A little ramble through 19th century astronomy - observations of stars in March 1866

 Astronomical Register March 1866 

Sir, I shall be glad if you would accord me space in the register for the few following remarks. 

Between 21^st and 28^th February 1865 the atmosphere here was unusually steady. There was scarcely any limit to the magnifying power which the stars bore. 

Antares. On the morning of the 22nd, 27^th and 28^th, the companion was distinctly visible with my Cooke’s 4.5 inch refractor before and up to sunrise, free from the light of the large star. The green colour for the companion was in fine contrast with the brilliant red of the large star. 

Lambda Ophiuchus. 4, 6, dist. 1.16” according to the Leyton observations, was clearly separated on the mornings of the 25^th, 27^th and 28^th. 

Psi2 Orion. 5.11.5 dist 2.95” (Knott). On the evening of the 26^th the small star was occasionally quite free from the rings of light around the large star, a minute but bright point. 

Trapezium The fifth star has been generally very distinctly visible, and on several nights the sixth, though it has appeared to me minute in comparison to the fifth. 

Eta Orion. My Object glass fails to separate this close double star. The fine state of the atmosphere has enabled me to use very high powers, which show the two stars wedged together or overlapping, but without dividing them. 

I have also seen distinctly the components of 15 Pleiadum, 8,14, dist. 5”, and the 15^th mag companion to Beta Aquarius. 

Sun Spots. On the 28^th February a feature was visible which I have never before seen so distinctly. A brilliantly luminous band boarded the f side of a small spot which followed the large spot.  Another spot of some size followed the small spot at a little distance. I observed this one with one of Dawes’s eyepieces and powers from 90 tom 300, with glasses of different tints. Other details in the spots were at times beautifully defined. It is probable that this spot and luminous band were observed in England with instrument of larger aperture. 

I am, Sir, your obedient servant,  

D A Freeman

Mentone, Alpes Maritimes: Feb 7^th 1866

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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.

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Cooke Telescope Tales - Planets observed from India in 1870

The Rev J Spear observed Jupiter, Saturn and Mars in 1870 from Chukrata N W Provence's, Bengal using a Thomas Cooke & Sons 4.5 inch telescope. 

He also observed double stars using a Barlow lens more than doubling the telescopes powers.

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A little ramble through the winter sky - Canis Major the Greater Dog

 Canis Major is a stunning constellation with many bright stars and clusters, unfortunately for observers in Britain it is always low in the sky, so we never see it at its best. It represents one of the two dogs the other being Canis Minor that follows at the heels of Orion the Hunter.

The brightest star in Canis Major, Sirius is also the brightest star in the sky. This is the dog star and sometimes known as the scorching one or the Nile star. Although low down in winter skies it is easy to find. If you do need a guide to find Sirius, you can use the stars of Orion’s belt and draw a line down and to the left this will lead you to Sirius.

At magnitude -1.4 (it has a minus sign in front of the magnitude number because it is so bright, there are 3 stars with minus magnitudes in the night sky) Sirius outshines all the other stars in the sky but appearances can be deceptive because Sirius is very close to us being only 8.6 light years away. It is an A class star which means it is hotter than the Sun with a temperature of 9,500’C compared to 5,800’C of the Sun.

Sirius was very important in ancient Egypt because astronomers/priests would wait to see Sirius rise just before the Sun rose in the morning sky. They knew this meant the river Nile was about to flood, it was at this point that farmers had to make sure their fields were ready for the inrush of water and sediment that would help their crops to grow. This astronomical event is known as the Helical Rising. 

Sirius has a companion star a white dwarf which was discovered by the American telescope maker Alvan Clark in 1862 when he was testing a 15-inch refractor. A white dwarf is a small, faintly lit object made of super dense stuff called degenerate matter. It is thought that most stars, including the Sun, will end their days as white dwarfs. A teaspoon full of white dwarf material would weigh many tons.

As Sirius is the Dog Star it seems appropriate that the small companion star which is officially known as Sirius B should be known unofficially as ‘The Pup’

We know that the brightest stars in a constellation are allocated a letter from the Greek alphabet with the brightest being alpha then beta etc., and we have also seen that the system often does not work, well here we go again.

Most of the star names are Arabic which is why they can sometimes seem strange to us.

The second brightest star is epsilon (5^th letter of the Greek alphabet) or Adhara which means ‘Virgins’ and has a magnitude of 1.5 it is a B class giant star with a whopping surface temperature of 22,500’C which makes our Sun seem very cool by comparison. Adhara is 440 light years away.

A line drawn down from Sirius and slightly to the left leads to delta or Wezen which means ‘Weight’ which has a magnitude of 1.8 and is a F class supergiant and is slightly hotter than the Sun, Wezen lies about 1600 light years away. It is thought that in the next 100,000 years Wezen could destroy itself in a supernova explosion.

To the right of Sirius is beta or Murzim which means ‘Announcer’ and should be the 2^nd brightest star in this constellation however it is in fact the 4^th. Murzim is a magnitude 2.0 blue giant class star lying 500 light years away, it’s another very hot star with a surface temperature of 22,750’C. 

Below Wezen and to the left is eta or Aludra the meaning is unknown and is B class supergiant of magnitude 2.4 , with a temp of 14,750`. Aludra is about 2,000 light years away. It will also become a Supernova in the next few million years.

A line drawn to the right from epsilon will lead to zeta or Phurud meaning the ‘Bright Single Ones’. This is a magnitude 3.0 star, 362 light years away. Another B class star this time a B2 with a temperature of 18,400’ C.

To the left of Sirius is gamma or Muliphein whose meaning is unknown. Gamma is of magnitude 4.1 and is a B class giant with a surface temperature of 13,100’C and lies 440 light years away. There is a mystery here because Gamma appears to have varied over a period of many 100s of years. It is recorded that in 1670 the Italian astronomer Montanari said that it disappeared from view. It was not observed for another 23 years.

Below Sirius is an open cluster, M41 which contains about 80 stars and shines at a magnitude of 4.5 it is about 2,100 light years away it was recorded as far as back as 325 BCE by Aristotle in Greece. In ‘modern time’ it was reported by the Italian astronomer Hodierna in 1654 and recorded by Messier in 1765.

NGC 2362

An open star cluster NGC 2362 was discovered by Hodierna in 1654 this cluster was not reported again until it was eventually found by William Herschel (discoverer of the planet Uranus in 1781) on March 4, 1783

NGC 2362 contains about 60 stars and is of mag 4.1 and is only about 25 million years old.  The brightest star in this cluster is tau which is of magnitude 4.39 and is a class O class supergiant star with a surface temperature of an incredible 31,500’C, it is one of the most luminous supergiant’s known. The cluster is about 5,000 light years in distance from Earth.

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A little ramble through 19th century astronomy - Meteor of June 17th 1873

Academy Saturday 20^th June 1874 

DR. GALLE, of Breslau, has discussed at some length, in the Astronomische Nachrichten, all the available observations of the meteor of June 17, 1873, which passed over the north of Hungary, Austria, and Bohemia. It appears that it was first seen at a height of 100 miles above the earth, and that it disappeared when about twenty-one miles high, after having described a path of 290 miles in about ten seconds, giving a velocity in space of about twenty-eight miles in a second. his velocity is too great for a parabolic orbit, and it would seem, therefore, though there is some uncertainty about the observations of duration, that the meteor, at the time it was seen, was describing an hyperbola. But it is to be remarked that it was then under the influence of the earth’s attraction, and it would be necessary to calculate the effect of this, which Dr. Galle does not appear to have done, before drawing any conclusions as to the orbit described previous to the rencontre. It may very possibly have been peaceably circulating round the sun in an elongated ellipse, as other meteors are in the habit of doing, until it fell in with our planet.

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Cooke Telescope Tales - Jupiter 1860

RAS vol 31 1871 p 75 

Part of a note on the changes in the colour of the equatorial belt of Jupiter by John Brown esq. 

On a fine night in January 1860, I turned Mr Pritchard’s 6.75 inch equatorial by Cooke, for about half an hour on Jupiter. The planet was so well defined, and the details of the markings on the equatorial belt were so peculiar, that I mad a sketch of them, noting at the same time the remarkable brown colour of the equatorial belt. One of the edges of the belt (I think the upper side in the instrument) was beaded or divided into egg shaped masses, which must have been of brighter or lighter colour than the background of the belt, to have given them so much prominence.

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A little ramble through Hydra the Water Snake

Hydra is the largest constellation in the sky but is by no means easy to find on account of its faintness. Hydra winds its way from the head in the northern hemisphere on the borders of Cancer to the tip of its tail south of the celestial equator near Libra and Centaurus.

There is a suggestion that Hydra it is part of the story of Jason and the Argonauts in that it represented the Dragon of Aetes helping to guard the golden fleece. The Hydra would be destroyed by Hercules.

It is possible that the Hydra was the snake depicted on a uranographic stone from the Euphrates dating to about 1200 BCE.

The Arab astronomer Al Sufi thought that the constellation was Al H’ail the Horse and was formed of stars that are now in Hydra but some also from Leo and Sextans

The Egyptians considered it the sky representative of the river Nile and gave it their name for the river.

Hydra has only one bright star Alphard which comes from the Arabic Al Fard al Shuja which means the Solitary One in the Serpent. Another Arabic name for Alphard was Al Fakar al Shuja which means the Backbone of the Serpent.

Tycho the last of the great pre telescopic astronomers called the star Cor Hydrae or the Hydra’s Heart in the 1590s.

Alphard is a magnitude 2.0 star the same brightness as the North Star but because it is not as high as the north Star it does not seem as bright. Alphard is 177 light years and is a K class star making it cooler than the Sun.

There are three Messier objects in Hydra.

Messier 48

An open cluster discovered by Messier in 1771 there is some confusion with M48 because the position given by Messier was not where M48 actually is. In 1783 Caroline Herschel, sister of William Herschel identified it, but the credit still goes to Messier. Sir John Herschel Caroline’s nephew described it “a superb cluster which fills the whole field; stars of 9th and 10th to the 13th magnitude – and none below, but the whole ground of the sky on which it stands is singularly dotted over with infinitely minute points

 M48 is 2,500 light years away shines at mag 5.8 and contains around 450 stars. A ;pair of binoculars will be needed to see it. 

Messier 68

A globular cluster discovered in 1780 , William Herschel described it "a beautiful cluster of stars, extremely rich, and so compressed that most of the stars are blended together". Its magnitude is 9.7 and is 33,000 light years away. A small telescope will be needed to find M68 

Messier 83

The Southern Pinwheel Galaxy so named because it looks like M101 the Pinwheel Galaxy in Ursa Major, it was discovered in 1781, it had been seen earlier by Nicolas Loius de Lacaille in 1752 from the Cape of Good Hope. M83 lies at a distance of 15 million light years. M83 shines with a mag of 7.5. A small telescope will be needed to see it.

Six supernovae have been observed in M83: SN 1923A, SN 1945B, SN 1950B, SN 1957D, SN 1968L and SN 1983N.

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