A little ramble through 19th century astronomy - shadows of jupiter's satellites in the 1870s

 Academy, Saturday 16^th January 1875

 Shadows of Jupiter's Satellites—During the last four years Mr. Burton has frequently observed that the shadows of Jupiter's satellites projected on the disc of the planet during transit were elliptical, and that this was, as a rule, the case only when Jupiter was near quadrature, and the shadow therefore seen obliquely.

Mr. Burton's explanation of the phenomenon is that the shadow falls on cumulus clouds, which give rise to the markings on Jupiter’s disc, these clouds being dark and therefore invisible wherever the shadow falls, but in full sunshine scattering the light in all directions. The shadow will thus present exactly the same appearance as a cylindrical hole which sends no light to the eye but allows light from the bright clouds forming its boundary to pass; and such a hole, when viewed obliquely, will appear the more elliptical the greater its depth.

From his estimations of the ellipticity on different occasions, Mr. Burton has deduced a depth of atmosphere of from 3,000 to 9,000 miles, a result which would accord well with the small density of Jupiter as a whole, only a quarter that of the earth. On the hypothesis that the bright clouds are scattered at different levels in an atmosphere of considerable thickness, the observed decrease of brightness near the limb is explained by supposing the sunlight to pass freely into space through interstices between the clouds near the limb, so that none of it is received back again by the eye. Mr. Burton's paper is given in the Monthly Notices for December.

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Cooke Telescope Tales - Transit of Mercury observed from Liverpool in 1868

George Williams using a 4.25 inch Cooke & Sons telescope observed the transit of Mercury on November 5^th 1868 from 2, Devonshire Road, Prince’s Park Liverpool. 

Williams observed no apparent elongation or pear shape, or black drop at the egress of the planet; but the boiling of the limb, which was considerable, may account for the absence of these appearances.

 

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Cooke Telescope tales - telescope for Peckham in 1865

 In April 1865 William Bolger Gibbs (1834-1925) of Talford Road, Peckham purchased a 4 inch telescope from Thomas Cooke & Sons York, a little later he purchased a 5.5 inch refractor which he housed in an observatory, I cannot say if this was a Cooke telescope or not. 

He was described as the “Father of the London Stock Exchange”  but apart from his business he loved science and in particular astronomy. 

He was friends with his near neighbour James Buckingham of Walworth who owned the 21 inch refracting telescope.

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A little ramble through Leo the Lion

Leo the Lion is a fantastic spring constellation, its one of the few constellations that looks like the figure it is supposed to represent. The lion’s head is outlined by a sickle of backwards question mark which at the bottom is the bright star Regulus.

In ancient Greece Leo represents the Nemean Lion which originally came from the Moon, and after his earthly stay, is carried back to the heavens with his slayer Hercules.

It is rather ironic that although Hercules slays the lion, in the sky the constellation of Leo the Lion is much more prominent than Hercules.

The Egyptian king Necepsos taught that at the creation the Sun rose here from near the star Denebola which is in Leo.

The Persians called the constellation Ser, the Turks called it Artan, the Syrians knew it as Aryo, the Jews called it Arye while to the Babylonians it was Aru- all the names mean a Lion.

On Ninevite cylinders Leo is depicted as in fatal conflict with a bull, typifying the victory of light over darkness; and in Euphratean astronomy it was additionally known as Gisbar-namru-sa-pan, variously translated as the Shinning One which precedes Bel; this is our Ursa Major.

Throughout antiquity the Lion and the constellation always have been identified with the Sun, indeed in all historic ages till it finally appears on the royal arms of England, as well as those of many of the early noble families of England. During the 12^th century it was the only animal shown on Anglo Saxon shields.

 Alpha or Regulus which means ‘Prince or Little King, lies 79 light years away, it has a brightness of magnitude 1.4 Regulus is a B class star with a surface temperature 12,000’C, much hotter than our Sun at 5,800’C.

Regulus was the leader of the four Royal Stars of the ancient Persians, The Four Guardians of the Heavens. The other three are Fomalhaut in Piscis Austrinus, Aldebaran in Taurus and Antares in Scorpio.

The Arab astronomer Al Biruni called Regulus the Heart of the Royal Lion, which “rises when Suhail rises in Al Hijaz”.  Another Arab name for the Lion’s Heart was Al Kalb al Asad. The title of the Lion’s heart was also recognised by Greek and Roman astronomers.

To Euphratean astronomers the star was Gus-ba-ra, The Flame or the Red Fire of the House of the East.

Beta or Denebola is derived from the Arabic name of Al Dhanab al Asad of the Lion’s Tail. The Arab astronomer Al Biruni wrote of the star, “The heat turns away when it rises, and the cold turns away when it disappears”

The Persians knew the star as Avdem or the One in the Tail, while the Khorasmians called it Wilhayu or the Burning One.

Gamma or Algeiba which means ‘Lions Mane’, is an orange class K giant star with a magnitude of 2.1 and is 130 light years away.

Delta or Zosma which means ‘Girdle or hip’ is an A class star lying at a distance of 58 light years, Zosma has a magnitude of 2.6.  Ulug Beg called the star Al Thahr al Asad, or the Lion’s Back.

The Chinese saw this star as Shang Seang or the Higher Minister of State.

There are five messier galaxies in Leo all require telescopes to be seen.

M65,

A galaxy lying about 35 million light years away, it was discovered by Messier in 1780 at magnitude 10, a telescope is needed to find it. M65 together with M66 and NGC 3628 form what astronomers call the Leo triplet of galaxies. They can all be seen close together in the sky.

M66

M66 at mag 8.9 is brighter than M65 and can be glimpsed with binoculars but telescopes will allow you to see it much better. It was discovered by Messier in 1780.  It lies at a distance of around 31 million light years. There have been 5 supernovae seen in M66 in 1973.1989,1997, 2014 and 2016, a reason why these galaxies are very popular with astrophotographers.

NGC 3628

Known as the Hamburger Galaxy it is the third member of the Leo Triplet of galaxies. It lies at a distance of 35 million light years and shines at magnitude 10. I am somewhat surprised that Messier did not see this galaxy as it lies so close to M65 and M66

M95

Lying at a distance of 33 million light years M95 has a magnitude of 11.4. A supernova was seen here in 2012.

M96

With a magnitude of 10, M96 is too faint to be seen with binoculars. It lies at a distance of 31 million light years and was discovered in 1781. A supernova was seen in 1998.

M105

Yet another galaxy lying at a distance of 36 million light years. Again, it has a magnitude of 10. Messier would have seen M105 in 1781.

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A little ramble through 19th century astronomy - European observatories in 1874

 Nature, October 8th 1874

France, Germany and Austria are vying with each other in astronomical activity. In the grounds of the Paris Observatory a 4-foot Foucault mirror is being erected and M. Le Verrier has already obtained a grant for a 30 inch refractor.

The Vienna Observatory is also making arrangements for the reception of a telescope of similar aperture. Messrs Merz have nearly completed a lens of 20 inches aperture, for the university of Strassburg.

In France, the newly created Ecole Speciale des Hautes Etudes is being taken advantage of to form a school of astronomy; in Germany and America many such schools already exist, thanks to the rational administration of their observatories, the assistants in which are the pupils, friends and potential successors of the director.

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Cooke Telescope Tales - astrophotography in Newcastle in 1890

In 1890 Lawrence Richardson of Newcastle on Tyne using a 4.5 inch Thomas Cooke & Sons telescope undertook some research into astronomical photography using his telescope which was an achromatic.  He was not that hopeful of getting really sharp images, the Cooke & Sons photo visual telescope would not be available until he mid 1890s. 

Richardson found that he could take a photograph of Orion which would show hundreds of stars and which would take around about an hour. He went on to say that he thought that astrophotography was a very good field for amateur astronomers to work in and obtain good results.

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The Astronomy Show on Drystone Radio

 Join me, Martin Lunn MBE every Monday evening from 7.00 pm-9.00 pm on the award-winning Astronomy Show on Drystone Radio, probably the only regular astronomy show on any radio station in the country. 

I will take my weekly look at the night sky and look at all the latest news in astronomy. There will be the astronomical anniversaries this week plus the latest news from the astronomical societies in the north of England.

The Astronomy Show every Monday evening only on Drystone Radio live online at www.drystoneradio.com DAB radio in Bradford and East Lancashire, or 102 and 103.5 FM and can also be heard later on the Drystone Radio Podcast.