General Introduction : The
State of this Site Aug. 2020.
This
website is now 14 years old : There are now in excess of 900 URLs. It is pleasing to note that at the best of
times on a monthly basis it attracted around 10,000 visitors, and in excess of
100,000 hits were made, and that more
than 1,000 files were downloaded on a daily basis to mathematicians and
students of mathematics in around 150 countries, of which the U.S. accounts for
approximately half, on a regular basis. This amounted roughly to a 500 page
book being printed from the website worldwide every 15 minutes. There was, of
course, some seasonal variation depending on semester demand. However the
Corona virus has led to quiet times and the occasional very busy times, though
after a drop in downloads last year, the current rate has risen far beyond the
usual rate; it is most unfortunate for humanity in general that this
catastrophe has happened. It has had a very bad effect on education worldwide,
and of course on tertiary education.
One of my former colleagues at Adelaide University, Ernest Hirsch,
passed away earlier in 2015, after a long and fruitful life after
arriving in
The last year has seen the completion
of my translation of Euler's Dioptricae:
vol. 1 on general principles, vol.2, on refracting and reflecting telescopes,
and vol. 3 concerning microscopes. At
present I am concerned with Euler's work on fluid flow, parts I and II of an
essential text book are complete, and work has begun on Part III, which
considers different kinds of flow; prior to this, a treatment of the analysis of continued fractions by Euler
was given, with applications to square root extraction, etc. I have now
completed Euler's Opuscula Analytica, the last text Euler completed while alive, and in which
he wished to draw attention to certain matters he considered noteworthy. I had
finished previously Lagrange's Traité de la Resolution des Équationes Numériques de
tous les Degrés , in which he tackles the resolution of numerical equations of any
degree. A few interesting and relevant commentaries from the time including one
by Vandermonde have been introduced, from the 1770's, when attempts were being
made to solve 5th order equations. In addition I have translated
E17, which is really an introduction to the theory behind arithmetical
calculations; the applications are presented a little later, relating to
business calculations , exchange rates and so on. This I have not translated so
far. I have recently finished E33, which is a tentative mathematical theory of
music, produced by Euler in his early
days.
A
number of authors both of books and papers have made reference to this website,
all of whom I would like to thank for their favorable mentions. Occasionally
people ask me about actual books of the translated material: none are available
from me at present, and the free translation message at the top of each page is
an attempt to stop others from attempting the same business, without doing any
of the work; occasionally somebody
writes to tell me how much they enjoy the mathematics presented here, others
have ideas about what I should translate next. The fact that this website is so
popular and useful is my only reward, and I hope to continue my translations
for a few more years…..
The most popular files downloaded
recently not in order have been Euler's Integration
PREFACE
This site
is produced, funded, and managed by myself, Dr. Ian Bruce, now an independent
researcher or should I say mathematical hobbyist, whose aim is to provide the
modern mathematical reader with a snapshot of that wonderful period, from
roughly the year 1600 to 1750 or so, when modern analytical methods came into
being, and an understanding of the physical world was produced hand-in-hand
with this development. The work is an ongoing process : translations of Euler's
Mechanica , and his Tractus de Motu Corporum Rigidorum.....are given, as well
as his integral and differential calculus textbooks and his Introductio in
Analysin…. and Methodus
Inveniendi Lineas Curvas Maximi Minimive Gaudentes. Work on Newton's
Principia has been completed some 5 years now ; this includes notes by the
Jesuit Brothers Leseur & Jacquier from their annotated edition, and by
myself, as well as ideas from the books by Chandrasekhar, Brougham & Rouse,
etc . The traditional translates of the
Principia do not give extensive notes, if any at all. Some of
Very occasionally
someone send me an e-mail, for which they have to decipher my address so
constructed to avoid tedious junk mail,
concerning things they are not happy about in the text, and their
suggestions may be put in place, if I consider that they have a point. If you
feel that there is something wrong somewhere, or if you think that further clarification
on some point can be provided, please
get in touch via the e-mail link below. On the other hand, if you are pleased
with the translations, feel free to tell me so. The amount of labour spent on a
given translation suffers from the law of diminishing returns, i.e. more and
more has to be done in revision to extract fewer and fewer errors. Happy
browsing! IAN BRUCE. Nov. 2020.
Feel free to contact me for any relevant reason as discussed ;
my email address at present is :
ian.bruce@ace.net.au
Latest addition
June 21th , 2021:
This is the start of a truly mammoth book
running to some 1250 pages. At present only Books I, II, & III have been
translated here. The work received a lukewarm reception at the time (1647) as
Gregorius asserted that he could square the circle, as the title indicates.
However, there is a place for this work in the history of mathematics, as it
was one of the forerunners of the theory of integration, and the natural
logarithm was developed from geometic progressions applied to hyperbolic
segments - though the present work does not extend this far.
The
introduction to Conic Sections, the Prolegomena, is now presented here in
addition to Books 1, 2, & 3; Gregorius has made a slightly different
classification of cones than that of the Ancients, which is presented here and
compared with those. In addition, Book 3 of Gregorius' work Quadrature of the Circle is now
complete.This book is concerned with the further development of classical Greek
geometry applied to circles. It is some time since Books 1 and 2 appeared, and
the method of presentation has evolved a little since then, so that the current
method of presentation has been adopted.
book1: Proportions between line segments ; book2: Geometrical Progressions ;
book3:
Circles ; Prolegomena ; ellipse part 1 : by clicking here
Euler spent
some time showing how to produce theorems relating to the expansion of
trigonometric functions of some multiple of an angle raised to some power as
series involving simple sines and cosines of angles, such as in e246.pdf presented
here. In addition we now have e061.pdf, in which a new method is found for expanding the product
of p with the sines and cosines of any angles as infinte series
of the powers of the reciprocals of
whole numbers .
Recent
Euler works such as the recent Optics are now to be accessed from the Euler
works below.
Contents.
Lagrange
Work: 'Traité
de la Resolution des Équations Numériques de tous les Degrés' is available now complete. Including
Notes I-XIV; E30, E282, and Vandermonde's Resolution of Equations are
presented: link here
Mirifici Logarithmorum Canon Descriptio..... (1614), by John Napier. This seminal work by Napier
introduced the mathematical world to the wonders of logarithms, and all in a
small book of tables. Most of the book, apart from the actual tables, is a
manual for solving plane and spherical triangles using logarithms. Included are
some interesting identities due to Napier. Jim Hanson's work on Napier's
Promptuary and Bones is in place here, with a few other items in the Napier
index; note by R. Burn; Link to the contents document by clicking here. You may need to refresh your browser
as some files have been amended.
Mirifici
Logarithmorum Canon Constructio... (1617); A posthumous work by John Napier. This book along with the
above, started a revolution in computing by logarithms. The book is a 'must
read' for any serious student of mathematics, young or old. Link to the contents document by clicking here.
De Arte Logistica (1617); A posthumous work by John Napier published by descendent Mark Napier, in 1839. This book sets out the rules for elementary arithmetic and algebra: the first book also presents an interesting introduction to the method of extracting roots of any order, using a fore-runner of what we now call Pascal's Triangle. The second and third books are now also complete. Link to the contents document by clicking here.
Arithmetica Logarithmica, (1624), Henry Briggs. The theory and practice of base 10 logarithms is presented for the first time by Briggs. Link to the contents document by clicking here.
Trigonometria Britannica, (1631), Henry Briggs. The methods used for producing a set of tables for the sine, tangent, and secant together with their logarithms is presented here. The second part, by Henry Gellebrand, is concerned with solving triangles, both planar and spherical. Latin text provided in Gellebrand's sections only. Link to the contents document by clicking here.
Angulares Sectiones, (1617), Francisco Vieta. Edited and presented by Alexander Anderson. Vieta's fundamental work on working out the relations between the sine of an angle and the sine of multiples of the angle is set out in a laborious manner. No Latin text provided. Link to the document by clicking here. It is 25 pages long!
Artis Analyticae Praxis, (1631), 'from the posthumous notes of the philosopher and mathematician Thomas Harriot' , (edited by Walter Warner and others, though no name appears as the author), ' the whole described with care and diligence.' The almost trivial manner in which symbolic algebra was introduced into the mathematical scheme of things is still a cause for some wonder; it had of course been around in a more intuitive form for a long time prior to this publication. Link to the contents document by clicking here.
Optica Promota, (1663), James Gregory. Herein the theory of the first reflecting telescope and a whole theory for elliptic and hyperbolic lenses and mirrors is presented from a geometrical viewpoint. Link to the contents document by clicking here.
A start is made here to
translating Leibniz's
papers that introduced differential calculus to the world, by means of an
extended series of articles in the Acta Eruditorum (AE). At present AE1, AE3,
AE3a, AE4, AE5 AE6, AE7, AE8, AE9,
AE10, AE11, AE13, AE14, AE18 & AE19 are available; Link to the contents document by clicking here.
Some Euler Papers solving problems relating to isochronous and brachistochrone curves are presented in E001 and E003; a dissertation on sound in E002; Euler's essay on the location and height of masts on ships E004; while reciprocal trajectories are considered in E005 (1729); E006 relates to an application of an isochronous curve; E007 is an essay on air-related phenomena; E008 figures out catenaries and other heavy plane curves; E009 is concerned with the shortest distance between two points on a convex surface; E010 introduces the exponential function as an integrating tool for reducing the order of differential equations; E011 is out of sequence, concerns transformations of differential equations; Ricatti's 1724 paper on second order differential equations is inserted here; E012 & E013 are concerned with tautochrones without & with resistance; E014 is an astronomical calculation; all due to Leonard Euler. E019, E020, E21, E22, E025, E026, E036 E054, & E134 & Fermat letter to Wallis, E031, E041, E044, and E045 are present also, some of which are referred to in the Mechanica;E279 concerned with a general quadratic being a perfect square; E071, E281concerning continued fractions and E323, also E736. Also papers by Lexell and Euler tr. by J. Sten appear here incl. E407 recently, and translations of E524, E842 & E81 by E. Hirsch. Lately I have translated Euler's contributions to the theory of sound: E305, E306, E248 & E307 are now available. E281 has now been added to the general Euler papers . E279 has now been translated, relating to the general quadratic being a perfect square to be found below; following on from this, E323 has been added, which provided a new algorithm for solving Pell type equations. In addition, E071 , Euler's incredible paper on continued fractions, has just been finished , and can be found. I have just finished E036, which is concerned with an exposition of the Chinese Remainder Theorem, where a number is to be found from the remainders given by certain divisors. Two papers on fluids are now included, E258 and part 1 of E396 . Link to the contents document by clicking here.
Euler: E33 : A Tentative Exposition of a new Theory of
Music…., the whole work, Ch.1-Ch.14,
is now complete. link here.
Euler : E17 : The complete Ch.1- Ch.9 of Euler's arithmetic text are available for download. link here
My translation of E015, Book I of Euler's Mechanica has been completed. This was Euler's first major work running to some 500 pages in the original, and included many of his innovative ideas on analysis. This is a complete translation of one of Euler's most important books. Link to the contents document by clicking here.
My translation of E016,
Book 2 of Euler's Mechanica has also been
completed; this is an even longer text than the above. Both texts give a
wonderful insight into Euler's methods, which define the modern approach to
analytical mechanics, in spite of a lack of a proper understanding at the time
of the conservation laws on which mechanics is grounded. Link to the contents document by clicking here.
The translation of
Euler's next major contribution to mechanics is now complete (E289); this
contains the first definition of the moment of inertia of a body, and also
develops the mathematics of adding infinitesimal velocities about principal
axes: Theoria Motus Corporum Solidorum seu Rigida.
Link to the contents document by clicking here.
A
translation of Euler's Foundations of Integral Calculus now has volumes I, II, III, & IV
complete. Supplements 1, 2, comprising E670, 3a is E421, 3b is E463, 3c, E321
; 4a, 4b; 5a, 5b, 5c, 5d & 5e; 6 &7, comprising E59, E588
& E589 ; E675 &
E640 ; E595; E391; E581; Supp. 8a &
8b, E506 & E676; Supp. 9 & 10, E677, E678, E679, E680,
and E681, while Supp. 11 consisting of E420,
are presented in
Vol. IV, attached to the end of Vol. III. You can access these by clicking: Link to volume I or Link to volume II , or Link to volumes III & IV
A
translation of Euler's Foundations of Differential
Calculus is now complete. You can access these by clicking: Link to DifferentialCalculus .
A translation of
Euler's Introduction to Infinite Analysis is now
complete with Appendices 1-6 on the nature of surfaces. You can access all of
Volumes I and 2 by clicking: Link to Analysis Intro .
A
translation of Euler's Methodus
Inveniendi Lineas Curvas Maximi Minimive Gaudentes……… is now complete, i.e. the Foundations of the Calculus of Variations, and
includes E296 & E297, which explain rather fully the changed view adopted
by Euler. You can access it by clicking: Link toMaxMin.
A translation of
Euler's
translation of Robins' work on gunnery, with remarks, Neue Gründsatze der Artellerie , has now completed; including E853, which is of some
interest. You can access it by clicking: Link to Neue Gründsatze.
An early translation of Euler's Letters to a German Princess E343, is presented here in mostly subject bundles. These 233 little essays give a rare insight into Euler's mind, and to the state of physics in the 1760's. Link to the contents vol.1 document by clicking here.
Link to the contents vol.2 document by clicking here.
The translation of Euler's ALGEBRA is now complete ; Link to the contents here .
The
translation of Euler's Opuscula
Analytica Vol. I is now complete ; being E550
to E562 inclusive, together with E19
and E122 ; the sections of Vol. II E586,
E587, E588&9, E590, E591, E783, E592, E595 [E594 is already present
as Supp. 5e in Vol. IV of the Integral calculus] , E596, E597, &E598, E599, & E600 are also
presented in the same contents folder as a direct follow-on. Link to the
contents here .
A complete translation of Books I & II of Euler's Dioptrics…., E367 &
E386 is
now provided here, including the Appendices. link here.
The translation
of the final chapter of Book 3 of Euler's Dioptrics….,
E404, concerning microscopes is now
complete .
link here.
Having finished with Euler's Optics for the time being, it seemed to be a good idea to present an English language version of Gauss's famous paper, which established the beginning of modern lens optics, his Dioptrische Untersuchungen or Optical Investigations. link here.
Euler's Ideal Fluids:
Euler spent some time occasionally
investigating the theory of ideal fluids, at a time when the physical
properties of liquids such as viscosity and surface tension were not fully
understood; such ideal fluids were ideally suited to a calculus based investigation.
link here.
My new translation of Newton's Principia is now complete; this translation
includes resetting of all the original type, new diagrams, and additional notes
from several sources; an earlier annotated translation of Section VIII of Book
II of Newton's Principia on sound is now included in the main flow of the text,
which helps in understanding Euler's work De Sono. Link to the contents document by clicking here.
An annotated translation of Johan. Bernoulli's
Vibrations of Chords is presented. Link to the contents document by clicking
here.
A new translation of Daniel Bernoulli's Hydrodynamicae
is now complete. Link to the contents document by clicking
here.
An annotated translation of Christian Huygens' Pendulum Clock is presented. Here you will also find the first work by Huygens on the probability of games of chance: De Ratiociniis in Ludo ALeae. Link to the contents document by clicking here.
An annotated
translation of Brook Taylor's Methodus Incrementorum
Directa & Inversa is presented. Link to the contents document by clicking here.
The Lunes of Hippocratus are extended by Wallenius in a much neglected paper presented 'pro gradu' in 1766 at the Royal Academy of Abo (Turku, in Finland); the student defending the paper was Daniel Wijnquist; a full geometrical derivation of each lune is given, followed by a trigonometric analysis. I wish to thank Johan Sten for drawing my attention to this work, and for his help in tracking down an odd reference. Link to the document by clicking here.
Ian Bruce. MAY. 27th , 2021, latest
revision. Copyright : I reserve the right to publish any translated work
presented here in book form. However, if you are a student, teacher, or just
someone with an interest, you can copy part or all of a work for legitimate
private personal or educational uses. Any other form of distribution is illegal
and has not been permitted by the author, Ian Bruce, who asserts that the
contents of this website are his intellectual property: You are NOT given the right to sell items from this website
on the web or otherwise offer 'free' to download in any shape or form, such as
e-books. Be very wary of websites that make such offers, there are a
few around, usually trying to make money out of someone else's work! This
website presents a genuine attempt to provide much mathematics lost to the
modern reader, who is unskilled in Latin. Please
acknowledge me or this website if you intend to refer to any part of these
translations in a journal publication or in a book. Feel free to
contact me for any relevant reason as discussed above ; my email address can be
extracted from :
iandotbruce@acedotnetdotau .