Introduction
Are you stuck in the past with your old and rusty Supernova 1000? Do you want to upgrade to a more futuristic, hip and cool Supernova? Well boy, do I have the deal for you! Introducing, Supernova 2000! Supernova 2000 Supernova 2000, also known as Supernova 2000a and SN 2000A, is a Type 1A Supernova located inside NGC 7674. That's all folks!
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Introduction
Supernova 2010, also known as Supernova 2010it and SN 2010it, is a Type 1A Supernova located inside NGC 1417. Introduction
Are you tired of your old, outdated and lame Supernova? Is your old Supernova acting up? Is your old Supernova an eye sore? Well no worries my friend. For The Supernova 1000 is here! Supernova 1000 Supernova 1000, also known as Supernova 1000+0216 and SN 1000+0216 is a Super Extreme Remote Superluminous Supernova was exploded in June of 2006 and November of 2006. It was so big that it was still detectable in November of 2008. Introduction
A Supernova is big, but is it the largest nova? Not at all, for there is an even more extreme supernova. This astronomical event is known as a Hypernova. Introduction
Supernova 185, also known as SN 185, SNR G315.0-02.3, SNR G315.4-02.3, 1ES 1436-62.4, 1RXS J144254.3-622815, 3FHL J1443.0-6227e, AJG 27, 3A 1438-626, GPS 1438-624, MSH 14-6-03 and 2FHL J1443.2-6221e is a Type 1A Supernova located inside The Centaurus Constellation and The Circinus Constellation. Supernova 185 is located inside The Milky Way Galaxy 9100 Light Years from Earth. The Supernova 185 explosion event occurred on December 7th 185 AD and was seen by Ancient Chinese Astronomers and Emperor Lo Yang. Introduction
Champagne Supernova, also known as W49B, SNR G043.3-00.2, 1ES 1908+09.0, 3C 398, 3C 398.0, 4C 09.63, 3FHL J1911.0+0905, 3CR 398, AJG 95, 2FGL J1911.0+0905, 3FGL J1910.9+0906 and 2FHL J1911.0+0905, is a Nebula that is a Supernova Remnant from likely a Type 1B Supernova or Type 1C Supernova located inside The Aquila Constellation. Champagne Supernova is located 33,000 Light Years from Earth. The Supernova is believed to have occurred 1,000 Years Ago and is also believed to have left a Black Hole Remnant. What is it?
An Imposter, is one who poses as someone or something that they are not. Perhaps like a mocking bird who mimics the voice of another bird in order to draw in prey for the hunt. This can happen in space as well; more specifically with supernovae. This fake is known as a supernova imposter. Supernova imposters are interstellar explosions that at first are thought and seen to be supernovae, alas this explosion is not the result of the death of the host star. Therefore instead of being classified as supernova, which would require a stars death, this explosion is called a Supernova Imposter. They are also known as Type V Supernovae, Extra-Powerful Novae, Eta Carinae analogs and giant eruptions of luminous blue variables or LBV. Some discovered Supernova Imposters are The Great Eruption of Eta Carinae, SN 1954J, SN 2008S and NGC 6946. PS: This Supernova is Sus Introduction
The King Supernova, also known as King Supernova, SN 1993J, AAVSO 0947+69, ICRF J095524.7+690113, INTREF 395 and PBC J0955.1+6904, is a Type II Supernova inside The Ursa Major Constellation. The King Supernova is located inside The M81 Galaxy. The King Supernova is the second-brightest Supernova ever discovered in the twentieth century. The King Supernova was discovered on March 28th, 1993 by Astronomer F. Garcia. The King Supernova came from a K-Type Supergiant Star that had a Super Totally Awesome Explosion, resulting in The Creation of The King Supernova! Introduction
Tycho's Supernova, also known as SN 1572, HR 92, SN 1572A, SNR G120.1+01.4, SNR G120.2+01.4, 1ES 0022+63.8, 1RXS J002509.2+640946, B Cas, BD+63 39a, 8C 0022+638, 4C 63.01, 3C 10, 3C 10.0, 2C 34, RRF 1174, 1XRS 00224+638, 2U 0022+63, 3A 0022+638, 3CR 10, 3U 0022+63, 4U 0022+63, AJG 112, ASB 1, BG 0022+63, CTB 4, KR 101, VRO 63.00.01, [DGW65] 3, PBC J0024.9+6407, F3R 3628, WB 0022+6351, CGPSE 107 and GB6 B0022+6352, is a Type 1A Supernova located inside The Cassiopeia Constellation. Tycho's Supernova is inside The Milky Way Galaxy. Tycho's Supernova is from 8000 to 9800 Light Years from Earth. Tycho's Supernova appeared in November 1572, The same year England and France sign an anti-Spanish Military Convenant. Introduction
Kepler's Supernova, also known as Sn 1605, Kepler's Nova, Kepler's Star, 1ES 1727-21.4, 3C 358, ESO 588-4, GCRV 67121, HR 6515, IRAS 17276-2126, MRC 1727-214, PK 004+06 1, PN G004.5+06.8, 1RXS J173040.4-212836, SN 1604A, IRAS Z17276-2126, SN 1604, AJG 71, CSI-21-17276, CTB 41, Kes 57, MSH 17-2-11, OHIO T -246, PKS 1727-21, PKS 1727-214, PKS J1730-2129, [PBD2003] and G004.5+06.8, is a Type 1A Supernova located inside The Ophiuchus Constellation. Kepler's Supernova is located inside The Milky Way Galaxy. Kepler's Supernova appeared on October 8th-9th of 1604 a few weeks before the first presentation of William Shakespeare's Othello. Before Kepler's Supernova was a Supernova, it was a two star system consisting of a White Dwarf and a Red Giant. Kepler's Supernova is 20,000 Light Years from Earth. List of All 110 Messier Objects
1. Crab Nebula(M1) 2. NGC 7089 (M2) 3. NGC 5272 (M3) 4. NGC 6121 (M4) 5. NGC 5904 (M5) 6. Butterfly Cluster (M6) 7. Ptolemy Cluster (M7) 8. Lagoon Nebula (M8) 9. NGC 6333(M9) 10. NGC 6254 (M10) 11. Wild Duck Cluster (M11) 12. NGC 6218 (M12) 13. Great Globular Cluster in Hercules (M13) 14. NGC 6402 (M14) 15. NGC 7078 (M15) 16. Eagle Nebula (M16) 17. Omega, Swan, Horseshoe or Lobster Nebula (M17) 18. NGC 6613 (M18) 19. NGC 6273 (M19) 20. Trifid Nebula (M20) 21. NGC 6531 (M21) 22. Sagittarius Cluster (M22) 23. NGC 6494 (M23) 24. Sagittarius Star Cloud (M24) 25. IC 4725 (M25) 26. NGC 6694 (M26) 27. Dumbbell Nebula (M27) 28. NGC 6626 (M28) 29. Cooling Tower (M29) 30. NGC 7099 (M30) 31. Andromeda Galaxy (M31) 32. NGC 221 (M32) 33. Triangulum Galaxy (M33) 34. NGC 1039 (M34) 35. NGC 2168 (M35) 36. NGC 1960 (M36) 37. NGC 2099 (M37) 38. NGC 1912 (M38) 39. NGC 7092 (M39) 40. Winnecke 4 (M40) 41. NGC 2287 (M41) 42. Orion Nebula (M42) 43. De Mairan's Nebula (M43) 44. Beehive Cluster (M44) 45.Pleiades (M45) 46. NGC 2437 (M46) 47. NGC 2422 (M47) 48. NGC 2548 (M48) 49. NGC 4472 (M49) 50. NGC 2323 (M50) 51. Whirlpool Galaxy (M51) 52. NGC 7654 (M52) 53. NGC 5024 (M53) 54. NGC 6715 (M54) 55. NGC 6809 (M55) 56. NGC 6779 (M56) 57. Ring Nebula (M57) 58. NGC 4579 (M58) 59. NGC 4621 (M59) 60. NGC 4649 (M60) 61. NGC 4303 (M61) 62. NGC 6266 (M62) 63. Sunflower Galaxy (M63) 64. Black Eye Galaxy (M64) 65. Leo Triplet NGC 3623 (M65) 66. Leo Triplet NGC 3627 (M66) 67. NGC 2682 (M67) 68. NGC 4590 (M68) 69. NGC 6637 (M69) 70. NGC 6681 (M70) 71. NGC 6838 (M71) 72. NGC 6981 (M72) 73. NGC 6994 (M73) 74. Phantom Galaxy (M74) 75. NGC 6864 (M75) 76. Little Dumbbell Nebula (M76) 77. Cetus A (M77) 78. NGC 2068 (M78) 79. NGC 1904 (M79) 80. NGC 6093 (M80) 81. Bode's Galaxy (M81) 82. Cigar Galaxy (M82) 83. Southern Pinwheel Galaxy (M83) 84. NGC 4374 (M84) 85. NGC 4382 (M85) 86. NGC 4406 (M86) 87. Virgo A (M87) 88. NGC 4501 (M88) 89. NGC 4552 (M89) 90. NGC 4569 (M90) 91. NGC 4548 (M91) 92. NGC 6341 (M92) 93. NGC 2447 (M93) 94. Croc's Eye or Cat's Eye (M94) 95. NGC 3351 (M95) 96. NGC 3368 (M96) 97. Owl Nebula (M97) 98. NGC 4192 (M98) 99. NGC 4254 (M99) 100. NGC 4321 (M100) 101. Pinwheel Galaxy (M101) 102. Spindle Galaxy (M102) 103. NGC 581 (M103) 104. Sombrero Galaxy (M104) 105. NGC 3379 (M105) 106. NGC 4258 (M106) 107. NGC 6171 (M107) 108. NGC 3556 (M108) 109. NGC 3992 (M109) 110. NGC 205 (M110) Introduction
A SuperNova is a Super Powerful Stellar Explosion of Awesome magnitude! The Explosion is so Super Awesome, that it is in fact the largest Explosion in Space! Many elements that we see in The Universe are created by SuperNovae; but what creates a Supernova? A Giant death. The Demise of a The Giant A Supernova can never come from a Star like our Sun, no it must come from a Giant Star or even a Super Giant Star! A Supernova can come from either a Red Giant, Red Supergiant, Blue Giant or Blue Supergiant. All these Stars are very different, therefore there are more than one type of Supernova. There is a Type 1 Supernova, which comes from a Blue Supergiant and then there is a Type 2 Supernova, which comes from the other giants. Type 1 Supernova A Type 1 Supernova is split into three categories, Type 1A Supernova, Type 1B Supernova & Type 1C Supernova. A Type 1A Supernova is a Supernova that has a Strong ionized silicon absorption line. An absorption line is a proclivity of a lower temperature atmospheric gas to intake the equivalent lines of light. Type 1A Supernovae are close to being peak light! Type 1A Supernovae is considered Thermal runaway. Thermal runaway is when a white dwarf star gathers up enough astronomical material from Stellar Companion/ Binary Star to boost its core temperature which will create carbon fusion. This carbon fusion will Start-off runaway nuclear fusion. This believed to be The Creator of a Type 1A Supernova. Type 1B Supernovae are Supernovae that show non-ionized Helium. These Helium lines are neutral. Type 1B is considered Core Collapse. Core Collapse is when Massive Stars, such as Blue Supergiants, Red Supergiants, Blue Giants and Red Giants, core collapses due to the gravity of the nuclear fusion within it. As thou might know, this phenomenon can result in two outcomes usually, Black Holes or a Super Massive Explosion! The only Supernova where Core Collapse does not ensue prior to its inception is a Type 1A Supernova, which explain earlier is from Thermal runaway. Type 1C Supernovae have a weak to no helium and a weak to no silicon absorption feature; Type 1B Supernovae have this second feature as well. Type 1C Supernova also come from Core Collapse of a Massive Star. Type 1C Supernovae can be created by Blue Supergiants. Type 2 Supernova Type 1 Supernovae do not show Hydrogen while Type 2 Supernovae show Hydrogen. Type 2 Supernovae are split as well as Type 1 Supernovae into seperate categories that describe the different characteristics of the particular Supernova. The different types of Type 2 Supernovae are Type 2P Supernovae, Type 2L Supernovae, Type 2n Supernovae & Type 2B Supernovae. Type 2P Supernovae are Supernovae that hath a flat stretch known as a plateau that decline in lumosity. This brightness in the Supernovae declines slower that Type 2L Supernovae. Type 2P Supernovae comes from Core Collapse of a Massive Star. Type 2L Supernovae has a steady and slow linear decline in lumosity, not a slow as Type 2P Supernovae, but still slow nonetheless. This decline in light occurs at its peak lumosity. Type 2L Supernovae are created by Core Collapse of a Massive Star just like the previous Supernovae discussed. Both Type 2P Supernovae and Type 2L Supernovae lack narrow lines completely. This is unlike Type 2n Supernovae who in fact have some narrow lines. The 'n' in fact has a purpose in stating that this particular Supernovae (Type 2n Supernova) has a few narrow lines. These lines that are spoke of are lines of hydrogen emissions; hence it being a part of the broader spectrum of Type 2 Supernovae. One way to describe a Type 2n Supernova is an Extremely Energetic Supernova. Type 2n Supernovae also come from a Core Collapse of a Massive Star. Type 2b Supernovae have weak hydrogen lines in its starting spectrum. Eventually though Type 2B Supernovae hydrogen lines become undetectable. Type 2 Supernovae can come from Blue Supergiants, Red Giants, Blue Giants & Red Supergiants. Afterlife of The Supernova Supernovae can end in many spectacular ways. Type 1 Supernovae can become a Stellar Nursery. A Stellar Nursery is a plot in Space where dense nebula/nebulae condenses and contracts gas and dust becoming The Creator of Stars in that area. Type 2 Supernova that were previously Blue Supergiants will become Black Holes eventually. Type 2 Supernovae that come from Blue Giants or Red Giants will become Neutron Stars. Conclusion Just like Stars, Supernovae come in a broad array of different breeds. Like most of space, the vast spread of different type of astronomical objects come in countless varieties. Supernovae might be considered the most beautiful and Awesome of all of these Space objects. This shows that destroying some old and past its time can create something new and more spectacular than before with elements of the old that make a marvelous spectacle to witness. We too can do the same. If something old is no longer working for thee, change what thou art commencing in life. Keep elements of the old so thou does not lose thy identity completely, but adapt to current situation and become a better more brighter version of thyself, just like a Star becoming, a Supernova! |
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