Pat'sBlog

Saturday, 21 December 2024

Imaginary Numbers and the Imaginary constant

Imaginary Numbers The word imaginary was first applied to the square root of a negative number by Rene Descartes around 1635. He wrote that although one can imagine every Nth degree equation had N roots, there were no real numbers for some of those imagined roots.

Leibniz wrote, "[...neither the true roots nor the false are always real; sometimes they are, however, imaginary; namely, whereas we can always imagine as many roots for each equation as I have predicted, there is still not always a quantity which corresponds to each root so imagined. Thus, while we may think of the equation x^3−6x^2+13x−10=0 as having three roots, yet there is just one real root, which is 2, and the other two, however, increased, diminished, or multiplied them as we just laid down, remain always imaginary.] (page 380)

Around 1685 the English mathematician John Wallis wrote, "We have had occasion to make mention of Negative squares and Imaginary roots".

Some mathematicians have suggested the name be changed to avoid the stigma that it seems to create in young students, "Why do we have to learn them if they aren't even real." (To be honest, in thirty years as an educator, I never heard the question.) Perhaps the weight of history is too much to support the change.

The first person ever to write about employing the square roots of a negative number was Jerome Cardin (1501-1576). In his Ars Magna (great arts) he posed the problem of dividing ten into two parts whose product if forty. After pointing out that there could be no solution, he proceeded to solve the two equations, x+y = 10, and xy=40 to get the two solutions, \$ 5 \pm \sqrt{15} \$ . He then points out that if you add the two solutions, you get ten, and if you multiply them then the product is indeed forty, and concluded by saying that the process was "as subtle as it was useless."
Cardin also left a seed to inspire future work int he mystery of roots of negative numbers. Cardin had published a method of finding soltuons to certain types of cubic functions of the form \$ x^3 + ax + b \$ . His solution required finding the roots of a derived equation. For functions in which the value was negative, his method would not work, even if one of the three roots was a known real solution.
About thirty years later Rafael Bombelli found a way to use the approach to find a root to \$ x^3 - 15x -4 \$ with the known solution of four. He went on to develop a set of operations for these roots of negative numbers. By the eighteenth century the imaginary numbers were being used widely in applied mathematics and then in the nineteenth century mathematicians set about formalizing the imaginary number so that they were mathematically "real."

Some other terms that have been used to refer to imaginary numbers include "sophistic" (Cardan), "nonsense" (Napier), "inexplicable" (Girard), "incomprehensible" (Huygens), and "impossible" (many authors). *MacTutor

Imaginary Unit The imaginary number with a magnitude of one used to represent \$ \sqrt{-1} \$, has been the letter i since it was adopted by Euler in 1777 in a memoir to the St Petersburg Academy, but it was not published until 1794 after his death. It seemed not to have gained much use until Gauss adopted it in 1801, and began to use it regularly. The term, imaginary unit, was first created, it seems, by William Rowan Hamilton in writing about quaternions in 1843 to the Royal Irish Academy. For his three-dimensional algebra of quaternions, Hamilton added two more imaginary constants, j, and k, which were both considered perpendicular to the i, and to each other.

In most fields of electronics the imaginary constant i is replaced by a j, perhaps to avoid confusion with the use of i for current in Ohm's law.

On This Day in Math - December 21

Home Fires in Possum Trot

In his wretched life of less than twenty-seven years Abel accomplished so much of the highest order that one of the leading mathematicians of the Nineteenth Century (Hermite, 1822-1901) could say without exaggeration, 'Abel has left mathematicians enough to keep them busy for five hundred years.' Asked how he had done all this in the six or seven years of his working life, Abel replied, 'By studying the masters, not the pupils.'
~Eric Temple Bell

The 355th day of the year; 355 is the 12th Tribonacci number, Like Fibonacci but start with 1,1,1 and each new term is the sum of the previous three terms.

355 is almost exactly 113π=354.9999699.. No year day is closer to an integer multiple of pi. This leads to a very good mnemonic for a fractional approximation to pi, "113355, divide in the middle, then put big over little." 355/113 = 3.14159292

355 is also the last Smith number of the year. A composite number with the sum of its digits equal to the sum of the digits of it's prime factors 3 + 5 + 5 = 5 + 7 + 1 (355 = 5 x 71)

If you write out the binary expression of 355, and examine it as a decimal number, (101100011) it is prime. 355 is the last day of the year that is such a number.

EVENTS

1614 The first public ecclesiastical attack on Galileo was launched from the pulpit of Santa Maria Novella in Florence by Father Thomas Caccini who denounced Galileo with his biblical proof quoting the scripture when God stopped the sun in the sky to help Joshua defeat the Amorites. His attack included all mathematicians, and indeed, mathematics itself as religious and political heresy. *Brody & Brody, The Science Class You Wish You Had

1671 Newton proposed for membership in the Royal Society of London by Seth Ward. On 11 January 1672 he presents his reflecting telescope to the Royal Society of London. At the same meeting he was elected FRS *VFR A replica is pictured here.

1732 A Letter from Mr. Colin MacLaurin, Math. Prof. Edinburg. F. R. S. to Mr. John Machin,. concerning the Description of Curve Lines. Communicated to the Royal Society on December 21, 1732 *Phil. Trans. 1735 39:143-165

The full document is here

1752 A letter of Benjamin Franklin on October 1st, to Mr. Peter Collinson, FRS concerning an electrical kite, was read before the society on Dec 21. Franklin describes the construction of the kite from two light strips of cedar and a large thin silk handerchief,

*Phil. Trans. 1751 47:565-567

1754 Louis-Bertrand Castel, vociferous opponent of Newtonian science, gave a demonstration of his ocular harpsicord, which corresponded colors with the musical tones. *VFR
The ocular harpsichord had sixty small coloured glass panes, each with a curtain that opened when a key was struck. A second, improved model of the harpsichord was demonstrated for a small audience in December of 1754. Pressing a key caused a small shaft to open, in turn allowing light to shine through a piece of stained glass. Castel thought of color-music as akin to the lost language of paradise, where all men spoke alike, and he claimed that thanks to his instrument’s capacity to paint sounds, even a deaf listener could enjoy music. *Wik

1807 Joseph Fourier announced to the French Academy of Science that an arbitrary function could be expanded as an inﬁnite series of sines and cosines (we now call them Fourier series). *VFR Fourier's memoir On the Propagation of Heat in Solid Bodies, was read to the Paris Institute, an important mathematical work, containing what we now call Fourier series, which he had worked upon since around 1804. A committee consisting of Lagrange, Laplace, Monge and Lacroix was set up to report on the work. Although now highly regarded, at the time, this memoir caused controversy. Lagrange and Laplace objected to Fourier's expansions of functions as trigonometrical series (the Fourier series). It was not until 1822 that his prize winning essay Théorie analytique de la chaleur was published by the Académie des Sciences. Delambre, Secretary to the mathematical section, had arranged for the printing before he died.*TIS

The first four partial sums of the Fourier series for a square wave. As more harmonics are added, the partial sums converge to (become more and more like) the square wave.

*Wik

In 1829, first stone arch railroad bridge in US was dedicated at Baltimore. The Carrollton Viaduct crosses a wooded stretch of Gwynn's Falls. The viaduct was named for Charles Carroll of Carrollton, signer of the Declaration of Independence, who laid the first stone of the Baltimore & Ohio Railroad on 4 Jul 1828. Construction took over 9 months. Some 1,500 tons of granite were supported on huge wooden frameworks. until the keystones were in place and the massive 80 ft arch over the stream became self-supporting. Overall, the bridge is about 62-ft tall, and 300-ft long. On New Year's Day, 1830, it became America's first railroad destination, using a horse until the locomotive "Tom Thumb" came later in 1830. Trains have used it ever since.*TIS

1857 The paddlewheel steamboat began its exploration up the Colorado River as far as it is Navigable. Under the direction of Joseph Christmas Ives (can you guess what day he was born?) the ship had been commissioned to be built in Philadelphia only six months before, shipped unassembled to the isthmus of Panama in September of 1857, and carried by rail across to the Pacific side (For trivia experts, the first "boat" to cross the isthmus of Panama). From there to the mouth of the Colorado where it was reassembled and began its journey up the mighty river. * Linda Hall Library

The steamboat Explorer on the lower Colorado River, near Chimney Peak, detail of the lithographed frontispiece by J.J. Young after H.B. Möllhausen, in Joseph C. Ives, Report upon the Colorado River of the West,

*Linda Hall Library

1881 When Ivory soap decided to market its laundry soap as a cosmetic soap, they needed to find an edge. Turning to science to find such an edge, they wondered how to measure their bar as a quality soap, but no one had a clearly defined definition of what actually was a soap. So they hired scientist to define it, and the came up with a combination of fatty acids and alkali..., that's it. The same scientist measured the "purity of the ivory bar and found out it was nearly perfect. Where popular cosmetic soaps included olive oil and sodium hydroxide, Ivory was over 99% pure. As the ad on this day in The Independent, a religious weekly touted, "Ivory is 99 and 44/100 % pure." An outstanding slogan that has lasted for more than a century. * David Feldman, Why do clocks run clockwise.

1898 Scientist Pierre and Marie Curie discovered radium. *VFR

In December 1898, they discovered a second new element in a barium fraction, which they named "radium." To prove to a skeptical scientific community that these were indeed new elements, the Curies had to isolate them. It took Marie over three years to isolate one-tenth of a gram of pure radium chloride, and she never succeeded in isolating polonium because of its very short half-life: 138 days. Even as she was performing her experiments the polonium in her raw material was rapidly decaying.

Their combined work led almost immediately to the use of radioactive materials in medicine, since isotopes are more effective and safer than surgery or chemicals for attacking cancers and other diseases.

Even today, radioactive isotopes are used as "tracers" to track chemical changes and biological processes.

1903 The first K&E Pocket watch slide rule patent was applied for on this date. Prior to this time K&E sold French made Boucher designs. The patent is in the name of Elmer A. Sperry, co-inventor of the gyrocompass. The patent covers the use of the ‘S’ and ‘L’ dials and the geared hands and dials . *Oughtred Society

1913 The ﬁrst crossword puzzle was published, in the Sunday supplement of the New York World. “Unthinkable as it now seems, there were no crossword puzzles until the newspaperman Arthur Wynne’s simple Word Cross appeared ... on the ‘Fun’ page of The New York World Sunday Magazine *FFF
The puzzle is shown below, and if you want to take a trip back in time and try to solve it, you can find the clues (and an answer key if needed) at the American Crossword Puzzle Tournament page.

1946 The Detroit news reports the Purdue yell,
“E to the X, DY , DX —
E to the X, DX —
Cosine, Secant, Tangent, Sine —
Three Point One Four One Five Nine —
Square Root, Cube Root, BTU —
Slipstick, Slide Rule, Yea Purdue.”
*VFR (perhaps some of the Boilermakers had a few too many boilermakers.) (For those in the rest of the world who may not use the term, In USA terminology, the boilermaker, used at Purdue in relation to steam boilers and engineering trades, is also a slang term fof a glass of beer and a shot of whiskey.)

1968 Integrated Circuits Used in Moonshot :
The Apollo Guidance Computer (AGC) was responsible for guidance, navigation, and control computations in the Apollo space program. The AGC was the first computer to use integrated circuit logic and occupied less than 1 cubic foot of the spacecraft. It stored data in 15 bit words (with one parity bit) and had a memory cycle time of 11.7 usec. Astronauts communicated with the AGC using the "DSKY" (Display Keyboard) shown on today's homepage. It used digital displays and communicated with austronauts using verb and noun buttons, and a two-digit operation and operand code.
The AGC and DSKY form part of The Computer Museum History Center's permanent collection. *CHM

2006 the journal Science recognized Perelman's proof of the Poincaré conjecture as the scientific "Breakthrough of the Year", the first such recognition in the area of mathematics. *Wik On Nov 12, 2022 Grigori Perelman had posted the first of a series of eprints to the arXiv, in which he proves the century old Poincaré conjecture. *Wik

2023 The winter solstice occurs on this date about half of the time.*VFR (Last year for example)

2012 The last date of the Mayan “long count” calendar. The first day of the current Mayan “long count” calendar (adjusted for the Gregorian Calendar) was August 13, 3114 BC. The long count calendar lasts 22,507,528 days and the last calendar will end on December 21 of 2012. What happens then depends on who you read. If the world does NOT end, (and it seems it didn't, although perhaps I was too busy to notice) we will be back to year zero of the Mayan calendar.

BIRTHS1878 Jan Łukasiewicz (Polish pronunciation: [ˈjan wukaˈɕɛvʲitʂ]) (21 December 1878 – 13 February 1956) was a Polish logician and philosopher born in Lwów (Lemberg in German), Galicia, Austria–Hungary (now Lviv, Ukraine). His work centred on analytical philosophy and mathematical logic. He thought innovatively about traditional propositional logic, the principle of non-contradiction and the law of excluded middle.*Wik He created a notation he called Polish Notation (after his homeland) that use the argument of a function before the actual notation for the function to eliminate the need for parenthetical enclosures. This notation is the root of the idea of the recursive stack, a last-in, first-out computer memory store proposed by several researchers including Turing, Bauer and Hamblin, and first implemented in 1957. In 1960, Łukasiewicz notation concepts and stacks were used as the basis of the Burroughs B5000 computer designed by Robert S. Barton and his team at Burroughs Corporation in Pasadena, California. The concepts also led to the design of the English Electric multi-programmed KDF9 computer system of 1963, which had two such hardware register stacks. A similar concept underlies the reverse Polish notation (RPN, a postfix notation) of the Friden EC-130 calculator and its successors, many Hewlett Packard calculators. *Wik

1889 Sewall Green Wright (21 Dec 1889 in Melrose, Massachusetts, USA - 3 March 1988 in Madison, Wisconsin, USA) Wright is famed for his work on evolution, in particular in the use of statistical techniques in the subject. In 1942 he published the Gibbs lecture that he had delivered in the Bulletin of the American Mathematical Society. Opatowski writes in a review, "... a review of the prominent work done by the author in the last twelve years towards the establishment of a mathematical theory of evolution. "
Another paper by Wright which shows his mathematical approach to the subject is The differential equation of the distribution of gene frequencies which he published in 1945. He derives differential equations which are satisfied by the probability density function of the distribution of gene frequencies under certain conditions.
In 1950 Wright gave the Galton lecture at University College, London. In this lecture, which was later published as The genetical structure of populations, he systematically applied his method of path coefficients to problems of population structure in a variety of situations such as: random mating and inbreeding; statistical properties of populations; the inbreeding coefficient F; hierarchic structure; natural populations; the island model of structure; isolation by distance; population structure in evolution; ecologic opportunity; and evolution in general. He also presented a number of mathematical appendices in the paper: the method of path coefficients; general coefficients of inbreeding; properties of populations as related to F; the inbreeding coefficient of breeds; regular systems of mating; and isolation by distance.
Fisher and Wright had differing views on the mechanism and importance of natural selection. Their disagreement began in the late 1920s and became increasingly bitter leading to a split among evolutionists. *SAU

1898 Ira Sprague Bowen (21 Dec 1898; 6 Feb 1973) was an American astrophysicist. His investigation of the ultraviolet spectra of highly ionized atoms led to his explanation of the unidentified strong green spectral lines of gaseous nebulae (clouds of rarefied gas) as forbidden lines of ionized oxygen and nitrogen. This emission, appearing to match no known element, had formerly been suggested to be due to a hypothetical element, "nebulium." Bowen was able to show, that in reality, the emission lines exactly matched those calculated to be the "forbidden lines" of ionized oxygen and nitrogen under extremely low pressure. This made a major advance in the knowledge of celestial composition. He was director of the Mt. Wilson and Palomar Observatories from 1948-64.*TIS

1905 Kate Sperling Fenchel (December 21, 1905 - December 19, 1983) Born in Berlin, Germany. Studied mathematics, philosophy, and physics at the University of Berlin from 1924 to 1928. She was encouraged to write a thesis, but she could not afford to continue her studies and research jobs for women appeared to be difficult to obtain. Thus she never received a Ph.D. in mathematics. From 1931 to 1933 she taught mathematics at the high school level, but was fired when the Nazis came to power in Germany because she was Jewish. She emigrated to Denmark with Werner Fenchel, a former fellow student, and the two married in December, 1933. Fenchel worked from 1933 to 1943 for a Danish mathematics professor. In 1943 she had to escape to Sweden with her husband and 3-year old son while Germany occupied Denmark. They returned to Denmark after the end of the war. Fenchel held a part-time lecturer's job at Aarhus University, Denmark, from 1965-1970.
Fenchel did research in finite nonabelian groups and published several papers, the last at the age of 73. *ASC

1929 Douglas T. Ross (21 December 1929 – 31 January 2007) born in Canton, China. He received an AB from Oberlin College in 1951 and an SM from MIT in 1954. He worked with John Ward on the Cape Cod Air Defense System Project, held many positions at MIT, including head of the Computer Applications Group at the Electronic System Laboratory, and was project engineer for the MIT Computer-Aided Design project. He developed APT (Automatically Programmed Tools)--now an international standard--and AED (Automated Engineering Design) projects which were early precursors of the languages and systems of modern CAD and CAM systems. These projects were run in close connection with the WHIRLWIND, TX-0, TX-2, Project MAC, and CTSS.
In 1969 Ross founded SoftTech Corporation, where he is now chairman of the board of directors. *CHM

DEATHS

1792 James Rumsey (1743–Dec 21,1792) was an American mechanical engineer chiefly known for exhibiting a boat propelled by machinery in 1787 on the Potomac River at Shepherdstown in present-day West Virginia before a crowd of local notables, including Horatio Gates. A pump driven by steam power ejected a stream of water from the stern of the boat and thereby propelled the boat forward.
The demonstration took place twenty years before Robert Fulton constructed and demonstrated the Clermont. The idea of jet propulsion was not Rumsey's alone. Daniel Bernoulli (1700–1782) originated the idea of propelling watercraft in that way. In the summer of 1785, while Rumsey and his assistant Joseph Barnes were in the process of assembling his boat, Benjamin Franklin, on board a ship from France, wrote of propelling a boat by water jet. This coincidence has sometimes led people to believe Rumsey got the idea from Franklin. Indeed, if Franklin had wanted to make such a claim it likely would have been accepted, but he did not, and became one of Rumsey's supporters. *Wik

1912 Paul Albert Gordan (27 April 1837 in Breslau, Germany (now Wrocław, Poland)
- 21 Dec 1912 in Erlangen, Germany) Gordan worked with Clebsch on invariant theory and algebraic geometry. He also gave simplified proofs of the transcendence of e and π. *SAU

1956 Lewis M(adison) Terman (15 Jan 1877, 21 Dec 1956) was a U.S. psychologist who pioneered individual intelligence tests. During WW I, he was involved in mass testing of intelligence for the U.S. army. He expanded an English version of the French Binet-Simon intelligence test with which he introduced the IQ (Intelligence Quotient), being a ratio of chronological age to mental age times 100. (Thus an average child has an IQ of 100). He wrote about this metric in The Measurement of Intelligence (1916). He made a long-term study of gifted children (with IQ above 140) examining mental and physical aspect of their lives reported in the multi-volume Genetic Studies of Genius (1926-59). *TIS

1960 Eric Temple Bell (7 Feb 1883, 21 Dec 1960) Scottish-American mathematician and writer who contributed to analytic number theory (in which he found several important theorems), Diophantine analysis and numerical functions. In addition to about 250 papers on mathematical research, he also wrote for the layman in Men of Mathematics (1937) and Mathematics, Queen and Servant of Science (1951) among others. Under the name of John Taine, he also wrote science fiction.*TIS

1976 Vijay Kumar Patodi (March 12, 1945 – December 21, 1976) was an Indian mathematician who made fundamental contributions to differential geometry and topology. He was the first mathematician to apply heat equation methods to the proof of the Index Theorem for elliptic operators.[citation needed] He was a professor at Tata Institute of Fundamental Research, Mumbai (Bombay). *Wik

1980 Vladimir Petrovich Potapov (24 Jan 1914 in Odessa, Ukraine - 21 Dec 1980 in Kharkov, Russia) In 1948 Potapov was invited to the Pedagogical Institute at Odessa. He soon became Head of Mathematics and, from 1952, Dean of the Faculty of Physics and Mathematics. He used his position to invite Livsic and others to the Institute.
During the 1950s Potapov worked on the theory of J-contractive matrix functions and the analysis of matrix functions became his main work. He published papers on the multiplicative theory of analytic matrix functions in the years 1950-55 which contain work from his doctoral thesis. He also worked on interpolation problems.
From 1974 Potapov lectured at Odessa Institute of National Economy, then he went to Kharkov to head the Department of Applied Mathematics at the Institute for low temperature physics. *SAU

1987 Eugene Lukacs (14 August 1906 – 21 December 1987) was a Hungarian statistician born in Szombathely, notable for his work in characterization of distributions, stability theory, and being the author of Characteristic Functions, a classic textbook in the field.

In 1953 Eugene joined the Office of Naval Research (ONR) USA, and became the director of Statistics. While at ONR he also taught at American University in Washington, D.C.

Lukacs joined the Catholic University of America, Washington, D.C. in 1955. There he organized the Statistical Laboratory in 1959 and became its first and only director. Researchers at the Statistical Laboratory included Edward Batschlet, Tatsuo Kawata, Radha Laha, M. Masuyama and Vijay Rohatgi, and many distinguished visitors.

On his retirement from Catholic University in 1972, he moved with his colleagues Laha and Rohatgi to Bowling Green State University in Bowling Green, Ohio, where he remained until 1976.*Wik

*WM = Women of Mathematics, Grinstein & Campbell
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

Friday, 20 December 2024

We Just Don't Talk That Way Anymore

I love reading old journals and am often struck by the precision and beauty of language in old math and science journals.

Many brighter than I have commented on the seemingly inevitable reduction in rigor as schools require all students to take more advanced math. I think the same thing has happened across the board to language as everyone is expected to complete a high school education.

I recently read a note that had two quotes, both saying essentially the same thing. The first is from Leonhard Euler and dates around the American revolution; the second is from George Box and dated around 1987,Empirical Model-Building and Response Surfaces. Both are incredibly literate and knowledgeable people, and yet..

"Although to penetrate into the intimate mysteries of nature and thence to learn the true causes of phenomena is not allowed to us, nevertheless it can happen that a certain fictive hypothesis may suffice for explaining many phenomena"

"All models are wrong... some models are useful. "

On This Day in Math - December 20

Our passion for learning is our tool for survival.
Somewhere, something incredible is waiting to be known.

~Carl Sagan

The 354th day of the year; 354 is the sum of the first four fourth powers

and is also the sum of three distinct primes. (It is also the solution to one version of an unsolved recreational math problem called the Postage Stamp Problem, or sometimes Frobenius problem)

354 is the smallest number whose sum of its distinct prime factors is a cube, 2 + 3 + 59 = 64

Of all the Primes less than 10^10, the largest difference between two consecutive primes is 354. *Derek Orr

EVENTS

1587 In Viviani's biography of Galileo he tells of how as a young student of 18 in 1581 Galileo made his first discovery about pendulums which would later lead to his design just before his death of a pendulum clock.

"one afternoon performing his devotions in the Cathedral of Pisa, and in full view of Maestro Possenti's beautiful bronze lamp which hung (and still hangs) from the roof of the nave. In order to light it more easily the attendant drew it towards him, and then let it swing back. Galileo at first observed this simple incident, as thousands of other worshipers had done before him and have done since, i.e. in a casual way, but quickly his attention became riveted to the swinging lamp. The oscillations, which were at first considerable became gradually less and less, but, notwithstanding, he could see that they were all performed in the same time, as he was able to prove by timing them with his pulse the only watch he possessed!"

It is a beautiful story of a brilliant young mind who would go on to greatness, but J. J. FAHIE in his biography of Galileo points out:

"Whether this be only a pretty fable, like that of Newton and the apple, cannot now be decided, but it is, at least, certain that Possenti's lamp was not the one which Galileo observed, since it was not made until 1587, and was only hung in its present place on the 2Oth December in that year."

1623 Wilhelm Schickard, in a letter to Kepler, described his calculating machine. *Dauben, A Selective Bibliography, p. 251
Only 3 documents about this machine have been found till now—two letters from Schickard to Kepler, and a sketch of the machine with instructions to the mechanician. I have also seen the date given as February 25th, 1624, which may be more accurate. *http://history-computer.com

On this day in 1703, Isaac Newton became president of the Royal Society, an office he held until his death. He was knighted in 1705 by Queen Anne, the first scientist to be so honoured for his work. However the last portion of his life was not an easy one, dominated in many ways with the controversy with Leibniz over which of them had invented the calculus.

History suggests that Newton made substantial efforts to erase the figure of his great rival, Hooke. What is certain is that this rivalry continued until the death of Hooke in 1703, upon which the last obstacle to Newton’s appointment as president of the Royal Society on November 30 of that same year disappeared. Newton then fulfilled his promise not to publish his corpuscular theory of light (which had provoked the first quarrel between them) until Hooke had died: he did so a year later, in the book Opticks (1704).

According to scientific legend, Newton also sent for the only portrait of Hooke and ordered it destroyed; another version states that he left it intentionally forgotten when the Royal Society moved to another building.

1883 On the night before J J Sylvester's departure from Johns Hopkins his friends hosted a gala in his honor at Hopkins Hall.

In 1900, Michel Giacobini in France discovered a comet, which was rediscovered by a German, Ernst Zinner, on 23 Oct 1913, and since named the Giacobini-Zinner comet. It returns to the vicinity of the earth every six and two-thirds years. This comet became the first to be visited by a spacecraft. On 11 Sep 1985, the International Cometary Explorer (ICE) flew through its gas tail, 7,800-km downstream from the nucleus, at a speed of 21 km/sec. The nucleus was estimated to be 2.5-km across at its widest diameter. Instruments detected carbon monosulfide and hydroxyl molecules in the comet. The comet is the progenitor of the Draconid meteor shower, visible annually in early October, which produced intense meteor displays in 1933 and 1946.*TIS The most recent was on shower peaked on Oct 8, 2011.

The comet in 2018 near perihelion

1906 Nature publishes a letter from Francis Galton on "Cutting a round cake on scientific principles." A Numberphile video by Alex Bellos explaining the method is here.

In 1907, the first U.S. scientist to receive the Nobel Prize was Albert Michelson, a German-born ( actually born in Strzelno, Provinz Posen in the Kingdom of Prussia which is now part of Poland) American physicist who received the Nobel Prize for Physics "for his optical precision instruments and the spectroscopic and metrological investigations." He designed the highly accurate Michelson interferometer and used it to accurately measure the speed of light and establish it as a fundamental constant. With Edward Morley, he also used it in an attempt to measure the velocity of the earth through the ether (1887), yielding null results that eventually led Einstein to his theory of relativity. He measured the standard meter bar in Paris to be 1,553,163.5 wavelengths of the red cadmium line (1892-3) *TIS

Page one of Michelson's Experimental Determination of the Velocity of Light

1910 New Zealand born physicist Ernest Rutherford made his seminal gold foil experiment which led to first insight about the nature of the inner structure of the atom and to the postulation of Rutherford's concept of the "nucleus. He had already received the 1908 Nobel Prize in Chemistry for demonstrating that radioactivity was the spontaneous disintegration of atoms. *Yovista

Ernest Rutherford at McGill, 1905

1943 Norman Bel Geddes to Designs ASSC Machine Cover:
Thomas Watson Jr. informs Harvard University President James B. Conant that Norman Bel Geddes would be designing the cover of the Harvard Mark I computer. Bel Geddes was an American industrial designer who also worked on such things as Philco radio cabinets and a Graham Page car. He was deeply interested in the future, illustrating a book in 1932 that described, among other things, a huge passenger airplane with public lounges and an exercise center. Bel Geddes also designed the GM pavilion at the 1939 World's Fair.*CHM

1949 N. J. Woodland and Bernard Silver filed a patent application for "Classifying Apparatus and Method", in which they described both the linear and bullseye printing patterns, as well as the mechanical and electronic systems needed to read the code. The patent was issued on 7 October 1952 as US Patent 2,612,994. In 1951, Woodland moved to IBM and continually tried to interest IBM in developing the system. The company eventually commissioned a report on the idea, which concluded that it was both feasible and interesting, but that processing the resulting information would require equipment that was some time off in the future.
In 1952 Philco purchased their patent, and then sold it to RCA the same year.*Wik

Better known today as Barcodes, the invention was based on Morse code that was extended to thin and thick bars. However, it took over twenty years before this invention became commercially successful.

In 1951, at 1:50 p.m., the first electricity ever generated by atomic power began flowing from the EBR-1 turbine generator when Walter Zinn and his Argonne National Laboratory staff of scientists brought EBR-1 to criticality (a controlled, self-sustaining chain reaction) with a core about the size of a football. The reactor was started up and the power gradually increased over several hours. The next day, Experimental Breeder Reactor-1 generated enough electricity to supply all the power for its own building. Additional power and core experiments were then conducted until its decommissioning in Dec 1963. Construction began in 1949, between Idaho Falls and Arco, Idaho. Today, EBR-1 is a Registered National Historic Landmark.*TIS

t was declared a National Historic Landmark in 1965 with its dedication ceremony held on August 25, 1966, led by President Lyndon Johnson and Glenn T. Seaborg. It was also declared an IEEE Milestone in 2004.

BIRTHS
1494 Oronce Fine (20 Dec 1494 in Briançon, France
- 8 Aug 1555 in Paris, France) was a French mathematician who published a major work on mathematics and astronomy. Before being awarded his medical degree, Fine had edited mathematics and astronomy books for a Paris printer. Among the texts which he edited were Peurbach's Theoricae Novae Planetarum, which presented Ptolemy's epicycle theory of the planets, and Sacrobosco's Tractatus de Sphaera, a book on astronomy in four chapters. The first book which Fine authored himself was published in 1526 and it was on the equatorium, an instrument which Fine was very interested in and which he worked on throughout his life, writing four further texts about it. The instrument can be used to determine the positions of the planets.*SAU

Fine's heart-shaped (cordiform) map projection of 1531 was frequently employed by other cartographers, including Peter Apian and Gerardus Mercator. *Wik

De mundi sphaera, sive Cosmographia (1542) frontispiece that Fine designed, which shows a large armillary-like world system in the center, and Fine himself at bottom right, receiving instructions from Urania, the muse of Astronomy.

*Linda Hall Org

1648 Thommaso Ceva (20 Dec 1648; 3 Feb 1737) Italian mathematician, poet, and brother of the mathematician Giovanni Ceva. At the age of fifteen he entered the Society of Jesus. His education was entirely within the Jesuit Order and he obtained a degree in theology. His first scientific work, De natura gravium (1669), dealt with physical subjects, such as gravity and free fall, in a philosophical way. Tommaso Ceva's mathematical work is summed up in Opuscula Mathematica (1699) which examines geometry (geometric-harmonic means, the cycloid, and conic sections), gravity and arithmetic. He also designed an instrument to divide a right angle into a given number of equal parts. He gave the greater part of his time to writing Latin prose. His poem Jesus Puer was translated into many languages. *TIS

Prompted by the familiar "insertion" method of Archimedes, Ceva devised in 1699 a curve for trisection which was called the "Cycloidum anomalarum". The principle involved is that of doubling angles.

*Wik

1838 Edwin Abbott Abbott (20 Dec 1838, 12 Oct 1926) His most famous work was Flatland: a romance of many dimensions (1884) which Abbott wrote under the pseudonym of A Square. The book has seen many editions, the sixth edition of 1953 being reprinted by Princeton University Press in 1991 with an introduction by Thomas Banchoff. Flatland is an account of the adventures of A Square in Lineland and Spaceland. In it Abbott tries to popularise the notion of multidimensional geometry but the book is also a clever satire on the social, moral, and religious values of the period.
More recently, in 2002, an annotated version of Flatland has been produced with an introduction and notes by Ian Stewart who gives extensive discussion of mathematical topics related to passages in Abbott's text. *SAU
The Kindle edition of Flatland is available for less than $2.00 Flatland: A Romance of Many Dimensions [Illustrated] and the Stewart version is only a little more:

In a bold statement of personal opinion I add: This book should be read by every teacher and every student of mathematics.

1843 Paul Tannery (20 Dec 1843 in Mantes-la-Jolie, Yvelines, France - 27 Nov 1904 in Pantin, Seine-St Denis, France) His main contributions were to the history of Greek mathematics and to the philosophy of mathematics. He published a history of Greek science in 1887, a history of Greek geometry in the same year, and a history of ancient astronomy in 1893.
Tannery did work of great importance as an editor of famous mathematics texts. He edited the work of Fermat in three volumes (jointly with C Henry) between 1891 and 1896. In addition he edited the work of Diophantus in two volumes (1893-95). He was an editor of the twelve volume complete works of Descartes Oeuvres de Descartes (1897-1913).
Tannery became so skilled in using Greek numerals in his historical work that he believed that they had certain advantages over our present system. *SAU

1875 Francesco Cantelli (20 Dec 1875 in Palermo, Sicily, Italy
- 21 July 1966 in Rome, Italy)Cantelli's work in astronomy involved statistical analysis of data and his interests turned more towards the statistical style of mathematics and to applications of probability to astronomy and other areas. In particular he became interested in actuarial and social applications of probability theory. In 1903 took a job as an actuary at the Istituti di Previdenza where he undertook research into probability theory publishing some important papers, some which we mention below. He founded the Istituto Italiano degli Attuari for the applications of mathematics and probability to economics. He edited the journal of the Institute Giornale dell'Istituto Italiano degli Attuari from 1930 to 1958 during which time it became one of the leading journals in its field. *SAU

1876 Walter (Sydney) Adams (20 Dec 1876; 11 May 1956) was an American astronomer who is best known for his spectroscopic studies of sunspots, the rotation of the Sun, the velocities and distances of thousands of stars, and planetary atmospheres. He found (with Arnold Kohlschütter) that the relative intensities of stellar spectral lines depend on the absolute luminosities of the star, which in turn provides a spectroscopic method of determining stellar distances.By this method, he measured distances to hundreds of giant and main sequence stars. In 1925, Walter S Adams identified Sirius B as the first white dwarf star known, and his measurement of its gravitational redshift was confirming evidence for the general theory of relativity. He was director of Mount Wilson (1923-46).*TIS

In a letter dated 10 August 1844, the German astronomer Friedrich Wilhelm Bessel deduced from changes in the proper motion of Sirius that it had an unseen companion. On 31 January 1862, American telescope-maker and astronomer Alvan Graham Clark first observed the faint companion, which is now called Sirius B, or affectionately "the Pup".

Hubble Space Telescope image of Sirius A and Sirius B. The white dwarf can be seen to the lower left. The diffraction spikes and concentric rings are instrumental effects.

1901 Robert Jemison Van de Graaff (20 Dec 1901; 16 Jan 1967) American physicist and inventor of the Van de Graaff generator, a type of high-voltage electrostatic generator that can be used as a particle accelerator in atomic research. The potential differences achieved in modern Van de Graaff generators can be up to 5 MV. It is a principle of electric fields that charges on a surface can leap off at points where the curvature is great, that is, where the radius is small. Thus, a dome of great radius will inhibit the electric discharge and added charge can reach a high voltage. This generator has been used in medical (such as high-energy X-ray production) and industrial applications (sterilization of food). In the 1950s, Van de Graaff invented the insulating core transformer able to produce high voltage direct current.*TIS

Small Van de Graaff generator used in science education

DEATHS
1836 Johann Christian Martin Bartels (12 August 1769 – 7/20 December 1836) was a German mathematician. He was the tutor of Carl Friedrich Gauss in Brunswick and the educator of Lobachevsky at the University of Kazan.*Wik

1891 George Bassett Clark (14 Feb 1827, 20 Dec 1891) Elder son in the American family of telescope makers and astronomers, Alvan Clark & Sons of Cambridge, Mass., who figured importantly in the great expansion of astronomical facilities which occurred during the second half of the 19th century. Before the family business began, George made a telescope in 1844 out of the melted-down brass of his school's broken dinner bell. His father, Alvan Clark, was at the time an established portrait painter, but his son's interest also spurred his father to begin making refractor telescopes. (Refractor telescopes use paired lenses to focus light.) The father taught himself to be a master optician, and eventually in business with his sons made the finest refractor telescopes of their time including five of the world's largest.*TIS

Alvan Clark & Sons made the 36-inch (910 mm) objective lens for the Lick Observatory refractor, shown here in an 1889 drawing. The telescope was designed and built by the Warner & Swasey Company

1962 Emil Artin (3 Mar 1898; 20 Dec 1962 at age 64) Austro-German mathematician who worked in algebraic number theory, made a major contribution to field theory, and stated a law of reciprocity which included all previously known laws of reciprocity (1927). He also worked on the theory of braids (1925), and on rings with the minimum condition on right ideals, now called Artinian rings (1944). Artin has the distinction of solving (1927) one of the famous 23 problems previously posed by Hilbert in 1900. With his Jewish wife, he left Nazi Germany in 1937, and worked at universities in the U.S. until 1956, when he returned to his home country. *TIS He solved Hilbert’s seventeenth problem in 1927. *VFR (Can a multivariate polynomial that only has non-negative values over the reals be represented as a sum of squares of rational functions? Artin proved it could, An algorithm to do so was found by Charles Delzell.)

1984 Max Deuring (9 December 1907, Göttingen, Germany – 20 December 1984, Göttingen, Germany) was a mathematician. He is known for his work in arithmetic geometry, in particular on elliptic curves in characteristic p. He worked also in analytic number theory.
Deuring graduated from the University of Göttingen in 1930, then began working with Emmy Noether, who noted his mathematical acumen even as an undergraduate. When she was forced to leave Germany in 1933, she urged that the university offer her position to Deuring. In 1935 he published a report entitled Algebren ("Algebras"), which established his notability in the world of mathematics. He went on to serve as Ordinarius at Marburg and Hamburg, then took a position as ordentlicher Lehrstuhl at Göttingen, where he remained until his retirement.*Wik

1988 Elizabeth Scott (November 23, 1917 – December 20, 1988) was an American mathematician specializing in statistics.
Scott was born in Fort Sill, Oklahoma. Her family moved to Berkeley, California when she was 4 years old. She attended the University of California, Berkeley where she studied mathematics and astronomy. There were few options for further study in astronomy, as the field was largely closed to women at the time, so she completed her graduate studies in mathematics. She received her Ph.D. in 1949, and received a permanent position in the Department of Mathematics at Berkeley in 1951.
She wrote over 30 papers on astronomy and 30 on weather modification research analysis, incorporating and expanding the use of statistical analyses in these fields. She also used statistics to promote equal opportunities and equal pay for female academics.
In 1957 Elizabeth Scott noted a bias in the observation of galaxy clusters. She noticed that for an observer to find a very distant cluster, it must contain brighter than normal galaxies and must also contain a large number of galaxies. She proposed a correction formula to adjust for (what came to be known as) the "Scott effect".
The Committee of Presidents of Statistical Societies awards a prize in her honour to female statisticians.*Wik

1993 W(illiam) Edwards Deming (14 Oct 1900, 20 Dec 1993) was an American statistician, the father of "Total Quality Management." After WW II, he contributed to Japan's economic recovery by recommending statistical methods of quality control in industrial production. His method embraced carefully tallying product defects, examining their causes, correcting the problems, and then tracking the results of these changes on subsequent product quality. In his career before the war, he had developed statistical sampling techniques that were first used in the 1940 U.S. census. From the 1980's in the U.S. Deming continued to teach quality control through the statistical control of manufacturing processes for companies such as Ford, Xerox, and GM.*TIS

Deming declined to receive royalties from the transcripts of his 1950 lectures, so JUSE's (Union of Japanese Scientists and Engineers) board of directors established the Deming Prize (December 1950) to repay him for his friendship and kindness.[20] Within Japan, the Deming Prize continues to exert considerable influence on the disciplines of quality control and quality management. Wik

1996 Carl Edward Sagan 9 Nov 1934, 20 Dec 1996) U.S. astronomer and exobiologist and writer of popular science books. His studies were far-ranging. He coauthored a scientific paper about the dangers of nuclear winter. He researched the atmosphere of Venus, seasonal changes on Mars, surface conditions on planets, and created popular interest in the universe with his television series Cosmos. Sagan was a leading figure in the search for extraterrestrial intelligence. He urged the scientific community to listen with large radio telescopes for signals from intelligent extraterrestrial lifeforms. Sagan also played a prominent role in the U.S. space program, with his involvement in the Mariner, Viking, and Voyager spacecraft expeditions. *TIS (and may I remind you all, in Carl's honor, that "we are all star-stuff."

2002 Grote Reber (22 Dec 1911, 20 Dec 2002) U.S. amateur astronomer and radio engineer who self-financed and built the first radio telescope. He pioneered the new field of radio astronomy, and was the first to systematically study the sky by observing non-visible radiation. After reading about Jansky's discovery (1932) of natural radio emissions from space, Reber constructed a 9-meter dish antenna in his backyard and built three different detectors before finding 160 MHz signals (1939). In 1940 and 1944 he published articles titled Cosmic Static in the Astrophysical Journal. He was the first to express received radio signals in terms of flux density and brightness, first to find evidence that galactic radiation is non-thermal, and first to produce radio maps of the sky (1941).*TIS

Reber's radio telescope was considerably more advanced than Jansky's, and consisted of a parabolic sheet metal dish 9 meters in diameter, focusing to a radio receiver 8 meters above the dish. The entire assembly was mounted on a tilting stand, allowing it to be pointed in various directions, though not turned.

Reber sold his telescope to the National Bureau of Standards, and it was erected on a turntable at their field station in Sterling, Virginia. Eventually the telescope made its way to the National Radio Astronomy Observatory in Green Bank, West Virginia,[11] and Reber supervised its reconstruction at that site. Reber also helped with a reconstruction of Jansky's original telescope.

2005 Raoul Bott,(September 24, 1923 – December 20, 2005) was a Hungarian mathematician known for numerous basic contributions to geometry in its broad sense. He is best known for his Bott periodicity theorem, the Morse–Bott functions which he used in this context, and the Borel–Bott–Weil theorem. *Wik

In mathematics, the Bott periodicity theorem describes a periodicity in the homotopy groups of classical groups, discovered by Raoul Bott (1957, 1959), which proved to be of foundational significance for much further research, in particular in K-theory of stable complex vector bundles, as well as the stable homotopy groups of spheres. Bott periodicity can be formulated in numerous ways, with the periodicity in question always appearing as a period-2 phenomenon, with respect to dimension, for the theory associated to the unitary group.

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