Re: A 14th century sundial question from France.
Don't forget the beautiful Missal of St Leofric 10-11th Century for an elegant but simple shadow length table --- That is a common table used mostly in calendars. It is a variantof the same model of St. Gallen abbey (there is a little error made by the scriba monk). As I wrote, that is very similar to the pseudo-Beda table. Mario --- https://lists.uni-koeln.de/mailman/listinfo/sundial
Re: A 14th century sundial question from France.
The data that you show looks very similar to the Venerable Bede's shadow length tables (though the values are slightly different). This gives the length of a person's shadow on the assumption that their height is equal to six of their own feet (tall people generally have big feet!). But the hours are probably not the modern equal ones. -- Dear friends, can I suggest you the reading of an exellent and almost complete article about "shadows schemes" written by Karlheinz Schaldach? The article is found in Gnomonica Italiana n. 16, november 2008. In this article Schaldach analize more than 40 medieval shadows schemes putting them into distinct models classified by the numerical sequence. As John wrote this is a simple shadow sheme common in medieval time up to the 16th century, usually called Horologium or horologium viatorum. The numerical sequence given by Bill is not the sequence written by pseudo-Beda (I say pseudo-Beda just because is not sure at all that the sheme that we usually say is from Beda is really from Beda. That scheme is usual in the Fleury manuscripts). The sequence that we call "from Beda" has been categorized by Schaldach in a Saint Gallen model (because is very common in the manuscripts present in that abbey and commonly of Irish origin), variant C1. In the scheme written by Bill we can recognise a rare scheme: the model of Flavigny, and Karlheinz Schaldach knows only one example (Leiden, UB Scaliger 28, fol. 2v) dated to the 9th cent. The model of Flavigny is really very similar to the famous, and almost unique, shadow scheme of Palladius, but it changes the Dec-Jan and Nov-Feb colums - Palladius: Dec-Jan hour 1 29 feet hour 2 19 feet hour 3 15 feet hour 4 12 feet hour 5 10 feet hour 6 9 feet Nov-Feb 1 27 2 17 3 13 4 10 5 8 6 7 Flavigny: 27 feet 17 feet 14 feet 10 feet 8 feet 7 feet Nov-Feb 1 26 2 16 3 13 4 9 5 7 6 6 -- As we can see the sequence is very similar to the one shoed by Bill, but one difference: the shadow lengthf the 3-9th hour is major of one unit. The sequence of the 3d and 9th hour in the Flavigny scheme is:14, 13, 12, 11, 10, 9 - while in the Bill sheme is: 13, 12, 11, 10, 9, 8. So the sequence of the intervals for Flavigny is (-10, -3 -4 -2, -1) while for the Bill text is (-10, -4, -3, -2, -1). This sounds as the scheme from Bill is the more correct Flavigny model, but to prove this we should find another ms with correct sequence daded bak almost to the 9th century. Bytheway the Leiden ms is earlier than the Bill written scheme, so we can surely say that this last scheme is not from John of Murs, but older. Thanks Mario Arnaldi --- https://lists.uni-koeln.de/mailman/listinfo/sundial
Re: A 14th century sundial question from France.
Dear Friends Don't forget the beautiful Missal of St Leofric 10-11th Century for an elegant but simple shadow length table see http://image.ox.ac.uk/show?collection=bodleian&manuscript=msbodl579 and find folio 58 recto Does anyone know if Bede's Table is available in manuscript image form anywhere on the web (plus a translation...!)? Best regards Kevin Karney Freedom Cottage, Llandogo, Monmouth NP25 4TP, Wales, UK 51° 44' N 2° 41' W Zone 0 + 44 1594 530 595 On 9 Mar 2011, at 15:03, Schechner, Sara wrote: > I had exactly the same thought as John—that this was a table of shadow > lengths in the form that Bede gives in the 7th century. > Sara > > > Sara J. Schechner, Ph.D. > David P. Wheatland Curator of the Collection of Historical Scientific > Instruments > Department of the History of Science, Harvard University > Science Center 251c, 1 Oxford Street, Cambridge, MA 02138 > Tel: 617-496-9542 | Fax: 617-496-5932 | sche...@fas.harvard.edu > http://www.fas.harvard.edu/~hsdept/chsi.html > > > > From: sundial-boun...@uni-koeln.de [mailto:sundial-boun...@uni-koeln.de] On > Behalf Of JOHN DAVIS > Sent: Wednesday, March 09, 2011 5:13 AM > To: Sundial Mailing List; Bill Gottesman > Subject: Re: A 14th century sundial question from France. > > Hi Bill (and other dialling colleagues), > > The data that you show looks very similar to the Venerable Bede's shadow > length tables (though the values are slightly different). This gives the > length of a person's shadow on the assumption that their height is equal to > six of their own feet (tall people generally have big feet!). But the hours > are probably not the modern equal ones. > > This topic will be discussed in some detail in the forthcoming June issue of > the BSS Bulletin. A reason for the inaccuracies will be proposed, together > with a rather more accurate version of the same table, to be found in an > Anglo-Saxon manuscript. > > Regards, > > John > - > > Dr J Davis > Flowton Dials > > --- On Wed, 9/3/11, Bill Gottesman wrote: > > From: Bill Gottesman > Subject: A 14th century sundial question from France. > To: "Sundial Mailing List" > Date: Wednesday, 9 March, 2011, 1:06 > > Richard Kremer, the Dartmouth physics professor who brought the ~1773 > Dartmouth Sundial to display at the NASS convention this past summer, asked > me the following question. I have done a bit of modelling on it, and have > not been able to supply a satisfactory answer. Is anyone interested in > offering any insight? My hunch is that the astronomer who wrote this guessed > at many of these numbers, and that they will be estimates at best for > whatever model they are based on. I have tried to fit them to antique, > equal, and Babylonian hours, without success. In 1320, the equinoxes occured > around March and Sept 14 by the Julian Calendar, as best I can tell, and that > doesn't seem to help any. > > -Bill > --- > I've got a sundial geometry question for you and presume that either you, or > someone you know, can sort it out for me. > > A colleague has found a table of shadow lengths in a medieval astronomical > table (about 1320 in Paris). The table gives six sets of lengths, for > 2-month intervals, and clearly refers to some kind of gnomon that is casting > the shadows. The manuscript containing this table of shadow lengths appears > in a manuscript written by Paris around 1320 by John of Murs, a leading > Parisian astronomer. I don't know whether Murs himself composed the table or > whether he found it in some other source. The question is, what kind of dial > is this. A simple vertical gnomon on a horizontal dial does not fit the > data, which I give below. > > Dec-Jan > hour 1 27 feet > hour 2 17 feet > hour 3 13 feet > hour 4 10 feet > hour 5 8 feet > hour 6 [i.e., noon] 7 feet > > Nov-Feb > 1 26 > 2 16 > 3 12 > 4 9 > 5 7 > 6 6 > > Oct-Mar > 1 25 > 2 15 > 3 11 > 4 8 > 5 6 > 6 5 > > Sept-Apr > 1 24 > 2 14 > 3 10 > 4 7 > 5 5 > 6 4 > > Aug-May > 1 23 > 2 13 > 3 9 > 4 6 > 5 4 > 6 3 > > Jul-Jun > 1 22 > 2 12 > 3 8 > 4 5 > 5 3 > 6 2 > > Note that in each set, the shadow lengths decrease in identical intervals > (-10, -4, -3, -2, -1). This might suggest that the table is generated by > some rule of thumb and not by exact geometrical calculation, for by first > principles I would not expect these same decreasing intervals to be found in > all six sets! > > I started play
RE: A 14th century sundial question from France.
I had exactly the same thought as John-that this was a table of shadow lengths in the form that Bede gives in the 7th century. Sara Sara J. Schechner, Ph.D. David P. Wheatland Curator of the Collection of Historical Scientific Instruments Department of the History of Science, Harvard University Science Center 251c, 1 Oxford Street, Cambridge, MA 02138 Tel: 617-496-9542 | Fax: 617-496-5932 | sche...@fas.harvard.edu http://www.fas.harvard.edu/~hsdept/chsi.html From: sundial-boun...@uni-koeln.de [mailto:sundial-boun...@uni-koeln.de] On Behalf Of JOHN DAVIS Sent: Wednesday, March 09, 2011 5:13 AM To: Sundial Mailing List; Bill Gottesman Subject: Re: A 14th century sundial question from France. Hi Bill (and other dialling colleagues), The data that you show looks very similar to the Venerable Bede's shadow length tables (though the values are slightly different). This gives the length of a person's shadow on the assumption that their height is equal to six of their own feet (tall people generally have big feet!). But the hours are probably not the modern equal ones. This topic will be discussed in some detail in the forthcoming June issue of the BSS Bulletin. A reason for the inaccuracies will be proposed, together with a rather more accurate version of the same table, to be found in an Anglo-Saxon manuscript. Regards, John - Dr J Davis Flowton Dials --- On Wed, 9/3/11, Bill Gottesman mailto:billgottes...@comcast.net>> wrote: From: Bill Gottesman mailto:billgottes...@comcast.net>> Subject: A 14th century sundial question from France. To: "Sundial Mailing List" mailto:sund...@rrz.uni-koeln.de>> Date: Wednesday, 9 March, 2011, 1:06 Richard Kremer, the Dartmouth physics professor who brought the ~1773 Dartmouth Sundial to display at the NASS convention this past summer, asked me the following question. I have done a bit of modelling on it, and have not been able to supply a satisfactory answer. Is anyone interested in offering any insight? My hunch is that the astronomer who wrote this guessed at many of these numbers, and that they will be estimates at best for whatever model they are based on. I have tried to fit them to antique, equal, and Babylonian hours, without success. In 1320, the equinoxes occured around March and Sept 14 by the Julian Calendar, as best I can tell, and that doesn't seem to help any. -Bill --- I've got a sundial geometry question for you and presume that either you, or someone you know, can sort it out for me. A colleague has found a table of shadow lengths in a medieval astronomical table (about 1320 in Paris). The table gives six sets of lengths, for 2-month intervals, and clearly refers to some kind of gnomon that is casting the shadows. The manuscript containing this table of shadow lengths appears in a manuscript written by Paris around 1320 by John of Murs, a leading Parisian astronomer. I don't know whether Murs himself composed the table or whether he found it in some other source. The question is, what kind of dial is this. A simple vertical gnomon on a horizontal dial does not fit the data, which I give below. Dec-Jan hour 1 27 feet hour 2 17 feet hour 3 13 feet hour 4 10 feet hour 5 8 feet hour 6 [i.e., noon] 7 feet Nov-Feb 1 26 2 16 3 12 4 9 5 7 6 6 Oct-Mar 1 25 2 15 3 11 4 8 5 6 6 5 Sept-Apr 1 24 2 14 3 10 4 7 5 5 6 4 Aug-May 1 23 2 13 3 9 4 6 5 4 6 3 Jul-Jun 1 22 2 12 3 8 4 5 5 3 6 2 Note that in each set, the shadow lengths decrease in identical intervals (-10, -4, -3, -2, -1). This might suggest that the table is generated by some rule of thumb and not by exact geometrical calculation, for by first principles I would not expect these same decreasing intervals to be found in all six sets! I started playing with the noon shadow lengths at the solstices, looking for a gnomon arrangement that yields equal lengths of the gnomon for shadow lengths of 7 (Dec) and 2 (Jun) units. If you assume the dial is horizontal and you tilt the gnomon toward the north by 55 degs, my math shows that you get a gnomon length of 2.16 units. I assume that Paris latitude is 49 degs and the obliquity of the ecliptic is 23.5 degs (commonly used in middle ages). I'm too lazy to figure out the shadow lengths for the other hours of the day with a slanted gnomon, and presume that you have software that can easily do that. Would you be willing to play around a bit with the above lengths and see if you can determine what gnomon arrangement might yield these data? Perhaps the dial is vertical rather than horizontal? In any case, the data are symmetrical, so the gnomon must be in the plane of the meridian. Knowing that you like puzzles, I thought I'd pass this one on to you. If you don't have time for it, don't worry. This is not the most
Re: A 14th century sundial question from France.
Hi Bill (and other dialling colleagues), The data that you show looks very similar to the Venerable Bede's shadow length tables (though the values are slightly different). This gives the length of a person's shadow on the assumption that their height is equal to six of their own feet (tall people generally have big feet!). But the hours are probably not the modern equal ones. This topic will be discussed in some detail in the forthcoming June issue of the BSS Bulletin. A reason for the inaccuracies will be proposed, together with a rather more accurate version of the same table, to be found in an Anglo-Saxon manuscript. Regards, John - Dr J Davis Flowton Dials --- On Wed, 9/3/11, Bill Gottesman wrote: From: Bill Gottesman Subject: A 14th century sundial question from France. To: "Sundial Mailing List" Date: Wednesday, 9 March, 2011, 1:06 Richard Kremer, the Dartmouth physics professor who brought the ~1773 Dartmouth Sundial to display at the NASS convention this past summer, asked me the following question. I have done a bit of modelling on it, and have not been able to supply a satisfactory answer. Is anyone interested in offering any insight? My hunch is that the astronomer who wrote this guessed at many of these numbers, and that they will be estimates at best for whatever model they are based on. I have tried to fit them to antique, equal, and Babylonian hours, without success. In 1320, the equinoxes occured around March and Sept 14 by the Julian Calendar, as best I can tell, and that doesn't seem to help any. -Bill --- I've got a sundial geometry question for you and presume that either you, or someone you know, can sort it out for me. A colleague has found a table of shadow lengths in a medieval astronomical table (about 1320 in Paris). The table gives six sets of lengths, for 2-month intervals, and clearly refers to some kind of gnomon that is casting the shadows. The manuscript containing this table of shadow lengths appears in a manuscript written by Paris around 1320 by John of Murs, a leading Parisian astronomer. I don't know whether Murs himself composed the table or whether he found it in some other source. The question is, what kind of dial is this. A simple vertical gnomon on a horizontal dial does not fit the data, which I give below. Dec-Jan hour 1 27 feet hour 2 17 feet hour 3 13 feet hour 4 10 feet hour 5 8 feet hour 6 [i.e., noon] 7 feet Nov-Feb 1 26 2 16 3 12 4 9 5 7 6 6 Oct-Mar 1 25 2 15 3 11 4 8 5 6 6 5 Sept-Apr 1 24 2 14 3 10 4 7 5 5 6 4 Aug-May 1 23 2 13 3 9 4 6 5 4 6 3 Jul-Jun 1 22 2 12 3 8 4 5 5 3 6 2 Note that in each set, the shadow lengths decrease in identical intervals (-10, -4, -3, -2, -1). This might suggest that the table is generated by some rule of thumb and not by exact geometrical calculation, for by first principles I would not expect these same decreasing intervals to be found in all six sets! I started playing with the noon shadow lengths at the solstices, looking for a gnomon arrangement that yields equal lengths of the gnomon for shadow lengths of 7 (Dec) and 2 (Jun) units. If you assume the dial is horizontal and you tilt the gnomon toward the north by 55 degs, my math shows that you get a gnomon length of 2.16 units. I assume that Paris latitude is 49 degs and the obliquity of the ecliptic is 23.5 degs (commonly used in middle ages). I'm too lazy to figure out the shadow lengths for the other hours of the day with a slanted gnomon, and presume that you have software that can easily do that. Would you be willing to play around a bit with the above lengths and see if you can determine what gnomon arrangement might yield these data? Perhaps the dial is vertical rather than horizontal? In any case, the data are symmetrical, so the gnomon must be in the plane of the meridian. Knowing that you like puzzles, I thought I'd pass this one on to you. If you don't have time for it, don't worry. This is not the most important problem currently facing the history of astronomy! Best, Rich --- https://lists.uni-koeln.de/mailman/listinfo/sundial --- https://lists.uni-koeln.de/mailman/listinfo/sundial
