Talk:Napier's bones
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Moved temporary article
[edit]moved temporary article out of main namespace — Preceding unsigned comment added by Cyan (talk • contribs) 02:28, 18 September 2003 (UTC)
Translation of "juego"
[edit]Note: you should modify "game of rods" with "set of rods" -- wrong translation of Spanish "juego". --216.177.2.208 13:00, 17 June 2004 (UTC)
"Division" section
[edit]I revised the "Division" section. Someone want to check it for accuracy? There was essentially no info after translation to work from, so I had to follow the diagram. Tigerattack 19:50, 23 June 2004 (UTC)
Description of physical bones
[edit]Napier's bones are three dimensional, square in cross section, with four different rods engraved on each one. A set of such bones might be enclosed in a convenient carrying case. The surface of the rod is divided into 9 squares, and each square, except for the top one, is divided into two halves by a diagonal line. In the first square of each rod a single-digit number is written, and the other squares are filled with double, triple, quadruple and so on until the last square contains nine times the number written in the top square. The digits of each product are written one to each side of the diagonal and in those cases in which they are less than 10, they are written in the lower square, writing a zero in the top square. A set consists of 9 rods corresponding to digits 1 to 9. In the figure the rod 0 has been represented; although for obvious reasons it is not necessary for calculations. — Preceding unsigned comment added by 203.131.154.109 (talk) 14:04, 5 July 2004 (UTC)
Addition picture
[edit]Is that addition picture correct? It starts out adding the two digits on the diagonal (staring on the right) but somewhere in the middle starts duing something else. What? Rmhermen 17:08, 2 August 2004 (UTC)
- The original explanation omitted to mention carry-over, which I have now included. -- Picapica 08:40, 29 March 2005 (UTC)
Some random info
[edit]Napier termed the so-called card abacus a promptuary, so I'd like to suggest this word may be a more accurate title for that section.
For what it's worth, a pdf scan of the original Rabdologiæ can be found archived here at the Computer History Museum.
My understanding is that this book has basically three interesting ideas -- the bones, the promptuary, and a trick to do binary arithmetic (including multiplication and division.)
The binary arithmetic stuff might be nice to include in this entry, there's an explanation of some of the operations at http://courses.cs.vt.edu/~cs1104/Napier/Chessboard.html
Best regards, -kb — Preceding unsigned comment added by 69.110.26.29 (talk) 23:19, 15 September 2004 (UTC)
Division error
[edit]There's a mistake on the line for the "multiply by 7" term.
It should be 771448 rather than 761448.
With that correction, the rest of the calculation comes out to be 485 with a remainder of 16364. The method provides (the exact) quotient and remainder, so the note about "...not the exact value..." etc shouldn't be there, and the solution could be be written as .
Best regards, -kb — Preceding unsigned comment added by 69.110.26.29 (talk) 00:03, 16 September 2004 (UTC)
I went ahead and corrected the arithmetic and added a short paragraph showing
how you can find a decimal answer instead of fractions. Also, changed
a label in the first diagram to "set of rods" per the first posters
suggestion.
I couldn't find a good match for the existing fonts, so if someone can put up a more consistent picture, that'd be great.
--Kbs 16:52, 17 September 2004 (UTC)
Square root explanation
[edit]I'm starting to rewrite the section on square roots, you can see my current efforts at my user page. I've decided to redo it from scratch, for one thing I think it is simpler to start with the technique and add the theory later. Also, the original bones actually have three columns on the square root bone, and that isn't clear from the current images.
Please let me know what you think at my talk page.
--Kbs 08:43, 30 October 2004 (UTC)
I've now rewritten the section on square roots, I hope
it is more useful than what used to be there!
It would be great if someone is able to make images for the various boards to make the article look more consistent. In any case, this perl code is what I use to generate the tables. I add a few attributes to its output as needed to customize the table.
my @x = (1,3,6,7,9,8); print '{| border="1" cellpadding="2" cellspacing="0" align=left'; print "\n! "; for my $i (@x) { print " || $i"; } print "|| √ || \n"; for (my $n=1; $n<=9; $n ) { my $rtot = 0; print "|- align=right\n| '''$n'''"; for my $i (@x) { my $d0 = $i*$n; my $d1 = ($i*$n - $d0)/10; print " || <sup>$d1</sup>/<sub>$d0</sub>"; $rtot = $rtot*10 $i*$n; } my $d0 = $n*$n; my $d1 = ($n*$n - $d0)/10; my $d2 = $n*2; if ($d2 < 10) { $d2 = " $d2"; } $rtot = $rtot*10 $n*$n; print " || <sup>$d1</sup>/<sub>$d0</sub> $d2 $n"; #print " || ''$rtot''"; #uncomment to get the value column print "\n"; } print "|}\n";
--Kbs 22:45, 5 November 2004 (UTC)
Updates from the Spanish entry
[edit]Guillermo just pointed out to me that he's been updating the spanish entry on Napier's bones.
It contains a new section for cube roots (which I'd started to write as well) and it also has corrected images for the division step as well as images for the four sides of the rods, and so on.
Unfortunately, I don't understand Spanish, but from the little I could follow from his pictures and equations, his edits look very useful, and moreover it will stay consistent with the rest of the entry since everything else comes from there anyway.
I'll leave in my efforts for now, but my vote is that if or when someone does translate his entry, it be used to replace the square root (and maybe the cube root if I get around to it) sections.
--Kbs 03:55, 8 November 2004 (UTC)
Parent article: Rabdology
[edit]This article is getting a bit big, and I'm hoping that eventually there will be more information on the promptuary (called here the card abacus) and location arithmetic from Rabdology.
It doesn't seem right to put all this in the same entry, so I've started a parent page on Rabdology and created Template:Rabdology with links to Napier's bones and stubs for separate entries for the promptuary and location arithmetic.
Please let me know if this is nuts or reasonable. If noone objects and the promptuary entry does get expanded, I'll remove the card abacus section from here.
--Kbs 07:42, 25 November 2004 (UTC)
Pen & paper?
[edit]How is this method better than just using pen & paper? The latter seems much easier to me. 82.139.85.33 20:42, 20 August 2006 (UTC)
- At least for multiplication, you seem to have a point (it's not much harder to just do place-by-place mutiplication by hand). On the other hand, while I don't know about calling them "better" (that's such a subjective word), the bones do make things like division, or especially calculation of square or cube roots, much simpler from a pure grunge-work standpoint. This seems to be drifting a little offtopic (the article is about a technique that, for better or worse, was in fact used), but I hope it answers your question. —Ryan McDaniel 22:53, 30 September 2006 (UTC)
Maybe these devices were used by people that were less arithmetically gifted, but meanwhile needed to crunch a lot of data. alex (talk) 21:33, 8 August 2017 (UTC)
It looks like it would be paired with an abacus to keep the intermediate results. Then the user could do multi-digit multiplication only knowing how to do addition on an abacus. That said, multiplication on the abacus alone isn't a lot more effort (memorizing multiplication table up to 9). Rmed (talk) 01:13, 27 September 2017 (UTC)
Two digit multiplication
[edit]How would one solve a two digit multiplication equation on the Napier's bones. For example; 30 x 367!? — Preceding unsigned comment added by 69.250.210.249 (talk) 23:49, 16 May 2007 (UTC)
I have a proposed replacement for the multiplication section. I explain 3 different examples with increasing difficulty. If someone would take a look at it on my page and let me know if this would be a valuable replacement to submit, that would be much appreciated. I tried to gear the examples to be taught to somebody who only has simple math abilities. --Mopedmeredith (talk) 01:53, 9 October 2013 (UTC)
Napier's Abacus
[edit]I've been reading Knotted Doughnuts and Other Mathematical Entertainments (1986) by Martin Gardner. In it he describes an abacus by Napier that's related to moving pieces on a chessboard rather than the card based one mentioned in this article. He calls it one of the earliest binary computers (though Napier didn't realize at the time apparently)
Is this the right place to collect that info? —Preceding unsigned comment added by Lot49a (talk • contribs) 18:53, 24 April 2008 (UTC)
There's already a separate entry for this -- see Location_Arithmetic which is also referenced at the head of this article under the "computing devices in Rabdology" block.
Cheers, --Kbs (talk) 20:45, 22 May 2008 (UTC)
History of their use?
[edit]There is absolutely nothing in the article on, e.g., how, when, and by whom they were used, how widespread they were, when they arrived in different parts of the world, etc. It would be nice to get some info on this. -- 92.229.88.194 (talk) 13:25, 25 March 2010 (UTC)
- As you can tell from the article itself, it's too much a how-to. I'll do a search for the history in the morning, and see if there's a way to remove the "This is how you do it" from this. --JB Adder | Talk 13:39, 14 April 2013 (UTC)
The article has a note complaining that it is a "how-to", and that how-to's are not appropriate. Frankly, I don't think it's possible to understand this topic at all without a how-to. I would say that the article is good as is and shouldn't be changed. — Preceding unsigned comment added by 2601:A:4C0:5E3:0:0:0:9E97 (talk) 16:42, 4 June 2015 (UTC)
Division Terminology
[edit]im terrible at maths, terrible, but i understood how to do the multiplication here with ease, but when it came to the division section, i came across words i didnt understand. words like divisor, products, dividend, partial products, truncated dividend, quotient, truncate, and a few more. i feel that without hyperlinks to pages explaining these words, people with no knowledge of the terminology, or people just learning, are going to be put off. is there a simpler way to explain it, without using these words. not every one that views these pages will know what half the terminology means, people like young kids, who are here to learn about napiers bones for an assignment at school for example. basically, is theer a lamens way to explain the division. the multiplaction explanation was so simple, why the heck isnt the division one as user freindly? — Preceding unsigned comment added by D0S81 (talk • contribs) 19:43, 6 June 2016 (UTC)
Using the same digit(s) more than once
[edit]How would one go about multiplying 343 by 5 for example ? — Preceding unsigned comment added by 103.224.131.1 (talk) 10:47, 9 November 2016 (UTC)
- Good question! alex (talk) 21:39, 8 August 2017 (UTC)
- I believe I have now covered that point. Gnomon (talk) 23:27, 12 March 2020 (UTC)
repeating digits?
[edit]The examples cleverly avoid the case of repeating digits. This issue has been mentioned higher, but nobody seems to lnow the answer... alex (talk) 19:09, 9 August 2017 (UTC)
- People serious about computing with these would have a large set including several copies of each digit rod. You can see in the image of the "18th century" set that each "rod" can be rotated to take any digit value, so repeating digits would not have been a problem. Staecker (talk) 10:33, 15 August 2017 (UTC)
- There’s a clear answer to this question but it is not explained in the article. Napier carefully designed his set of 10 rods so that there were four copies of the table for each digit, allowing any number of four digits to be multiplied. I’ll try and put this into the entry. - Gnomon42, 28 Feb 2020
- I've added that to the entry now. The set of 10 rods has four copies of the table for each digit 0 - 9, so a number with repeated digits can be represented as easily as any other 4-digit number. Gnomon (talk) 15:43, 5 March 2020 (UTC)
Simplify explanation of Square Root example
[edit]In the section describing how Napier's bones are used to calculate a square root, the description of the method is unnecessarily verbose and not as clear as it could be. Here is the original:
"The current number on the board is 12. Add to it the first digit of 16, and append the second digit of 16 to the result. So you should set the board to 12 1 = 13 → append 6 → 136
Note: If the second column of the square root bone has only one digit, just append it to the current number on board."
Maybe something like the following is more clear?
"For evaluating the next digit, the board should be set to twice the value of the current digits. In the current example, twice 68 is 136." Jdlawlis (talk) 17:59, 18 June 2018 (UTC)
Good picture?
[edit]Any chance of a good picture for this article? The current picture is of an unusual variant of the device, not of the "bones" themselves. Does anybody have a set? Will I make one and photograph that? Gnomon (talk) 11:16, 3 March 2020 (UTC)
slide rule?
[edit]What's the relationship between Napier's bones and slide rules?
I don't see "slide rule" discussed in this article, and I don't see "Napier's bones" mentioned in the article on "slide rule".
The relationship would seem to be more intimate than implied by the minimal cross linkage between these two articles. Thanks to all who contributed to this article. DavidMCEddy (talk) 22:46, 5 September 2020 (UTC)
Bad external link
[edit]This link doesn't work, it needs Adobe Flash:
http://www.giraldi.org/nepero.html
[[User talk:Archolman|talk]] (talk) 18:35, 30 October 2021 (UTC)