I was pleasantly surprised that we had a forecasted window of clear sky last night and Even though the moon phase was Waining Gibbous , however seeing was forecasted as poor. I was hoping for about 5+ hours, and came close, for after about 4.5 hours the clouds rolled in.Messier 1 (M1), also known as the Crab Nebula, Taurus A, or NGC 1952, is an expanding supernova remnant and pulsar wind nebula. It is located in the northern constellation
Taurus, the Bull. The Crab Nebula has an apparent magnitude of 8.4 and can be seen with binoculars in good viewing conditions.Messier 1 is the only supernova remnant listed in Messier’s catalogue and the most famous object of its kind in the night sky. The nebula has a total luminosity 75,000 times that of the Sun and lies at a distance of 6,500 light years from Earth.
The Crab Nebula is the result of a supernova explosion, SN 1054, that was observed by Chinese astronomers in 1054 AD. It was the first deep sky object to be associated with a historical supernova explosion.Messier 1 is about 11 light years (3.4 parsecs) in diameter and keeps expanding at a rate of about 1,500 kilometres per second. The supernova remnant contains the Crab Pulsar, a rapidly rotating neutron star that spins at a rate of 30.2 times per second. The pulsar, also catalogued as PSR 0531+21, is the youngest one observed. It emits radiation in optical, radio, ultraviolet, X-ray and gamma ray wavelengths.As a radio source, M1 is catalogued as Taurus A and 3C 144. It was identified as a strong source of radio emission in 1949. X-ray emissions from the nebula were detected in April 1963 and the X-ray source was named Taurus X-1. M1 is the strongest persistent source of X-rays and gamma rays in the sky, with energies measuring above 30 kiloelectron volts (keV).The Crab Nebula is part of the Perseus Arm of the Milky Way galaxy. Only three other supernovae have been seen in our galaxy since SN 1054.The explosion of the progenitor star produced a large shell of filaments that has continued to expand ever since and will eventually disperse and disappear into the surrounding space.The nebula’s filaments contain ionised gas which is responsible for the nebula’s glow. The electrons found in the gas move at speeds close to the speed of light, emitting synchotron radiation, which makes the nebula visible in radio wavelengths.The filaments of the Crab Nebula are what is left of the progenitor star’s atmosphere and they mainly consist of ionised hydrogen and helium, along with other elements including oxygen, carbon, iron, nitrogen, sulfur and neon. The temperatures of the filaments are typically in the range from 11,000 to 18,000 K.The Crab Nebula was discovered by the English astronomer John Bevis in 1731. Bevis added the object to his sky atlas
Uranographia Britannica, which was completed in 1750 but never published.Charles Messier discovered the nebula independently on August 28, 1758 while looking for a bright comet and entered it as the first object in his catalogue on September 12.His entry read, “Nebula above the southern horn of Taurus, it doesn’t contain any star; it is a whitish light, elongated in the shape of a flame of a candle, discovered while observing the comet of 1758.”Messier at first believed that the Crab Nebula was Halley’s Comet, which was predicted to return that year, but then noticed that the object was not moving.The discovery gave him the idea to compile a catalogue of objects that observers could easily confuse with comets because of their cloudy appearance.It was the French astronomer and mathematician Alexis Clairaut who had predicted the return of Halley’s Comet in late 1758, saying it would likely appear in
Taurus constellation, which was why Messier was searching for it in this area of the sky.In the first publication of his catalogue, Messier credited himself for the discovery. John Bevis was eventually acknowledged years later, after he had sent a letter to Messier in June 1771.M1 was named the Crab Nebula after William Parsons, the 3rd Earl of Rosse, made a drawing of the object in 1844.Lord Rosse observed the nebula at Birr Castle in Ireland using a 36-inch telescope. He called it the Crab Nebula because it bore a resemblance to a crab in his drawing.Rosse could not confirm the resemblance after observing the object in a 72-inch telescope in 1848, but the name stuck to this day nevertheless.The first photograph of M1 was taken by Dr. Isaac Roberts in December 1892 using a 20-inch telescope.LOCATIONMessier 1 lies near the southern horn of the celestial Bull. It is located 1 degree northwest of the bright star Zeta Tauri. The star can easily be found by first locating
Aldebaran, the brightest star in
Taurus, and then following the line of the V-shape that
Aldebaran is part of, to Zeta Tauri. Aldebaran can be located by following the line formed by the three stars of
Orion’s Belt. It is the first bright star that appears on that imaginary line.Zeta Tauri forms a square with three much fainter stars. The Crab Nebula is located in the vicinity of the square and it appears as a faint patch of light in binoculars. The Crab Pulsar is 16th magnitude and can only be seen in larger telescopes (20 inches or so) in very good viewing conditions, with clear skies and no light pollution.The Crab Nebula’s filaments and structure may become apparent in 16-inch telescopes under good conditions, while smaller telescopes, starting with 4-inch aperture, only reveal some detail in the shape of the remnant. In smaller instruments, M1 looks like a comet without a tail.The best time to observe Messier 1 in the northern hemisphere is in late autumn and early winter, during the months of November, December, and January.PULSARThe Crab Pulsar is about 28 to 30 kilometres across and, as a result of its high spin rate, it emits pulses of optical, X-ray and radio radiation.It was one of the first pulsars to be discovered and it provided evidence for the theory that pulsars were formed by supernova events.The progenitor star of Messier 1 was identified in 1942 by the German-American astronomer Rudolf Minkowski, who discovered that it had a very unusual optical spectrum.In 1967, the region around the star was identified as one of the brightest gamma-ray sources in the night sky.The mass of the neutron star is believed to be in the range from 1.4 to 2 solar masses.The existence of the Crab Pulsar was first predicted by the Italian astrophysicist Franco Pacini in the 1960s to explain the nebula’s brightness.The neutron star was observed for the first time in 1968.As the remnant was associated with a historical supernova, it played a huge role in helping astronomers understand the nature of supernova remnants and made it possible for them to verify the pulsar’s basic properties, such as age, spin-down luminosity, and the orders of magnitude.The Crab Pulsar is also catalogued as PSR 0531+21 or NP0532.
Messier 1 was associated with the bright supernova SN 1054 in the early 20th century.In 1921, American astronomer Carl Otto Lampland noticed changes in the nebula’s structure, which eventually led astronomers to conclude that M1 was the expanding remnant of the supernova recorded by Chinese astronomers on July 4, 1054 AD.Chinese observers noted a “guest” star in the sky near the southern horn of
Taurus.Based on reports, SN 1054 was visible in the sky for 23 days. Analysis of historical records revealed that the supernova reached a peak magnitude of -7 and could be seen even in daylight.It was the brightest object in the night sky, second only to the Moon, and it remained visible to the naked eye for 653 days after its discovery.The supernova was also recorded by Arabic, Japanese, and Native American observers.In the early 1920s, Swedish astronomer Knut Lundmark noted the nebula’s proximity to the historical supernova and, in 1928, American astronomer and cosmologist Edwin Hubble suggested that the nebula be associated to the exploding star.However, as the nature of supernova events was not fully understood at the time, the suggestion remained confidential for several years, until the American astronomer Nicholas Mayall demonstrated that M1 was indeed the expanding remnant of SN 1054.The progenitor star likely had a mass of between 9 and 11 solar masses.The existence of the Crab Pulsar indicates that the nebula formed in a core-collapse supernova, one that occurs when a massive star runs out of fuel and collapses in on itself.SN 1054 has the variable star designation CM Tauri.
@information from Messier-Objects.com
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