Celtic peoples held
lakes and rivers to be sacred as evinced from their mythology. According
to the myths the rivers Shannon and the Boyne were created by
goddesses. The sacred nature of water is also evident in the
archaeological record due to the many finds of votive offerings of
precious objects in watery places. Sometimes river names reveal creation
myths not by gods but by furrowing animals. It may be indicative of how
sacred these animals were once considered.
The pig was one
such animal, spending its lifetime furrowing through the earth creating
river like meandering channels. It gives its name of the River Suck in
Connacht which is one of the main tributaries of the River Shannon. The
word derives from the old Irish word for pig ‘socc’ or more specifically the pigs digging instrument the snout. The river, Afon
Soch and the village named after it Abersoch in Wales contain the
element ‘soch’ which is of Celtic origin and thus related to the Irish word ‘socc’.
In
Wales also there is the river Twrch (literally 'hog') in Ystalyfera and
Llanuwchllyn are other examples, as is the river Hwch (sow) near
Llanberis. Banw, a word for a 'piglet', is apparent in the river names
Banw in Montgomeryshire and the rivers Aman (from Amanw) and Ogwen.
Image: River Suck at O’Flynn’s Lock C. Roscommon.
Thursday, April 25, 2013
Thursday, April 18, 2013
Early Medieval Ireland and advanced engineering
The oldest tidal mill so far discovered in the world
belongs to Monastery of Nendrum on Mahee Island on Strangford Lough in
Co. Down.The first tidal mill was constructed there between 619 and
621AD making it older than the previously earliest known tidal mill at
Little Island in Co. Cork which dates from about 630AD. The Cork mill is
a A twin flume horizontal-wheeled tide mill.
As the name suggests tide mills or sea mills used the sea tides to fill an artificially created mill pond and when the tide receeded the enenrgy stored in the captured water was used to power the mill. Engineers estimate the mill wheels would probalby have been capable of developing between 7 and 8 horsepower.
Image: artists impression of a single flumed mill.
As the name suggests tide mills or sea mills used the sea tides to fill an artificially created mill pond and when the tide receeded the enenrgy stored in the captured water was used to power the mill. Engineers estimate the mill wheels would probalby have been capable of developing between 7 and 8 horsepower.
Image: artists impression of a single flumed mill.
Thursday, April 11, 2013
Easter day and the foundation of western science
Predicting the date when Easter Sunday will fall is necessary when the church decided to place a 40 day fast in advance of it. Such an endeavour is not as easy as it may seem as it involves reconciling two irreconcilable calendars the lunar and solar. The month is named after the moon because each month is approximately the duration of a single moon cycle. The average number of days between moon phases is actually 29.5 days and months were devised to have 29 (hollow month) or 30 (full month) days. This Romulus calendar had only ten months with the spring equinox in the first month. It had only 304 days and it seems that the Roman just ignored the remaining 61 days which fell in winter. The calendar was reformed many times but it was not reliable. According to tradition under the second emperor of Rome Numa Pompilius c. 700BC two extra months were added (Januarius and Februarius) and this accounts for the mismatch in the month names Sept, Oct, Nov & Dec which translate as month numbers 7, 8, 9 & 10 but are now actually months 9, 10, 11 & 12. Confusion about when to add leap days meant that it was not till about 4AD that the Julian calendar had become reliable with leap days inserted every 4 years but it was still out of sync with the solar year by between 10 & 11 minutes. Thus the accumulation of this error over time meant that after about 131 years the calendar was out of sync with the equinoxes by one day. The date of the spring or vernal equinox is the basis from which the calculation of the date of Easter Sunday is taken. Thus errors in the calendar mean the calculation of Easter day may also be in error.
In 325AD the Council of Nicaea established that Easter would be held on the first Sunday after the first full moon occurring on or after the vernal equinox. Easter is based on the Jewish Passover which occurs on the first full moon after the vernal equinox by watching the phases of the moon the date of Passover can be determined easily a few weeks before. However the Christians had to know many weeks in advance when Easter Sunday was going to occur in order to calculate the date of Ash Wednesday. Mistakes in such calculations might mean that one parish could be celebrating Easter a week or two after their neighbours. Because fasting and abstinence was quite austere in medieval times the Easter celebration was anticipated like no other. If the neighbours got to celebrate first then they could legitimately celebrate it again in the next parish and it is fair to assume there would not be many happy Easter bunnies in a particular parish.
In order to accurately calculate the date of Easter Sunday it required figuring out how the universe worked.
“In fact, Ireland in the Early Middle Ages led the way in terms of serious scientific engagement with the physical universe and the attempt to understand the nature of the created world. The famous studies of Archbishop James Ussher in the seventeenth century have their antecedents in the efforts of Irish scholars, 1000 years before him, to offer rational explanations of the natural phenomena that they observed around them in their everyday world. More than anywhere else in Europe at that time, the Irish in the seventh century succeeded in figuring out ‘how things worked’ in the universe. They did so not only in the field of technical chronology (in which they were THE masters), but also in those areas of study that the modern world calls Science.” From Saints, scholars and science in early medieval Ireland – Prof. Dáibhí Ó Cróinín, NUI Galway