1120 MC NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy. NGC 6231 also includes three Wolf-Rayet stars: HD 151932, HD 152270, and HD 152408. The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published...
published: 15 Aug 2018 -
Luminous blue variable | Wikipedia audio article
This is an audio version of the Wikipedia Article: https://en.wikipedia.org/wiki/Luminous_blue_variable 00:00:32 1 Discovery and history 00:04:03 2 Physical properties 00:08:06 3 Evolution 00:11:30 4 Supernova-like outbursts 00:14:02 5 List of LBVs 00:21:03 6 See also Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the ...
published: 04 Oct 2019 -
Binary star | Wikipedia audio article
This is an audio version of the Wikipedia Article: https://en.wikipedia.org/wiki/Binary_star 00:02:55 1 Discovery 00:06:36 2 Classifications 00:06:45 2.1 Methods of observation 00:07:26 2.1.1 Visual binaries 00:09:22 2.1.2 Spectroscopic binaries 00:12:42 2.1.3 Eclipsing binaries 00:15:26 2.1.4 Non-eclipsing binaries that can be detected through photometry 00:16:11 2.1.5 Astrometric binaries 00:18:25 2.2 Configuration of the system 00:19:48 2.3 Cataclysmic variables and X-ray binaries 00:21:25 3 Orbital period 00:21:48 3.1 Variations in period 00:22:58 4 Designations 00:23:08 4.1 A and B 00:24:00 4.2 Discoverer designations 00:24:30 4.3 Hot and cold 00:26:33 5 Evolution 00:26:42 5.1 Formation 00:27:49 5.2 Mass transfer and accretion 00:29:48 5.3 Runaways and novae 00:31:31 6 Astrophys...
published: 20 Mar 2019
developed with YouTube
1:32
Zeta1 Scorpii
- Order: Reorder
- Duration: 1:32
- Uploaded Date: 29 Oct 2020
- views: 3
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies be...
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. Around 36 times as massive as the Sun, it is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of around 850,000 times that of the Sun and a radius 103 times that of the Sun.The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6 solar masses per year, or roughly the equivalent to the Sun\s
https://wn.com/Zeta1_Scorpii
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. Around 36 times as massive as the Sun, it is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of around 850,000 times that of the Sun and a radius 103 times that of the Sun.The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6 solar masses per year, or roughly the equivalent to the Sun\s
- published: 29 Oct 2020
- views: 3
2:35
Astrofotografia "Zeta Scorpii y Mu Scorpii" Temuco Telescopio Newton 8"
- Order: Reorder
- Duration: 2:35
- Uploaded Date: 25 Sep 2018
- views: 99
#Astrofotografia #Telescopio #Temuco
Datos de dos grupos de estrellas en escorpión
Telescopio Celestron Newton 8" F/5
Cámara Canon Rebel T6
#Astrofotografia #Telescopio #Temuco
Datos de dos grupos de estrellas en escorpión
Telescopio Celestron Newton 8" F/5
Cámara Canon Rebel T6
https://wn.com/Astrofotografia_Zeta_Scorpii_Y_Mu_Scorpii_Temuco_Telescopio_Newton_8
#Astrofotografia #Telescopio #Temuco
Datos de dos grupos de estrellas en escorpión
Telescopio Celestron Newton 8" F/5
Cámara Canon Rebel T6
- published: 25 Sep 2018
- views: 99
0:10
NGC6231
- Order: Reorder
- Duration: 0:10
- Uploaded Date: 22 May 2009
- views: 755
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members of this star cluster. This cluster is estimated about 3.2 million yea...
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members of this star cluster. This cluster is estimated about 3.2 million years old, and is approaching the Solar System at 22 km/s. Very young stars including it, belong to the Scorpius OB association. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.[1]) is hottest star in it. It was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae[2] in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
(courtesy of Wikipedia)
https://wn.com/Ngc6231
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members of this star cluster. This cluster is estimated about 3.2 million years old, and is approaching the Solar System at 22 km/s. Very young stars including it, belong to the Scorpius OB association. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.[1]) is hottest star in it. It was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae[2] in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
(courtesy of Wikipedia)
- published: 22 May 2009
- views: 755
0:51
The open cluster NGC 6231 through a 10 inch telescope (254 mm)
- Order: Reorder
- Duration: 0:51
- Uploaded Date: 11 Aug 2019
- views: 166
Telescope: 10 inch dobsonian
Camera: Canon EOS Rebel t6
exposure: 0.6s
ISO:3200
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimat...
Telescope: 10 inch dobsonian
Camera: Canon EOS Rebel t6
exposure: 0.6s
ISO:3200
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera: Canon EOS Rebel t6
exposição: 0.6s
ISO:3200
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
https://wn.com/The_Open_Cluster_Ngc_6231_Through_A_10_Inch_Telescope_(254_Mm)
Telescope: 10 inch dobsonian
Camera: Canon EOS Rebel t6
exposure: 0.6s
ISO:3200
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera: Canon EOS Rebel t6
exposição: 0.6s
ISO:3200
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
- published: 11 Aug 2019
- views: 166
1:23
NGC 6231 through a 80 mm telescope + astrophotography
- Order: Reorder
- Duration: 1:23
- Uploaded Date: 14 Aug 2021
- views: 188
Tools:
Telescope: 80mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 15 s
ISO: 1600
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;...
Tools:
Telescope: 80mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 15 s
ISO: 1600
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrophotography:
37 light frames of 10 seconds (9 minutes and 15 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
PT-BR
Ferramentas:
Telescópio: 80 mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 15 s
ISO:1600
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrofotografia:
37 light frames de 15 segundos (9 minutos and 15 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Air to the Throne - Doug Maxwell
https://wn.com/Ngc_6231_Through_A_80_Mm_Telescope_Astrophotography
Tools:
Telescope: 80mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 15 s
ISO: 1600
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrophotography:
37 light frames of 10 seconds (9 minutes and 15 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
PT-BR
Ferramentas:
Telescópio: 80 mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 15 s
ISO:1600
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrofotografia:
37 light frames de 15 segundos (9 minutos and 15 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Air to the Throne - Doug Maxwell
- published: 14 Aug 2021
- views: 188
1:12
NGC 6231 through telescope + astrophotography
- Order: Reorder
- Duration: 1:12
- Uploaded Date: 19 Jul 2020
- views: 313
Tools:
Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;...
Tools:
Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrophotography:
20 light frames of 10 seconds (3 minutes and 20 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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PT-BR
Ferramentas:
Telescópio: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrofotografia:
20 light frames de 10 segundos (3 minutos and 20 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Ether Oar - The Whole Other
https://wn.com/Ngc_6231_Through_Telescope_Astrophotography
Tools:
Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrophotography:
20 light frames of 10 seconds (3 minutes and 20 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 10 s
ISO:3200
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Astrofotografia:
20 light frames de 10 segundos (3 minutos and 20 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
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O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Ether Oar - The Whole Other
- published: 19 Jul 2020
- views: 313
1:20
The Open Cluster NGC 6231 (10 inch telescope)
- Order: Reorder
- Duration: 1:20
- Uploaded Date: 15 Aug 2018
- views: 383
Tools:
Telescope: 10 inch dobsonian (Skywatcher)
CAMERA AS1120 MC
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 mi...
Tools:
Telescope: 10 inch dobsonian (Skywatcher)
CAMERA AS1120 MC
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
NGC 6231 also includes three Wolf-Rayet stars: HD 151932, HD 152270, and HD 152408.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera ASI120MC
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O NGC 6231 também inclui três estrelas Wolf-Rayet: HD 151932, HD 152270 e HD 152408.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
https://wn.com/The_Open_Cluster_Ngc_6231_(10_Inch_Telescope)
Tools:
Telescope: 10 inch dobsonian (Skywatcher)
CAMERA AS1120 MC
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
NGC 6231 also includes three Wolf-Rayet stars: HD 151932, HD 152270, and HD 152408.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera ASI120MC
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O NGC 6231 também inclui três estrelas Wolf-Rayet: HD 151932, HD 152270 e HD 152408.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
- published: 15 Aug 2018
- views: 383
21:18
Luminous blue variable | Wikipedia audio article
- Order: Reorder
- Duration: 21:18
- Uploaded Date: 04 Oct 2019
- views: 43
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Luminous_blue_variable
00:00:32 1 Discovery and history
00:04:03 2 Physic...
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Luminous_blue_variable
00:00:32 1 Discovery and history
00:04:03 2 Physical properties
00:08:06 3 Evolution
00:11:30 4 Supernova-like outbursts
00:14:02 5 List of LBVs
00:21:03 6 See also
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9498154047030867
Voice name: en-US-Wavenet-C
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
Luminous blue variables (LBVs) are massive evolved stars that show unpredictable and sometimes dramatic variations in both their spectra and brightness. They are also known as S Doradus variables after S Doradus, one of the brightest stars of the Large Magellanic Cloud. They are extraordinarily rare with just 20 objects listed in the General Catalogue of Variable Stars as SDor, and a number of these are no longer considered to be LBVs.
https://wn.com/Luminous_Blue_Variable_|_Wikipedia_Audio_Article
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Luminous_blue_variable
00:00:32 1 Discovery and history
00:04:03 2 Physical properties
00:08:06 3 Evolution
00:11:30 4 Supernova-like outbursts
00:14:02 5 List of LBVs
00:21:03 6 See also
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9498154047030867
Voice name: en-US-Wavenet-C
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
Luminous blue variables (LBVs) are massive evolved stars that show unpredictable and sometimes dramatic variations in both their spectra and brightness. They are also known as S Doradus variables after S Doradus, one of the brightest stars of the Large Magellanic Cloud. They are extraordinarily rare with just 20 objects listed in the General Catalogue of Variable Stars as SDor, and a number of these are no longer considered to be LBVs.
- published: 04 Oct 2019
- views: 43
45:59
Binary star | Wikipedia audio article
- Order: Reorder
- Duration: 45:59
- Uploaded Date: 20 Mar 2019
- views: 12
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Binary_star
00:02:55 1 Discovery
00:06:36 2 Classifications
00:06:45 2.1 ...
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Binary_star
00:02:55 1 Discovery
00:06:36 2 Classifications
00:06:45 2.1 Methods of observation
00:07:26 2.1.1 Visual binaries
00:09:22 2.1.2 Spectroscopic binaries
00:12:42 2.1.3 Eclipsing binaries
00:15:26 2.1.4 Non-eclipsing binaries that can be detected through photometry
00:16:11 2.1.5 Astrometric binaries
00:18:25 2.2 Configuration of the system
00:19:48 2.3 Cataclysmic variables and X-ray binaries
00:21:25 3 Orbital period
00:21:48 3.1 Variations in period
00:22:58 4 Designations
00:23:08 4.1 A and B
00:24:00 4.2 Discoverer designations
00:24:30 4.3 Hot and cold
00:26:33 5 Evolution
00:26:42 5.1 Formation
00:27:49 5.2 Mass transfer and accretion
00:29:48 5.3 Runaways and novae
00:31:31 6 Astrophysics
00:32:41 6.1 Calculating the center of mass in binary stars
00:34:06 6.2 Center of mass animations
00:34:21 6.3 Research findings
00:34:31 6.3.1 Planets
00:34:42 7 Examples
00:37:22 8 Multiple star examples
00:40:08 9 See also
00:43:07 10 Notes and references
00:44:55 11 External links
00:45:04 Notes and references
00:45:14 External links
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9306662182569719
Voice name: en-US-Wavenet-E
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
A binary star is a star system consisting of two stars orbiting around their common barycenter. Systems of two or more stars are called multiple star systems. These systems, especially when more distant, often appear to the unaided eye as a single point of light, and are then revealed as multiple by other means. Research over the last two centuries suggests that half or more of visible stars are part of multiple star systems.The term double star is often used synonymously with binary star; however, double star can also mean optical double star. Optical doubles are so called because the two stars appear close together in the sky as seen from the Earth; they are almost on the same line of sight. Nevertheless, their "doubleness" depends only on this optical effect; the stars themselves are distant from one another and share no physical connection. A double star can be revealed as optical by means of differences in their parallax measurements, proper motions, or radial velocities. Most known double stars have not been studied adequately to determine whether they are optical doubles or doubles physically bound through gravitation into a multiple star system.
Binary star systems are very important in astrophysics because calculations of their orbits allow the masses of their component stars to be directly determined, which in turn allows other stellar parameters, such as radius and density, to be indirectly estimated. This also determines an empirical mass-luminosity relationship (MLR) from which the masses of single stars can be estimated.
Binary stars are often detected optically, in which case they are called visual binaries. Many visual binaries have long orbital periods of several centuries or millennia and therefore have orbits which are uncertain or poorly known. They may also be detected by indirect techniques, such as spectroscopy (spectroscopic binaries) or astrometry (astrometric binaries). If a binary star happens to orbit in a plane along our line of sight, its components will eclipse and transit each other; these pairs are called eclipsing binaries, or, as they are detected by their changes in brightness during eclipses and transits, photometric binaries.
If components in binary star systems are close enough they can gravitationally distort their mutual outer stellar atmospheres. In some cases, these close binary systems can exchange mass, which may bring their evolution to stages that single stars cannot attain. Examples of binaries are Sirius, and Cygnus X-1 (Cygnus X-1 being a well-known black hole). Binary stars are also common as the nuclei of many planetary nebulae, and are the progenitors of both novae and type Ia supernovae.
https://wn.com/Binary_Star_|_Wikipedia_Audio_Article
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Binary_star
00:02:55 1 Discovery
00:06:36 2 Classifications
00:06:45 2.1 Methods of observation
00:07:26 2.1.1 Visual binaries
00:09:22 2.1.2 Spectroscopic binaries
00:12:42 2.1.3 Eclipsing binaries
00:15:26 2.1.4 Non-eclipsing binaries that can be detected through photometry
00:16:11 2.1.5 Astrometric binaries
00:18:25 2.2 Configuration of the system
00:19:48 2.3 Cataclysmic variables and X-ray binaries
00:21:25 3 Orbital period
00:21:48 3.1 Variations in period
00:22:58 4 Designations
00:23:08 4.1 A and B
00:24:00 4.2 Discoverer designations
00:24:30 4.3 Hot and cold
00:26:33 5 Evolution
00:26:42 5.1 Formation
00:27:49 5.2 Mass transfer and accretion
00:29:48 5.3 Runaways and novae
00:31:31 6 Astrophysics
00:32:41 6.1 Calculating the center of mass in binary stars
00:34:06 6.2 Center of mass animations
00:34:21 6.3 Research findings
00:34:31 6.3.1 Planets
00:34:42 7 Examples
00:37:22 8 Multiple star examples
00:40:08 9 See also
00:43:07 10 Notes and references
00:44:55 11 External links
00:45:04 Notes and references
00:45:14 External links
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9306662182569719
Voice name: en-US-Wavenet-E
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
A binary star is a star system consisting of two stars orbiting around their common barycenter. Systems of two or more stars are called multiple star systems. These systems, especially when more distant, often appear to the unaided eye as a single point of light, and are then revealed as multiple by other means. Research over the last two centuries suggests that half or more of visible stars are part of multiple star systems.The term double star is often used synonymously with binary star; however, double star can also mean optical double star. Optical doubles are so called because the two stars appear close together in the sky as seen from the Earth; they are almost on the same line of sight. Nevertheless, their "doubleness" depends only on this optical effect; the stars themselves are distant from one another and share no physical connection. A double star can be revealed as optical by means of differences in their parallax measurements, proper motions, or radial velocities. Most known double stars have not been studied adequately to determine whether they are optical doubles or doubles physically bound through gravitation into a multiple star system.
Binary star systems are very important in astrophysics because calculations of their orbits allow the masses of their component stars to be directly determined, which in turn allows other stellar parameters, such as radius and density, to be indirectly estimated. This also determines an empirical mass-luminosity relationship (MLR) from which the masses of single stars can be estimated.
Binary stars are often detected optically, in which case they are called visual binaries. Many visual binaries have long orbital periods of several centuries or millennia and therefore have orbits which are uncertain or poorly known. They may also be detected by indirect techniques, such as spectroscopy (spectroscopic binaries) or astrometry (astrometric binaries). If a binary star happens to orbit in a plane along our line of sight, its components will eclipse and transit each other; these pairs are called eclipsing binaries, or, as they are detected by their changes in brightness during eclipses and transits, photometric binaries.
If components in binary star systems are close enough they can gravitationally distort their mutual outer stellar atmospheres. In some cases, these close binary systems can exchange mass, which may bring their evolution to stages that single stars cannot attain. Examples of binaries are Sirius, and Cygnus X-1 (Cygnus X-1 being a well-known black hole). Binary stars are also common as the nuclei of many planetary nebulae, and are the progenitors of both novae and type Ia supernovae.
- published: 20 Mar 2019
- views: 12
1:32
Zeta1 Scorpii
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constella...
published: 29 Oct 2020
Zeta1 Scorpii
Zeta1 Scorpii
- Report rights infringement
- published: 29 Oct 2020
- views: 3
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. Around 36 times as massive as the Sun, it is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of around 850,000 times that of the Sun and a radius 103 times that of the Sun.The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6 solar masses per year, or roughly the equivalent to the Sun\s
2:35
Astrofotografia "Zeta Scorpii y Mu Scorpii" Temuco Telescopio Newton 8"
#Astrofotografia #Telescopio #Temuco
Datos de dos grupos de estrellas en escorpión
Teles...
published: 25 Sep 2018
Astrofotografia "Zeta Scorpii y Mu Scorpii" Temuco Telescopio Newton 8"
Astrofotografia "Zeta Scorpii y Mu Scorpii" Temuco Telescopio Newton 8"
- Report rights infringement
- published: 25 Sep 2018
- views: 99
#Astrofotografia #Telescopio #Temuco
Datos de dos grupos de estrellas en escorpión
Telescopio Celestron Newton 8" F/5
Cámara Canon Rebel T6
0:10
NGC6231
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members...
published: 22 May 2009
NGC6231
NGC6231
- Report rights infringement
- published: 22 May 2009
- views: 755
NGC 6231 is an open cluster located near Zeta Scorpii. Zeta1 and Zeta2 Scorpii are members of this star cluster. This cluster is estimated about 3.2 million years old, and is approaching the Solar System at 22 km/s. Very young stars including it, belong to the Scorpius OB association. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.[1]) is hottest star in it. It was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae[2] in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
(courtesy of Wikipedia)
0:51
The open cluster NGC 6231 through a 10 inch telescope (254 mm)
Telescope: 10 inch dobsonian
Camera: Canon EOS Rebel t6
exposure: 0.6s
ISO:3200
NGC 6231...
published: 11 Aug 2019
The open cluster NGC 6231 through a 10 inch telescope (254 mm)
The open cluster NGC 6231 through a 10 inch telescope (254 mm)
- Report rights infringement
- published: 11 Aug 2019
- views: 166
Telescope: 10 inch dobsonian
Camera: Canon EOS Rebel t6
exposure: 0.6s
ISO:3200
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera: Canon EOS Rebel t6
exposição: 0.6s
ISO:3200
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
1:23
NGC 6231 through a 80 mm telescope + astrophotography
Tools:
Telescope: 80mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6...
published: 14 Aug 2021
NGC 6231 through a 80 mm telescope + astrophotography
NGC 6231 through a 80 mm telescope + astrophotography
- Report rights infringement
- published: 14 Aug 2021
- views: 188
Tools:
Telescope: 80mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 15 s
ISO: 1600
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Astrophotography:
37 light frames of 10 seconds (9 minutes and 15 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
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About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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PT-BR
Ferramentas:
Telescópio: 80 mm Orion ShortTube
Base: NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 15 s
ISO:1600
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrofotografia:
37 light frames de 15 segundos (9 minutos and 15 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Air to the Throne - Doug Maxwell
1:12
NGC 6231 through telescope + astrophotography
Tools:
Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon...
published: 19 Jul 2020
NGC 6231 through telescope + astrophotography
NGC 6231 through telescope + astrophotography
- Report rights infringement
- published: 19 Jul 2020
- views: 313
Tools:
Telescope: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposure: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrophotography:
20 light frames of 10 seconds (3 minutes and 20 seconds exposure)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
About the target:
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
PT-BR
Ferramentas:
Telescópio: Celestron Schmidt-Cassegrain SC 203/2032 NexStar 8 SE GoTo
Camera: Canon EOS Rebel t6
exposição: 10 s
ISO:3200
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Astrofotografia:
20 light frames de 10 segundos (3 minutos and 20 segundos de exposição)
20 dark frames
20 bias
DeepSkyStacker
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
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Song: Ether Oar - The Whole Other
1:20
The Open Cluster NGC 6231 (10 inch telescope)
Tools:
Telescope: 10 inch dobsonian (Skywatcher)
CAMERA AS1120 MC
NGC 6231 is an open clu...
published: 15 Aug 2018
The Open Cluster NGC 6231 (10 inch telescope)
The Open Cluster NGC 6231 (10 inch telescope)
- Report rights infringement
- published: 15 Aug 2018
- views: 383
Tools:
Telescope: 10 inch dobsonian (Skywatcher)
CAMERA AS1120 MC
NGC 6231 is an open cluster located near Zeta Scorpii. This cluster is estimated about 2–7 million years old, and is approaching the Solar System at 22 km/s. The cluster belongs to the young Scorpius OB1 association in the neighboring Sagittarius Arm of the Milky Way. Zeta1 Scorpii (spectral type O8 and magnitude 4.71.) is the brightest star in the association, and one of the most radiant stars known in the galaxy.
NGC 6231 also includes three Wolf-Rayet stars: HD 151932, HD 152270, and HD 152408.
The cluster was discovered by Giovanni Batista Hodierna before 1654. Hodierna listed it as Luminosae in his catalogue of deep sky observations. This catalogue was included in his book De Admirandis Coeli Characteribuse published in 1654 at Palermo. It was independently observed by other astronomers after Hodierna.
The cluster forms the head of the "False Comet", a wider collection of stars from Scorpius OB1 running northward from Zeta Scorpii and NGC 6231 roughly halfway toward Mu Scorpii. The tail is formed by two clusters, Collinder 316 and Trumpler 24. Trumpler 24 is surrounded by the emission nebula IC 4628, also known as the Prawn Nebula, where the tail appears to fan out.
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Ferramentas:
Telescópio: Dobsoniano de 254 mm de abertura
Camera ASI120MC
O NGC 6231 é um aglomerado aberto localizado perto de Zeta Scorpii. Este aglomerado é estimado em cerca de 2 a 7 milhões de anos e está se aproximando do Sistema Solar a 22 km / s. O aglomerado pertence à jovem associação Scorpius OB1 no braço vizinho de Sagitário da Via Láctea. Zeta1 Scorpii (tipo espectral O8 e magnitude 4,71) é a estrela mais brilhante da associação e uma das estrelas mais radiantes conhecidas na galáxia.
O NGC 6231 também inclui três estrelas Wolf-Rayet: HD 151932, HD 152270 e HD 152408.
O aglomerado foi descoberto por Giovanni Batista Hodierna antes de 1654. Hodierna o listou como Luminosae em seu catálogo de observações do céu profundo. Este catálogo foi incluído em seu livro De Admirandis Coeli Characteribuse publicado em 1654 em Palermo. Foi observado independentemente por outros astrônomos após Hodierna.
O aglomerado forma a cabeça do "Falso Cometa", uma coleção mais ampla de estrelas de Scorpius OB1 correndo para o norte a partir de Zeta Scorpii e NGC 6231, aproximadamente na metade do caminho em direção a Mu Scorpii. A cauda é formada por dois aglomerados, o Collinder 316 e o Trumpler 24. O Trumpler 24 é cercado pela nebulosa de emissão IC 4628, também conhecida como Nebulosa do Camarão, onde a cauda parece se espalhar.
21:18
Luminous blue variable | Wikipedia audio article
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Luminous...
published: 04 Oct 2019
Luminous blue variable | Wikipedia audio article
Luminous blue variable | Wikipedia audio article
- Report rights infringement
- published: 04 Oct 2019
- views: 43
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Luminous_blue_variable
00:00:32 1 Discovery and history
00:04:03 2 Physical properties
00:08:06 3 Evolution
00:11:30 4 Supernova-like outbursts
00:14:02 5 List of LBVs
00:21:03 6 See also
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9498154047030867
Voice name: en-US-Wavenet-C
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
Luminous blue variables (LBVs) are massive evolved stars that show unpredictable and sometimes dramatic variations in both their spectra and brightness. They are also known as S Doradus variables after S Doradus, one of the brightest stars of the Large Magellanic Cloud. They are extraordinarily rare with just 20 objects listed in the General Catalogue of Variable Stars as SDor, and a number of these are no longer considered to be LBVs.
45:59
Binary star | Wikipedia audio article
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Binary_s...
published: 20 Mar 2019
Binary star | Wikipedia audio article
Binary star | Wikipedia audio article
- Report rights infringement
- published: 20 Mar 2019
- views: 12
This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Binary_star
00:02:55 1 Discovery
00:06:36 2 Classifications
00:06:45 2.1 Methods of observation
00:07:26 2.1.1 Visual binaries
00:09:22 2.1.2 Spectroscopic binaries
00:12:42 2.1.3 Eclipsing binaries
00:15:26 2.1.4 Non-eclipsing binaries that can be detected through photometry
00:16:11 2.1.5 Astrometric binaries
00:18:25 2.2 Configuration of the system
00:19:48 2.3 Cataclysmic variables and X-ray binaries
00:21:25 3 Orbital period
00:21:48 3.1 Variations in period
00:22:58 4 Designations
00:23:08 4.1 A and B
00:24:00 4.2 Discoverer designations
00:24:30 4.3 Hot and cold
00:26:33 5 Evolution
00:26:42 5.1 Formation
00:27:49 5.2 Mass transfer and accretion
00:29:48 5.3 Runaways and novae
00:31:31 6 Astrophysics
00:32:41 6.1 Calculating the center of mass in binary stars
00:34:06 6.2 Center of mass animations
00:34:21 6.3 Research findings
00:34:31 6.3.1 Planets
00:34:42 7 Examples
00:37:22 8 Multiple star examples
00:40:08 9 See also
00:43:07 10 Notes and references
00:44:55 11 External links
00:45:04 Notes and references
00:45:14 External links
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
https://assistant.google.com/services/invoke/uid/0000001a130b3f91
Other Wikipedia audio articles at:
https://www.youtube.com/results?search_query=wikipedia+tts
Upload your own Wikipedia articles through:
https://github.com/nodef/wikipedia-tts
Speaking Rate: 0.9306662182569719
Voice name: en-US-Wavenet-E
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
A binary star is a star system consisting of two stars orbiting around their common barycenter. Systems of two or more stars are called multiple star systems. These systems, especially when more distant, often appear to the unaided eye as a single point of light, and are then revealed as multiple by other means. Research over the last two centuries suggests that half or more of visible stars are part of multiple star systems.The term double star is often used synonymously with binary star; however, double star can also mean optical double star. Optical doubles are so called because the two stars appear close together in the sky as seen from the Earth; they are almost on the same line of sight. Nevertheless, their "doubleness" depends only on this optical effect; the stars themselves are distant from one another and share no physical connection. A double star can be revealed as optical by means of differences in their parallax measurements, proper motions, or radial velocities. Most known double stars have not been studied adequately to determine whether they are optical doubles or doubles physically bound through gravitation into a multiple star system.
Binary star systems are very important in astrophysics because calculations of their orbits allow the masses of their component stars to be directly determined, which in turn allows other stellar parameters, such as radius and density, to be indirectly estimated. This also determines an empirical mass-luminosity relationship (MLR) from which the masses of single stars can be estimated.
Binary stars are often detected optically, in which case they are called visual binaries. Many visual binaries have long orbital periods of several centuries or millennia and therefore have orbits which are uncertain or poorly known. They may also be detected by indirect techniques, such as spectroscopy (spectroscopic binaries) or astrometry (astrometric binaries). If a binary star happens to orbit in a plane along our line of sight, its components will eclipse and transit each other; these pairs are called eclipsing binaries, or, as they are detected by their changes in brightness during eclipses and transits, photometric binaries.
If components in binary star systems are close enough they can gravitationally distort their mutual outer stellar atmospheres. In some cases, these close binary systems can exchange mass, which may bring their evolution to stages that single stars cannot attain. Examples of binaries are Sirius, and Cygnus X-1 (Cygnus X-1 being a well-known black hole). Binary stars are also common as the nuclei of many planetary nebulae, and are the progenitors of both novae and type Ia supernovae.
Zeta1 Scorpii
Zeta1 Scorpii (Zeta1 Sco, ζ1 Scorpii, ζ1 Sco) is a B-type hypergiant star in the constellation of Scorpius. It has an apparent visual magnitude which varies between 4.66 and 4.86. It is a member of the Scorpius OB1 association, and the open star cluster NGC 6231, also known as the "northern jewel box" cluster. It is also one of the most luminous stars known in the Galaxy, with an estimated bolometric luminosity of nearly a million times the Sun's.
The stellar wind from this supergiant is expelling matter from the star at the rate of 1.55 × 10−6solar masses per year, or roughly the equivalent to the Sun's mass every 640,000 years.
ζ1 Scorpii forms a naked eye double with ζ2 Scorpii, but the stars are merely coincidentally near in the line of sight from Earth. ζ2 is a mere 155 light years distant and much less luminous in real terms. ζ1 Scorpii can also be distinguished from ζ2, due to the latter's orange hue especially in long-exposure photographs.
References
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Zeta1_Scorpii
Zeta1 Scorpii...
Astrofotografia "Zeta Scorpii y Mu Scorpii" Temuco...
NGC6231...
The open cluster NGC 6231 through a 10 inch telesc...
NGC 6231 through a 80 mm telescope + astrophotogra...
NGC 6231 through telescope + astrophotography...
The Open Cluster NGC 6231 (10 inch telescope)...
Luminous blue variable | Wikipedia audio article...
