Pat'sBlog

Monday, 5 January 2026

A problem with carries, and a solution

Cliff Pickover@pickover is one of many people who pointed out that (111,111,111)2 = 12,345,678,987,654,321 the first nine multiples of 1 rising and falling. If you try that with twos, it won’t work because of the carries, 2222^2 = 4937284.

I had thought, from reading Dickson’s History of the theory of Numbers that this little tidbit first appeared in The Gentleman’s Diary in 1810 by a man named Peter Barlow who was born in 1776 in Norfolk,England,just down the road from my old teaching location on RAF Lakenheath. He was a pretty good math sci guy. Check him out on Wikipedia …. Turns out, Peter B wasn’t the first. Not by about 700 years, and I don't know that he was the first.

I recently read an old (1966) journal article about the earliest known Arabic arithmetic in its original language by a scholar whose very long name is usually shortened to al-Uqlidisi, who wrote in the tenth century. In it, he includes the above written out in nine steps beginning with 1^2=1, then 11^2 = 121 , and continuing up to the same nine digit repunit squared above. He also points out that you can also do the same with (222222222)^2, and get the sequence of multiples of 2 from 4 up to 36 and then back to 4, but he has an advantage, he wrote numerals in sexigesimal notation.

The ancient scholar also used decimals and pointed out that you can avoid the problem of the carry in base ten by inserting one or more zeros between each non-zero digit and get 20202020202020202^2 = 408121620242832363228242016120804. Try it yourself with other repdigits of nine digits, and if you get a problem with carries, just add more zeros, OR..you could use base sixty!!!

On This Day in Math - January 5

If God has made the world a perfect mechanism, He has at least conceded so much to our imperfect intellect that in order to predict little parts of it, we need not solve innumerable differential equations, but can use dice with fair success.
~Max Born

The fifth day of the year; five is the number of Platonic Solids. Five is also the smallest number of queens needed to attack every square on a standard chess board. (can you demonstrate such a board ?)

The sum of the first five integers raised to their own power, is prime,

1^{1} + 2^{2} + 3^{3} + 4^{4} + 5^{5} = 3413

(and so is the sum of the first six)

One of math's perplexing mysteries. A sphere in five dimensional space has a larger volume (8pi^2/15) than in any other dimension for a unit radius. From two dimensions up to five the volume increases, then decreases forever after.

In 1845, Gabriel Lame proved a remarkable theorem involving the number 5. "The number of steps (i.e., divisions) in an application of the Euclidean algorithm never exceeds 5 times the number of (decimal) digits in the lesser." Donald Knuth (1969) extended this to show that, this was related to the Fibonacci numbers (and

\sqrt{5}

).

and from Jim Wilder : 1084 is the smallest integer whose spelling, one thousand eighty-four, contains the 5 vowels (a, e, i, o, u) in order.

Gustav Dirichlet was a German mathematician who at the age of 20 proved that Fermat’s Last Theorem has no solution for n=5. The cases for n=3, 4 had already been handled by Euler and Fermat himself. Later on he also proved that there is no solution for the case n=14.

*Fermat's Library

There are exactly 5 triangles with integer side lengths whose perimeters and areas (disregarding units) are equal.

More Math Facts for every Year Day here.

EVENTS

1665 The first volume of the Journal des Savants appeared in Paris. The Journal des sçavans (later renamed Journal des savants), founded by Denis de Sallo, was the earliest academic journal published in Europe, that from the beginning also carried a proportion of material that would not now be considered scientific, such as obituaries of famous men, church history, and legal reports. The first edition appeared as a twelve page quarto pamphlet on Monday, 5 January 1665. This was shortly before the first appearance of the Philosophical Transactions of the Royal Society, on 6 March 1665.

Ole Rømer's determination of the speed of light was published in the journal, which established that light did not propagate instantly. It came to about 26% slower than the actual value.

*Wik

1769 On January 5, 1769, James Watt finally received the patent for his steam engine: patent 913 A method of lessening the consumption of steam in steam engines-the separate condenser. *yovisto

A preserved Watt beam engine at Loughborough University *Wik

1853 "First derivative" first used as a noun in English in "On the General Law of the Transformation of Energy" by William John Macquorn Rankine, a paper read before the Philosophical Society of Glasgow.

MacTutor has "

"FIRST DERIVATIVE, SECOND DERIVATIVE, etc. Christian Kramp (1760-1826) used the terms premiére dérivée and seconde dérivée (first derivative and second derivative) (Cajori vol. 2, page 67). The terms appear in his élémens d'arithmétique universelle (1808).

The DSB implies Joseph Louis Lagrange (1736-1813) introduced these terms in his Théorie des fonctions. It would seem, however, that he uses phrases that would be translated "first derived function" and "third derived function," etc. [James A. Landau]

First derivative is found in English in 1838 in Mathematical Treatises, Containing I. The Theory of Analytical Functions II Spherical Trigonometry, with Practical and Nautical Astronomy.

page 9: In which series, fx is the primitive, and f'x, f''x, f'''x, &c. its derivative functions; f'x being the first derivative or prime function, f''x the second derivative, &c. ....

1874 In a letter to Dedekind, Cantor asks if the points in a square can be put in one-to-one correspondence with those on a line. “Methinks that answering this question would be no easy job, despite the fact that the answer seems so clearly to be ‘no’ that proof appears almost unnecessary.” It was three years before Cantor could prove the answer was “yes”. *VFR

In 1892, the first successful auroral photograph was made by the German physicist Martin Brendel. Although it was limited to a blurred, low-contrast picture, it did convey some sense of the shape of the aurora. The task was not easy because the auroral light itself was generally feeble and flickering while photographic materials of the time required a long exposure, and was little sensitive to the deep reds in the aurora. One of his photographs, taken on 1 Feb 1892 was published in the Century Magazine of Oct 1897. Brendel had traveled to Alten Fiord, Lapland, to spend several months studying auroral displays and magnetic disturbances. The first colour pictures were not taken until about 1950, and Life magazine published colour aurora photographs in 1953.*TIS

In 1896, an Austrian newspaper, Wiener Presse, published the first public account of a discovery by German physicist Wilhelm Roentgen, the form of radiation that became known as X-rays.*TIS

Röntgen was awarded an honorary Doctor of Medicine degree from the University of Würzburg after his discovery.

First medical X-ray by Wilhelm Röntgen of his wife Anna Bertha Ludwig's hand

1900 Minkowski responds to Hilbert who had asked his opinion about several potential topics for Hilbert's address at the Second International Conference of Mathematicians in Paris, in the summer. Minkowski responds that, "Most alluring would be the attempt at a look into the future and a listing of the problems on which mathematicians should try themselves during the coming century. With such a lecture you could have people talking about your lecture decades later." *Reid, Hilbert, pg 69

Hilbert's would follow his advice and eventually publish 23 problems . They were all unsolved at the time, and several proved to be very influential for 20th-century mathematics. Hilbert presented ten of the problems (1, 2, 6, 7, 8, 13, 16, 19, 21, and 22) at the Paris conference of the International Congress of Mathematicians, speaking on August 8 at the Sorbonne.

1900 On this day Max Planck presented his theoretical explanation involving quanta of energy at a meeting of the Physikalische Gesellschaft in Berlin. In doing so he had to reject his belief that the second law of thermodynamics was an absolute law of nature, and accept Boltzmann's interpretation that it was a statistical law.

the famous Planck black-body radiation law, which described clearly the experimentally observed black-body spectrum. It was first proposed in a meeting of the DPG on 19 October 1900 and published in 1901. (This first derivation did not include energy quantisation, and did not use statistical mechanics, to which he held an aversion.) In November 1900 Planck revised this first version, now relying on Boltzmann's statistical interpretation of the second law of thermodynamics as a way of gaining a more fundamental understanding of the principles behind his radiation law. Planck was deeply suspicious of the philosophical and physical implications of such an interpretation of Boltzmann's approach; thus his recourse to them was, as he later put it, "an act of despair ... I was ready to sacrifice any of my previous convictions about physics".*Wik

1902 In a letter to his mother, Earnest Rutherford writes, “I have to keep going, as there are always people on my track. I have to publish my present work as rapidly as possible in order to keep in the race. The best sprinters in this road of investigation are Becquerel and the Curies... “ — 1st Baron Rutherford of Nelson Ernest Rutherford * Quoted in A. S. Eve, Rutherford: Being the Life and Letters of the Rt. Hon. Lord Rutherford (1939), 80.

1962 The first reference to Simula in writing is made. This early object-oriented language was written by Kristen Nygaard and Ole-John Dahl of the Norwegian Computing Center in Oslo. Simula grouped data and instructions into blocks called objects, each representing one facet of a system intended for simulation. *CHM

Simula is the name of two simulation programming languages, Simula I and Simula 67, developed in the 1960s at the Norwegian Computing Center in Oslo, by Ole-Johan Dahl and Kristen Nygaard. Syntactically, it is an approximate superset of ALGOL 60, and was also influenced by the design of SIMSCRIPT.

Pages from the DECsystem-10 SIMULA Language Handbook, as published by the Swedish National Defence Research Institute *Wik

1974 The famous grasshopper weathervane atop Faneuil Hall in Boston was found to be missing on this date.It had been removed by thieves, but later recovered. When a weather vane was fashioned for this famous trading hall of colonial Boston, the grasshopper was chosen as it appears on the crest of Sir Thomas Gresham, founder of England’s Royal Exchange. He also founded the earliest professorship of mathematics in Great Britain, the chair in Geometry at Gresham College London.*VFR Gresham created the Royal Exchange in London in 1571. It was destroyed in the Great Fire in 1666. Like Faneuil Hall, it had a grasshopper on its weather vane as well. When the modern London exchange was built, a giant golden grasshopper is on top of it as well. Several other locations have grasshopper symbols of one kind or another, like the stone carving marking the location of Garraway's coffee house, and a hanging sign on Lombard St where a goldsmith owned by Gresham was located.

The grasshopper vane on Faneul Hall was designed and built by Shem Drowne, a metalsmith from Maine who came to Boston late in the 17th Century. Three of Drowne's vanes are still in us, one on the Old North Church were famously used to signal the British mode of attack, a rooster on a vane in Cambridge, and the vane still atop Faneul Hall, after it was found wrapped in rags in the belfry where the thieves had left it.

There is even a financial Gresham's Law that is summarized as "bad money drives out good money". Gresham, more formally stated it as, "'When by legal enactment a government assigns the same nominal value to two or more forms of circulating medium whose intrinsic values differ, payments will always, as far as possible, be made in that medium of which the cost of production is least, the more valuable medium tending to disappear from circulation,"

Faneuil Hall weather vane *Wik

The Logo of Gresham College has just been restyled, but still has the grasshopper atop, ready to spring into action.

BIRTHS

1723 (Jan 5,1723 - December 6, 1788 ) Nicole-Reine Étable (de la Briere ) Lepaute was born in Paris and began to take an interest in mathematics and astronomy in around the time she married her husband Jean-André Lepaute the royal clock maker. Together with her husband she designed and constructed an astronomical clock, which was presented to the French Academy of Science in 1753. She, her husband and Lalande worked on a book entitled Traite d’horlogerie(Treatise on Clockmaking) that was published under her husbands name in 1755. Although she was not mentioned as author Lalande honoured her contribution as follows:

“Madame Lepaute computed for this book a table of numbers of oscillations for pendulums of different lengths, or the lengths for each given number of vibrations, from that of 18 lignes, that does 18000 vibrations per hour, up to that of 3000 leagues.”

Following her work with Lalande on Comet Halley, she again collaborated with him on the ephemeris for the 1761 Transit of Venus. She also collaborated with Lalande for fifteen years on the calculations for the Connaissance des temps. In 1762 she calculated the exact time for a solar eclipse that occurred on 1 April 1764. She also wrote an article on the eclipse with an eclipse map. She produced star catalogues and calculated an ephemeris of the sun, moon and the planets from 1774 to 1784. Although childless she adopted and trained he husband nephew, Joseph Lepaute Dagelet (175116788) in astronomy and mathematics. He went on to become professor of mathematics at the French Military School and later deputy astronomer at the French Academy of Science, where he had a distinguished career. A comet and a crater on the moon are named in her honour.

This post taken entirely from a longer article by Thony Christie.

1838 Camille Jordan (5 Jan 1838; 20 Jan 1922) French mathematician and engineer who prepared a foundation for group theory and built on the prior work of Évariste Galois (died 1832). As a mathematician, Jordan's interests were diverse, covering topics throughout the aspects of mathematics being studied in his era. The topics in his published works include finite groups, linear and multilinear algebra, the theory of numbers, topology of polyhedra, differential equations, and mechanics. *TIS

He is remembered now by name in a number of results:

The Jordan curve theorem, a topological result required in complex analysis

The Jordan normal form and the Jordan matrix in linear algebra

In mathematical analysis, Jordan measure (or Jordan content) is an area measure that predates measure theory

In group theory, the Jordan–Hölder theorem on composit *Wikion series is a basic result.

Jordan's theorem on finite linear groups

1871 Federigo Enriques born in Leghorn, Italy. In 1907 he and Severi received the Bordin Prize from the Paris Academy for their work on hyperelliptical surfaces. *VFR Now known principally as the first to give a classification of algebraic surfaces in birational geometry, and other contributions in algebraic geometry.*SAU

No more than other work in the Italian school would the proofs by Enriques now be counted as complete and rigorous. Not enough was known about some of the technical issues: the geometers worked by a mixture of inspired guesswork and close familiarity with examples. Oscar Zariski started to work in the 1930s on a more refined theory of birational mappings, incorporating commutative algebra methods. He also began work on the question of the classification for characteristic p, where new phenomena arise. The schools of Kunihiko Kodaira and Igor Shafarevich had put Enriques' work on a sound footing by about 1960.

*Wik

1871 Gino Fano (5 Jan 1871 in Mantua, Italy - 8 Nov 1952 in Verona, Italy) He was a pioneer in ﬁnite geometries. He created a ﬁnite geometry that is now a common classroom example. *VFR

1884 Arnaud Denjoy ( 5 January 1884, 21 January 1974) was a French mathematician. Denjoy was born in Auch, Gers. His contributions include work in harmonic analysis and differential equations. His integral was the first to be able to integrate all derivatives. Among his students is Gustave Choquet. Denjoy died in Paris in 1974.*Wik

1909 Stephen Cole Kleene (5 Jan 1909; 25 Jan 1994) American mathematician and logician whose research was on the theory of algorithms and recursive functions. He developed the field of recursion theory with Church, Gödel, Turing and others. He contributed to mathematical Intuitionism which had been founded by Brouwer. His work on recursion theory helped to provide the foundations of theoretical computer science. By providing methods of determining which problems are soluble, Kleene's work led to the study of which functions can be computed. *TIS

DEATHS

1943 George Washington Carver (1861?, 5 Jan 1943)American agricultural chemist, agronomist, and experimenter who helped revolutionize the agricultural economy of the South. Carver demonstrated to farmers how fertility could be restored to their land by diversification, especially by planting peanuts and sweet potatoes, to replenish soil impoverished by the regular growth of cotton and tobacco. He showed that peanuts contained several different kinds of oil, and peanut butter was another of his innovations. In all he is reported to have developed over 300 new products from peanuts and over 100 from sweet potatoes. For most of his career he taught and conducted research at the Tuskegee Institute, Alabama where he stayed despite lucrative offers to work for such magnates as Henry Ford and Thomas Edison. *TIS

1951 Joseph Fels Ritt (August 23, 1893–January 5, 1951) was an American mathematician at Columbia University in the early 20th century.
He is known for his work on characterizing the indefinite integrals that can be solved in closed form, for his work on the theory of ordinary differential equations and partial differential equations, for beginning the study of differential algebraic groups, and for the method of characteristic sets used in the solution of systems of polynomial equations.*Wik

1970 Max Born (11 Dec 1882, 5 Jan 1970) German physicist who shared the Nobel Prize for Physics in 1954 (with Walther Bothe), for his statistical formulation of the behavior of subatomic particles. Born's studies of the wave function led to the replacement of the original quantum theory, which regarded electrons as particles, with a mathematical description.*TIS (I was not aware until Thony Christie advised me that his granddaughter is Grammy winner Olivia Newton-John)

~Max Born

1971 Columbus O'D Iselin (25 Sept 1904, 5 Jan 1971) Columbus O'D(onnell) Iselin was an American oceanographer, born in New Rochelle, N.Y. As director of the Woods Hole Oceanographic Institution (1940-50; 1956-57) in Massachusetts, he expanded its facilities 10-fold and made it one of the largest research establishments of its kind in the world. He developed the bathythermograph and other deep-sea instruments responsible for saving ships during World War II. He made major contributions to research on ocean salinity and temperature, acoustics, and the oceanography of the Gulf Stream. *TIS

1987 Josif Zakharovich Shtokalo (16 Nov 1897 in Skomorokhy, Sokal, Galicia (now Ukraine) - 5 Jan 1987 in Kiev, Ukraine) Shtokalo worked mainly in the areas of differential equations, operational calculus and the history of mathematics. Shtokalo's work had a particular impact on linear ordinary differential equations with almost periodic and quasi-periodic solutions. He extended the applications of the operational method to linear ordinary differential equations with variable coefficients.
He is regarded as one of the founders of the history of Soviet mathematics and particularly of the history in Ukraine and articles about M Ostrogradski and H Voronoy, he edited the three volume collections of Voronoy's (1952-3) and Ostrogradski's works (1959-61), a Russian-Ukrainian mathematical dictionary (1960) and approximately eighteen other Russian-Ukrainian terminology dictionaries. *SAU

1994 Sir David Robert Bates, FRS(18 November 1916, Omagh, County Tyrone, Ireland – 5 January 1994) was an Irish mathematician and physicist.
During the Second World War he worked at the Admiralty Mining Establishment where he developed methods of protecting ships from magnetically activated mines.
His contributions to science include seminal works on atmospheric physics, molecular physics and the chemistry of interstellar clouds. He was knighted in 1978 for his services to science, was a Fellow of the Royal Society and vice-president of the Royal Irish Academy. In 1970 he won the Hughes Medal. He was elected a Foreign Honorary Member of the American Academy of Arts and Sciences in 1974.
The Mathematics Building at Queens University Belfast, is named after him. *Wik

*SAU

2013 Marie-Hélène Schwartz (1913 – 5 January 2013) was a French mathematician, known for her work on characteristic numbers of spaces with singularities.

Born Marie-Hélène Lévy, she was the daughter of mathematician Paul Lévy and the great-granddaughter of philologist Henri Weil. After studying at the Lycée Janson-de-Sailly, she began studies at the École Normale Supérieure in 1934 but contracted tuberculosis which forced her to drop out. She married another Jewish mathematician, Laurent Schwartz, in 1938, and both soon went into hiding while the Nazis occupied France. After the war, she taught at the University of Reims Champagne-Ardenne and finished a thesis on generalizations of the Gauss–Bonnet formula in 1953. In 1964, she moved to the University of Lille, from where she retired in 1981.

A conference was held in her honor in Lille in 1986, and a day of lectures in Paris honored her 80th birthday in 1993, during which she presented a two-hour talk herself. She continued publishing mathematical research into her late 80s.

2018 John Watts Young (September 24, 1930 – January 5, 2018) astronaut who was the commander of the first ever Space Shuttle mission (STS-1, 12 Apr 1981), walked on the Moon during the Apollo 16 mission (21 Apr 1972), made the first manned flight of the Gemini spacecraft with Virgil Grissom. *TIS

He is the only astronaut to fly on four different classes of spacecraft: Gemini, the Apollo command and service module, the Apollo Lunar Module and the Space Shuttle.

2024 Bernard Malgrange (6 July 1928 – 5 January 2024) was a French mathematician who worked on differential equations and singularity theory. He proved the Ehrenpreis–Malgrange theorem and the Malgrange preparation theorem, essential for the classification theorem of the elementary catastrophes of René Thom. He received his Ph.D. from Université Henri Poincaré (Nancy 1) in 1955. His advisor was Laurent Schwartz. He was elected to the Académie des sciences in 1988. In 2012 he gave the Łojasiewicz Lecture (on "Differential algebraic groups") at the Jagiellonian University in Kraków.[1] Malgrange died on 5 January 2024, at the age of 95. *Wik

Credits :
*CHM=Computer History Museum
*FFF=Kane, Famous First Facts
*NSEC= NASA Solar Eclipse Calendar
*RMAT= The Renaissance Mathematicus, Thony Christie
*SAU=St Andrews Univ. Math History
*TIA = Today in Astronomy
*TIS= Today in Science History
*VFR = V Frederick Rickey, USMA
*Wik = Wikipedia
*WM = Women of Mathematics, Grinstein & Campbell

Sunday, 4 January 2026

On This Day in Math - January 4

HP 35 calculator

The task is ... not so much to see what no one has yet seen; but to think what nobody has yet thought, about that which everybody sees.
~Erwin Schrödinger

The 4th day of the year; it is the smallest composite number. Every positive integer is the sum of at most 4 squares. There are 44 numbers in a year which can not be expressed with less than four squares. The smallest is 7, the largest is 359

The fourth power of any even number not ending in zero ends in 6, the fourth power of any odd number not ending in five have a last digit of one.

Brocard conjectured that there are at least four primes between the squares of any two consecutive primes, with the exception of 2 and 3.

For any number k, real or complex,

4 = k^{2} - (k + 1)^{2} - (k + 2)^{2} + (k + 3)^{2}

Fourth dimension has more regular "solids" than other dimensions. Euclid, in the Elements, proves that there are exactly five regular solids in three dimensions. Schläfli proves that there are exactly six regular solids in four dimensions, There are no higher dimensions with more.

The four color theorem for planes says that a map can be colored in no more that four colors with no adjacent regions the same color. On a Mobius strip, the magic number is six, and on a torus, it is seven.

EVENTS
1652-3 Seth Ward writes to Oughtred sending measurements of the “recent comet” (Dec of 1652) “Being last week at London I called on Mr. Gratorex, who shewed me a letter which he had received from you concerning the late comet, wherein you desired that he would communicate your observations to such as he should meet with, and desire them to do the like. I took the boldness, therefore, to transcribe that part of your letter which concerned it, and I have here inclosed sent you such observations as were in my absence (for I was then in a journey) made here by Mr. Rooke, and one who belongs to me. “ *De Morgan, Correspondence of Scientific Men of the Seventeenth Century.

In the 1640s, Seth took instruction in mathematics from William Oughtred, and stayed with relations of Samuel Ward.

1754 Kings College, renamed Columbia College in 1784, founded in New York City by royal charter of George II of Great Britain. Now Columbia University, it is the oldest institution of higher learning in the state of New York, the fifth oldest in the United States, and one of the country's nine Colonial Colleges founded before the American Revolution.*Wik

1803 Gauss writes to H. W. Olbers regarding the offer to move to St Petersburg. "You, my best friend, have so kindly taken an interest in my future.... so I inform you confidentially that there is no chance that I leave Germany now. Our Duke, who has always been so generous to me, is anxious to keep me here, will not agree to my leaving, and will see that I get the advantages offered by St. Petersburg. " On April 4th he would write to Fuss (Nicolas Fuss, assistant to Euler in St Petersburg,... see deaths below) to refuse the offer, and include his observation of Pallas in gratitude. (Olbers was a physician and astronomer in Bremen, and the discoverer of the asteroids Pallas (from whom Gauss got the data he shared) and in 1807 of vesta.)

1845 The Italian geometer Giusto Bellavitis (1803–1880) was appointed, via a competitive examination, full professor of descriptive geometry at the University of Padua. He held no degrees until the university awarded an honorary doctorate in philosophy and mathematics the following year. *VFR

His principle achievement, which marks his place, in the future and the present, among the names of geometers that will endure, is the invention of the method of equipollences, a new method of analytic geometry that is both philosophical and fruitful.*Wik

In 1851, The first observation by the Airy transit circle was taken on 4 January 1851, three days later than Airy had intended due to the English weather. Its importance for everyone dates from a conference held in Washington DC in 1884 to create an international time-zone system. It was agreed that the meridian line marked by the cross-hairs in the Airy Transit Circle eyepiece would indicate 0° longitude and the start of the Universal Day.*Royal Observatory Web page
The circle remained in continual use until 1938, and the last ever observation was taken in 1954.the Airy Transit Circle was first used at the Royal Observatory, Greenwich. The instrument was designed by George Biddell Airy, the Astronomer Royal. It was set up on the Prime Meridian - the north-south line of longitude 0° - which marks the start of the Universal day for the world. The time at which a star passed over the meridian was measured with a regulator (an extremely accurate clock). The transit was used to measure the angle of a star at that instant. From this data, the co-ordinates of that star could be determined and plotted on a star chart. Navigation at sea depended on the accuracy of these charts, and the Airy Transit Circle was a great improvement on the previous technology.*TIS

In 1912, the closest approach to earth by the moon was 221,441 miles apart center to center..(In 2013 the Moon will make its closest approach to the Earth (at perigee) for the year on Sunday, 23 June, at 11:11 (UTC), and at this time the Moon will be 356,989 km from the Earth. )*Bob Mrotek

1952 While still a movie actor and before he entered politics, Ronald Reagan wrote to a high school student who had asked advice on how to become a sports announcer (one of Reagan’s earlier jobs). In the letter Reagan confessed that he had a weakness in mathematics. [Eves, Return to Mathematical Circles, ◦33.] *VFR

1958 The first artificial earth satellite, the Russian Sputnik(companion) I, fell out of orbit and burned up on re-entering earth's atmosphere.

Sputnick burned out in the Earth's atmosphere on January 4, 1958, after 92 days in orbit, following its launch on October 4, 1957, decaying due to aerodynamic drag in low Earth orbit, marking the end of its 1,440 orbits and paving the way for the Space Age.*PB

1972 Hewlett-Packard introduces the HP-35, the first scientific handheld calculator and the final step in ending reliance on slide rules among scientists and students alike. The HP-35 was named for its 35 keys, weighed nine ounces, and sold for $395. One of the tests HP co-founder Dave Packard applied to the device was to throw it across his office and see if it still worked. It did. *CHM

1987 The New York Times reported that an Energy Expo in Seattle unveiled “high-tech, energy-efficient buildings. ... Some of the judges’ favorites include ... an office building with ‘parabolic’ lighting ﬁxtures designed to focus light better than ﬂat systems.” Isn’t it amazing how long it takes technology to catch up with theory? *VFR

In 2004, Spirit, a robot rover landed on Mars to analyze the planet's rocks, looking for evidence of water. It has taken the only photo of Earth from another planet. Surviving dust storms, it far outlasted its expected useful life. A twin robot rover, Opportunity, landed three weeks after Spirit on the other side of the planet.*TIS

BIRTHS

Rubens illustration of projection

1567 François d'Aguilon (also d'Aguillon or in Latin Franciscus Aguilonius) (4 January 1567 – 20 March 1617) was a Belgian Jesuit mathematician, physicist and architect.
D'Aguilon was born in Brussels. He became a Jesuit in 1586. In 1611, he started a special school of mathematics, in Antwerp, which was intended to perpetuate mathematical research and study in among the Jesuits. This school produced geometers like André Tacquet and Jean Charles della Faille.
His book, Opticorum Libri Sex philosophis juxta ac mathematicis utiles (Six Books of Optics, useful for philosophers and mathematicians alike), published in Antwerp in 1613, was illustrated by famous painter Peter Paul Rubens. It was notable for containing the principles of the stereographic and the orthographic projections, and it inspired the works of Desargues and Christiaan Huygens. *Wik

1643 Sir Isaac Newton was born in the manor house of Woolsthorpe, near Grantham in Lincolnshire. Although by the calendar in use at the time of his birth he was born on Christmas Day 1642, we give the date of 4 January 1643 which is the "corrected" Gregorian calendar date bringing it into line with our present calendar. (The Gregorian calendar was not adopted in England until 1752.) *SAU

1797 Wilhelm Beer (4 Jan 1797, 27 Mar 1850 at age 53) German banker and amateur astronomer who owned a fine Fraunhofer refractor which he used in his own a private observatory. He worked jointly with Johann Heinrich von Mädler, to produce the first large-scale moon map to be based on precise micrometric measurements. Their four-year effort was published as Mappa Selenographica (1836). This fine lithographed map provided the most complete details of the Moon's surface in the first half of the 19th century. It was the first lunar map divided in quadrants, and recorded the Moon's face in great detail detail. It was drawn to a scale of scale of just over 38 inches to the moon's diameter. Mädler originated a convention for naming minor craters with Roman letters appended to the name of the nearest large crater (ex. Egede A,B, and C).

Complete lunar map, assembled from four quadrants, Mappa selenographia, by Wilhelm Beer and Johann Mädler, lithograph, 1834 (Linda Hall Library)

1809 Louis Braille (4 Jan 1809; 6 Jan 1852) French educator who developed a tactile form of printing and writing, known as braille, since widely adopted by the blind. He himself knew blindness from the age four, following an accident while playing with an awl. In 1821, while Braille was at a school for the blind, a soldier named Charles Barbier visited and showed a code system he had invented. The system, called "night writing" had been designed for soldiers in war trenches to silently pass instructions using combinations of twelve raised dots. Young Braille realized how useful this system of raised dots could be. He developed a simpler scheme using six dots. In 1827 the first book in braille was published. Now the blind could also write it for themselves using a simple stylus to make the dots.*TIS

The first version of braille, composed for the French alphabet *Wik

1846 Edward Hibberd Johnson (4 Jan 1846; 9 Sep 1917) was an American electrical engineer and inventor. He spent many years in various business projects with Thomas Edison, including being the vice-president of the Edison Electric Light Company. Johnson created the first electric lights on a Christmas tree on 22 Dec 1882.*TIS

While he was Vice-President of the Edison Electric Light Company, he had Christmas tree bulbs especially made for him. He displayed his Christmas tree—hand-wired with 80 red, white, and blue electric light bulbs the size of walnuts—on December 22, 1882, at his home in New York City,

The story was reported in the Detroit Post and Tribune by a reporter named William Augustus Croffut.Johnson became known as the Father of Electric Christmas Tree Lights.

1848 Heinrich Suter (4 January 1848, Hedingen near Zurich, Switzerland – 17 March 1922) was a historian of science specializing in Islamic mathematics and astronomy.

Suter in his early forties learned Arabic and acquired some knowledge of Syriac, Persian and Turkish. He studied the history of mathematics and astronomy in the Islamic societies. In Moritz Cantor 's "Abhandlungen zur Geschichte der Mathematics" were published in 1892 Suter's translation of the mathematically related entries in the Kitāb al-Fihrist of Ibn al-Nadim and in 1893 Suter's translation of the mathematical parts of the catalog of the Khedivial Library in Cairo . One of his most important works is his work, commissioned by the Royal Danish Academy of Sciences, on the astronomical tables of Al-Khwarizmi .*Wik

1890 Raymond Woodard Brink (4 Jan 1890 in Newark, New Jersey, USA - 27 Dec 1973 in La Jolla, California, USA) mathematician who studied at Kansas State University, Harvard and Paris. He taught at the University of Minnesota though he spent a year in Edinburgh in 1919. He worked on the convergence of series. He was a President of the Mathematical Association of America.*SAU

1913 Sixto Ríos García (January 4, 1913; Pelahustán, Toledo - July 8, 2008; Madrid,) was a Spanish mathematician, known as the father of Spanish statistics.
He has held the positions of Director of the School of Statistics at the University of Madrid, Director of the Institute for Operations Research and Statistics CSIC, Director, Department of Statistics, Faculty of Mathematical Sciences at the Complutense University and President of the Spanish Society Operational Research, Statistics and Information. It was academic correspondent of the National Academy of Sciences of Buenos Aires, and organizer and founder, commissioned by Unesco, School of Statistics, University of Caracas. He was a member of the drafting committee of Statistical Abstracts and fellow of the International Statistical Institute and the Institute of Mathematical Statistics. Wik-ES

1940 Brian D. Josephson (4 Jan 1940, ) British physicist who discovered the Josephson effect (1962) - a flow of electric current as electron pairs, called Cooper Pairs, between two superconducting materials that are separated by an extremely thin insulator. This arrangement is called a Josephson Junction. He was a graduate student, 22 years old, at the time. Subsequently, he was awarded a share of the 1973 Nobel Prize for Physics (with Leo Esaki and Ivar Giaever).*TIS

Josephson is the first Welshman to have won a Nobel Prize in Physics. He shared the prize with physicists Leo Esaki and Ivar Giaever, who jointly received half the award for their own work on quantum tunnelling.

In the early 1970s, Josephson took up transcendental meditation and turned his attention to issues outside the boundaries of mainstream science. He set up the Mind–Matter Unification Project at the Cavendish to explore the idea of intelligence in nature, the relationship between quantum mechanics and consciousness, and the synthesis of science and Eastern mysticism, broadly known as quantum mysticism.[6] He has expressed support for topics such as parapsychology, water memory and cold fusion, which has made him a focus of criticism from fellow scientists.

DEATHS
1752 Gabriel Cramer . He is best known for “Cramer’s Rule,” a method for solving systems of simultaneous linear equations using determinants. *VFR Gabriel Cramer (31 July 1704 – 4 January 1752) was a Swiss mathematician, born in Geneva. He showed promise in mathematics from an early age. At 18 he received his doctorate and at 20 he was co-chair of mathematics. In 1728 he proposed a solution to the St. Petersburg Paradox that came very close to the concept of expected utility theory given ten years later by Daniel Bernoulli. He published his best known work in his forties. This was his treatise on algebraic curves, "Introduction à l'analyse des lignes courbes algébriques", published in 1750. It contains the earliest demonstration that a curve of the nth degree is determined by n(n + 3)/2 points on it, in general position. He edited the works of the two elder Bernoullis; and wrote on the physical cause of the spheroidal shape of the planets and the motion of their apsides (1730), and on Newton's treatment of cubic curves (1746). He was professor at Geneva, and died at Bagnols-sur-Cèze.*Wik

1826 Nikolai Fuss (30 Jan 1755 in Basel, Switzerland - 4 Jan 1826 in St Petersburg, Russia) was a Swiss mathematician whose most important contribution was as amanuensis to Euler after he lost his sight. He married Euler's granddaughter.

Most of Fuss's papers are solutions to problems posed by Euler on spherical geometry, trigonometry, series, differential geometry and differential equations. His best papers are in spherical trigonometry, a topic he worked on with A J Lexell and F T Schubert. Fuss also worked on geometrical problems of Apollonius and Pappus. He made contributions to differential geometry and won a prize from the French Academy in 1778 for a paper on the motion of comets near some planet Recherche sur le dérangement d'une comète qui passe près d'une planète . Fuss won other prizes from Sweden and Denmark. He contributed much in the field of education, writing many fine textbooks. *SAU

1882 John William Draper (May 5, 1811 – January 4, 1882) was an American (English-born) scientist, philosopher, physician, chemist, historian and photographer. He is credited with producing the first clear photograph of a female face (1839–40) and the first detailed photograph of the Moon (1840). He was also the first president of the American Chemical Society (1876–77) and a founder of the New York University School of Medicine. One of Draper's books, History of the Conflict between Religion and Science, received worldwide recognition and was translated into several languages, but was banned by the Catholic Church. His son, Henry Draper, and his granddaughter, Antonia Maury, were astronomers, and his eldest son, John Christopher Draper, was a chemist. *Wik

1904 Anna Winlock (15 Sept 1857– 4 Jan 1904) was an American astronomer and human computer, one of the first members of female computer group known as "the Harvard Computers." She made the most complete catalog of stars near the north and south poles of her era. She is also remembered for her calculations and studies of asteroids. In particular, she did calculations on 433 Eros and 475 Ocllo.

Winlock attended the Cambridge, Ma. Schools as a child and began to develop an interest in both mathematics and the Greek language. By age 10, Anna had watched her father go from Superintendent at the American Nautical Almanac Office in Cambridge, Massachusetts, to the Director of the Harvard College Observatory as well as a professor of Astronomy at the main Harvard College. Upon her graduation she received a letter from her principal expressing his appreciation for her Greek and of her character. Her father influenced her interest in astronomy. When she was twelve, she attended a solar eclipse expedition with her father in his home state of Kentucky. In June 1875, Joseph died shortly after Winlock had graduated from secondary school. Winlock quickly followed in her father's footsteps becoming one of the first female paid staff members of the Harvard College Observatory. *Wik

1950 Virgil Snyder (9 Nov 1869 in Dixon, Iowa, USA 4 Jan 1950 in Ithaca, New York, USA ) Up until the 1920s, Snyder's prolific output and his talents as a teacher made him, together with Frank Morley of Johns Hopkins, one of the most influential algebraic geometers in the nation. Together with Henry White, in fact, Snyder emerged as a principal heir to Klein's geometric legacy. *SAU

In 1886, Snyder matriculated at Iowa State College and graduated with a bachelor's degree in 1889. He attended Cornell University as a graduate student from 1890 to 1892, leaving to study mathematics in Germany on an Erastus W. Brooks fellowship. In 1895, he received a doctorate from the University of Göttingen under Felix Klein. In 1895, Snyder returned to Cornell as an instructor, becoming an assistant professor in 1905 and a full professor in 1910. In 1938, he retired as professor emeritus, having supervised 39 doctoral students, 13 of whom were women.[1] Of these students, perhaps the most well known is C. L. E. Moore. Snyder served as president of the American Mathematical Society for a two-year term in 1927 and 1928.*Wik

1961 Erwin Schrödinger (12 Aug 1887, 4 Jan 1961) Austrian theoretical physicist who shared the 1933 Nobel Prize for Physics with the British physicist P.A.M. Dirac. Schrödinger took de Broglie's concept of atomic particles as having wave-like properties, and modified the earlier Bohr model of the atom to accommodate the wave nature of the electrons. This made a major contribution to the development of quantum mechanics. Schrödinger realized the possible orbits of an electron would be confined to those in which its matter waves close in an exact number of wavelengths. This condition, similar to a standing wave, would account for only certain orbits being possible, and none possible in between them. This provided an explanation for discrete lines in the spectrum of excited atoms.*TIS

He also wrote on philosophy and theoretical biology. In popular culture, he is best known for his "Schrödinger's cat" thought experiment.

1990 Harold E(ugene) Edgerton (6 Apr 1903, 4 Jan 1990) American electrical engineer and ultra-high-speed photographer. As a graduate at the Massachusetts Institute of Technology (1926), he used a strobe light in his studies. By 1931, he applied the strobe to ultra-high-speed photography. He formed a company (1947) to specialize in electronic technology, which led to inventing the Rapatronic camera, capable of photographing US nuclear bomb test explosions from a distance of 7 miles. Throughout his career he applied high-speed photography as a tool in various scientific applications. He also developed sonar to study the ocean floor. Using side-scan sonar, in 1973, he helped locate the sunken Civil War battleship USS Monitor, lost since 1862, off Cape Hatteras, NC. *TIS

2005 Frank Harary (March 11, 1921 – January 4, 2005) was an American mathematician, who specialized in graph theory. He was widely recognized as one of the "fathers" of modern graph theory. Harary was a master of clear exposition and, together with his many doctoral students, he standardized the terminology of graphs. He broadened the reach of this field to include physics, psychology, sociology, and even anthropology. Gifted with a keen sense of humor, Harary challenged and entertained audiences at all levels of mathematical sophistication. A particular trick he employed was to turn theorems into games—for instance, students would try to add red edges to a graph on six vertices in order to create a red triangle, while another group of students tried to add edges to create a blue triangle (and each edge of the graph had to be either blue or red). Because of the theorem on friends and strangers, one team or the other would have to win.*Wik

Harrary and Frank Harary (left) and Klaus Wagner in Oberwolfach, 1972

2013 James Okoye Chukuka Ezeilo (17 January 1930 – 4 January 2013) was the first professor of mathematics in Nigeria. He was often regarded as the father of modern mathematics in the country[2] and was the fifth vice chancellor of the University of Nigeria, Nsukka. He was Vice Chancellor of Bayero University Kano from 1977 to 1978. He was an alumnus of Cambridge University and died in 2013.

Ezeilo had been born in Nanka, a town in Anambra State.*Wik

*WM = Women of Mathematics, Grinstein & Campbell