James Clerk Maxwell

James Clerk Maxwell FRS FRSE 13 June 1831 5 November 1879 was a Scottish physicist and mathematician who was responsible for the classical theory of electromagnetic radiation which was the first theory to describe electricity magnetism and light as different manifestations of the same phenomenon Maxwell s equations for electromagnetism achieved the second great unification in physics where the first one had been realised by Isaac Newton Maxwell was also key in the creation of statistical mechanics James Clerk MaxwellFRS FRSEMaxwell c 1870sBorn 1831 06 13 13 June 1831 Edinburgh ScotlandDied5 November 1879 1879 11 05 aged 48 Cambridge EnglandResting placeParton Dumfries and Galloway 55 00 24 N 4 02 21 W 55 006693 N 4 039210 W 55 006693 4 039210Alma materUniversity of EdinburghPeterhouse CambridgeTrinity College CambridgeKnown forSee list Maxwell s equationsStatistical mechanicsDisplacement currentMaxwell relationsMaxwell Betti theoremMaxwell Boltzmann distributionMaxwell Boltzmann statisticsMaxwell Stefan diffusionMaxwell s demonMaxwell constructionMaxwell couplingKinetic theory of gasesMaxwell s discsMaxwell speed distributionMaxwell stress functionsMaxwell s theoremMaxwell s theorem geometry Maxwell materialMaxwell Huber Hencky von Mises theoryMaxwell Wagner Sillars polarizationMaxwell bridgeMaxwell coilMaxwell s fish eye lensMaxwell s spotMaxwell s wheelMaxwell s thermodynamic surfaceRings of SaturnControl theoryCoherent system of unitsChaos theoryDimensional analysisGeneralized conicSingularityStructural rigiditySpouseKatherine Dewar m 1858 wbr AwardsSmith s Prize 1854 Adams Prize 1857 Rumford Medal 1860 FRS 1861 Bakerian Medal 1866 Keith Medal 1869 1871 Scientific careerFieldsPhysics MathematicsInstitutionsMarischal College University of AberdeenKing s College LondonUniversity of CambridgeAcademic advisorsWilliam HopkinsNotable studentsGeorge ChrystalHorace LambJohn Henry Poynting1st Cavendish Professor of PhysicsIn office 1871 1879Succeeded byLord RayleighSignature With the publication of A Dynamical Theory of the Electromagnetic Field in 1865 Maxwell demonstrated that electric and magnetic fields travel through space as waves moving at the speed of light He proposed that light is an undulation in the same medium that is the cause of electric and magnetic phenomena The unification of light and electrical phenomena led to his prediction of the existence of radio waves and the paper contained his final version of his equations which he had been working on since 1856 As a result of his equations and other contributions such as introducing an effective method to deal with network problems and linear conductors he is regarded as a founder of the modern field of electrical engineering In 1871 Maxwell became the first Cavendish Professor of Physics serving until his death in 1879 Maxwell was the first to derive the Maxwell Boltzmann distribution a statistical means of describing aspects of the kinetic theory of gases which he worked on sporadically throughout his career He is also known for presenting the first durable colour photograph in 1861 and for his foundational work on analysing the rigidity of rod and joint frameworks trusses like those in many bridges Maxwell helped to established the CGS system of measurement and he is responsible for modern dimensional analysis Maxwell is also recognized for laying the groundwork for chaos theory Maxwell correctly predicted that the rings of Saturn were made up of many unattached small fragments His 1863 paper On Governors serves as an important foundation for control theory and cybernetics and was also the earliest mathematical analysis on control systems In 1867 he proposed the thought experiment known as Maxwell s demon His discoveries helped usher in the era of modern physics laying the foundations for such fields as relativity also being the one to introduce the term into physics and quantum mechanics Many physicists regard Maxwell as the 19th century scientist having the greatest influence on 20th century physics His contributions to the science are considered by many to be of the same magnitude as those of Isaac Newton and Albert Einstein In the millennium poll a survey of the 100 most prominent physicists Maxwell was voted the third greatest physicist of all time behind only Newton and Einstein with another survey of rank and file physicists also voting him third On the centenary of Maxwell s birthday his work was described by Einstein as the most profound and the most fruitful that physics has experienced since the time of Newton When Einstein visited the University of Cambridge in 1922 he was told by his host that he had done great things because he stood on Newton s shoulders Einstein replied No I don t I stand on the shoulders of Maxwell Tom Siegfried described Maxwell as one of those once in a century geniuses who perceived the physical world with sharper senses than those around him LifeEarly life 1831 1839 Clerk Maxwell s birthplace at 14 India Street in Edinburgh is now the home of the James Clerk Maxwell Foundation James Clerk Maxwell was born on 13 June 1831 at 14 India Street Edinburgh to John Clerk Maxwell of Middlebie an advocate and Frances Cay daughter of Robert Hodshon Cay and sister of John Cay His birthplace now houses a museum operated by the James Clerk Maxwell Foundation His father was a man of comfortable means of the Clerk family of Penicuik holders of the baronetcy of Clerk of Penicuik His father s brother was the 6th baronet He had been born John Clerk adding Maxwell to his own after he inherited as an infant in 1793 the Middlebie estate a Maxwell property in Dumfriesshire James was a first cousin of both the artist Jemima Blackburn the daughter of his father s sister and the civil engineer William Dyce Cay the son of his mother s brother Cay and Maxwell were close friends and Cay acted as his best man when Maxwell married Maxwell s parents met and married when they were well into their thirties his mother was nearly 40 when he was born They had had one earlier child a daughter named Elizabeth who died in infancy When Maxwell was young his family moved to Glenlair in Kirkcudbrightshire which his parents had built on the estate which comprised 1 500 acres 610 ha All indications suggest that Maxwell had maintained an unquenchable curiosity from an early age By the age of three everything that moved shone or made a noise drew the question what s the go o that In a passage added to a letter from his father to his sister in law Jane Cay in 1834 his mother described this innate sense of inquisitiveness He is a very happy man and has improved much since the weather got moderate he has great work with doors locks keys etc and show me how it doos is never out of his mouth He also investigates the hidden course of streams and bell wires the way the water gets from the pond through the wall Education 1839 1847 Recognising the boy s potential Maxwell s mother Frances took responsibility for his early education which in the Victorian era was largely the job of the woman of the house At eight he could recite long passages of John Milton and the whole of the 119th psalm 176 verses Indeed his knowledge of scripture was already detailed he could give chapter and verse for almost any quotation from the Psalms His mother was taken ill with abdominal cancer and after an unsuccessful operation died in December 1839 when he was eight years old His education was then overseen by his father and his father s sister in law Jane both of whom played pivotal roles in his life His formal schooling began unsuccessfully under the guidance of a 16 year old hired tutor Little is known about the young man hired to instruct Maxwell except that he treated the younger boy harshly chiding him for being slow and wayward The tutor was dismissed in November 1841 James father took him to Robert Davidson s demonstration of electric propulsion and magnetic force on 12 February 1842 an experience with profound implications for the boy Maxwell was sent to the prestigious Edinburgh Academy He lodged during term times at the house of his aunt Isabella During this time his passion for drawing was encouraged by his older cousin Jemima The 10 year old Maxwell having been raised in isolation on his father s countryside estate did not fit in well at school The first year had been full obliging him to join the second year with classmates a year his senior His mannerisms and Galloway accent struck the other boys as rustic Having arrived on his first day of school wearing a pair of homemade shoes and a tunic he earned the unkind nickname of Daftie He never seemed to resent the epithet bearing it without complaint for many years Social isolation at the Academy ended when he met Lewis Campbell and Peter Guthrie Tait two boys of a similar age who were to become notable scholars later in life They remained lifelong friends Maxwell was fascinated by geometry at an early age rediscovering the regular polyhedra before he received any formal instruction Despite his winning the school s scripture biography prize in his second year his academic work remained unnoticed until at the age of 13 he won the school s mathematical medal and first prize for both English and poetry Maxwell s interests ranged far beyond the school syllabus and he did not pay particular attention to examination performance He wrote his first scientific paper at the age of 14 In it he described a mechanical means of drawing mathematical curves with a piece of twine and the properties of ellipses Cartesian ovals and related curves with more than two foci The work of 1846 On the description of oval curves and those having a plurality of foci was presented to the Royal Society of Edinburgh by James Forbes a professor of natural philosophy at the University of Edinburgh because Maxwell was deemed too young to present the work himself The work was not entirely original since Rene Descartes had also examined the properties of such multifocal ellipses in the 17th century but Maxwell had simplified their construction University of Edinburgh 1847 1850 Old College University of Edinburgh Maxwell left the Academy in 1847 at age 16 and began attending classes at the University of Edinburgh He had the opportunity to attend the University of Cambridge but decided after his first term to complete the full course of his undergraduate studies at Edinburgh The academic staff of the university included some highly regarded names his first year tutors included Sir William Hamilton who lectured him on logic and metaphysics Philip Kelland on mathematics and James Forbes on natural philosophy He did not find his classes demanding and was therefore able to immerse himself in private study during free time at the university and particularly when back home at Glenlair There he would experiment with improvised chemical electric and magnetic apparatus however his chief concerns regarded the properties of polarised light He constructed shaped blocks of gelatine subjected them to various stresses and with a pair of polarising prisms given to him by William Nicol viewed the coloured fringes that had developed within the jelly Through this practice he discovered photoelasticity which is a means of determining the stress distribution within physical structures At age 18 Maxwell contributed two papers for the Transactions of the Royal Society of Edinburgh One of these On the Equilibrium of Elastic Solids laid the foundation for an important discovery later in his life which was the temporary double refraction produced in viscous liquids by shear stress His other paper was Rolling Curves and just as with the paper Oval Curves that he had written at the Edinburgh Academy he was again considered too young to stand at the rostrum to present it himself The paper was delivered to the Royal Society by his tutor Kelland instead University of Cambridge 1850 1856 A young Maxwell at Trinity College Cambridge holding one of his colour wheels In October 1850 already an accomplished mathematician Maxwell left Scotland for the University of Cambridge He initially attended Peterhouse but before the end of his first term transferred to Trinity where he believed it would be easier to obtain a fellowship At Trinity he was elected to the elite secret society known as the Cambridge Apostles Maxwell s intellectual understanding of his Christian faith and of science grew rapidly during his Cambridge years He joined the Apostles an exclusive debating society of the intellectual elite where through his essays he sought to work out this understanding Now my great plan which was conceived of old is to let nothing be wilfully left unexamined Nothing is to be holy ground consecrated to Stationary Faith whether positive or negative All fallow land is to be ploughed up and a regular system of rotation followed Never hide anything be it weed or no nor seem to wish it hidden Again I assert the Right of Trespass on any plot of Holy Ground which any man has set apart Now I am convinced that no one but a Christian can actually purge his land of these holy spots I do not say that no Christians have enclosed places of this sort Many have a great deal and every one has some But there are extensive and important tracts in the territory of the Scoffer the Pantheist the Quietist Formalist Dogmatist Sensualist and the rest which are openly and solemnly Tabooed Christianity that is the religion of the Bible is the only scheme or form of belief which disavows any possessions on such a tenure Here alone all is free You may fly to the ends of the world and find no God but the Author of Salvation You may search the Scriptures and not find a text to stop you in your explorations The Old Testament and the Mosaic Law and Judaism are commonly supposed to be Tabooed by the orthodox Sceptics pretend to have read them and have found certain witty objections which too many of the orthodox unread admit and shut up the subject as haunted But a Candle is coming to drive out all Ghosts and Bugbears Let us follow the light In the summer of his third year Maxwell spent some time at the Suffolk home of the Rev C B Tayler the uncle of a classmate G W H Tayler The love of God shown by the family impressed Maxwell particularly after he was nursed back from ill health by the minister and his wife On his return to Cambridge Maxwell writes to his recent host a chatty and affectionate letter including the following testimony I have the capacity of being more wicked than any example that man could set me and if I escape it is only by God s grace helping me to get rid of myself partially in science more completely in society but not perfectly except by committing myself to God In November 1851 Maxwell studied under William Hopkins whose success in nurturing mathematical genius had earned him the nickname of senior wrangler maker In 1854 Maxwell graduated from Trinity with a degree in mathematics He scored second highest in the final examination coming behind Edward Routh and earning himself the title of Second Wrangler He was later declared equal with Routh in the more exacting ordeal of the Smith s Prize examination Immediately after earning his degree Maxwell read his paper On the Transformation of Surfaces by Bending to the Cambridge Philosophical Society This is one of the few purely mathematical papers he had written demonstrating his growing stature as a mathematician Maxwell decided to remain at Trinity after graduating and applied for a fellowship which was a process that he could expect to take a couple of years Buoyed by his success as a research student he would be free apart from some tutoring and examining duties to pursue scientific interests at his own leisure The nature and perception of colour was one such interest which he had begun at the University of Edinburgh while he was a student of Forbes With the coloured spinning tops invented by Forbes Maxwell was able to demonstrate that white light would result from a mixture of red green and blue light His paper Experiments on Colour laid out the principles of colour combination and was presented to the Royal Society of Edinburgh in March 1855 Maxwell was this time able to deliver it himself Maxwell was made a fellow of Trinity on 10 October 1855 sooner than was the norm and was asked to prepare lectures on hydrostatics and optics and to set examination papers The following February he was urged by Forbes to apply for the newly vacant Chair of Natural Philosophy at Marischal College Aberdeen His father assisted him in the task of preparing the necessary references but died on 2 April at Glenlair before either knew the result of Maxwell s candidacy He accepted the professorship at Aberdeen leaving Cambridge in November 1856 Marischal College Aberdeen 1856 1860 Maxwell proved that the rings of Saturn were made of numerous small particles The 25 year old Maxwell was a good 15 years younger than any other professor at Marischal He engaged himself with his new responsibilities as head of a department devising the syllabus and preparing lectures He committed himself to lecturing 15 hours a week including a weekly pro bono lecture to the local working men s college He lived in Aberdeen with his cousin William Dyce Cay a Scottish civil engineer during the six months of the academic year and spent the summers at Glenlair which he had inherited from his father Later his former student described Maxwell as follows In the late 1850s shortly before 9 am any winter s morning you might well have seen the young James Clerk Maxwell in his mid to late 20s a man of middling height with frame strongly knit and a certain spring and elasticity in his gait dressed for comfortable ease rather than elegance a face expressive at once of sagacity and good humour but overlaid with a deep shade of thoughtfulness features boldly put pleasingly marked eyes dark and glowing hair and beard perfectly black and forming a strong contrast to the pallor of his complexion James Clerk Maxwell and his wife painted by Jemima Blackburn He focused his attention on a problem that had eluded scientists for 200 years the nature of Saturn s rings It was unknown how they could remain stable without breaking up drifting away or crashing into Saturn The problem took on a particular resonance at that time because St John s College Cambridge had chosen it as the topic for the 1857 Adams Prize Maxwell devoted two years to studying the problem proving that a regular solid ring could not be stable while a fluid ring would be forced by wave action to break up into blobs Since neither was observed he concluded that the rings must be composed of numerous small particles he called brick bats each independently orbiting Saturn Maxwell was awarded the 130 Adams Prize in 1859 for his essay On the stability of the motion of Saturn s rings he was the only entrant to have made enough headway to submit an entry His work was so detailed and convincing that when George Biddell Airy read it he commented It is one of the most remarkable applications of mathematics to physics that I have ever seen It was considered the final word on the issue until direct observations by the Voyager flybys of the 1980s confirmed Maxwell s prediction that the rings were composed of particles It is now understood however that the rings particles are not totally stable being pulled by gravity onto Saturn The rings are expected to vanish entirely over the next 300 million years In 1857 Maxwell befriended the Reverend Daniel Dewar who was then the Principal of Marischal Through him Maxwell met Dewar s daughter Katherine Mary Dewar They were engaged in February 1858 and married in Aberdeen on 2 June 1858 On the marriage record Maxwell is listed as Professor of Natural Philosophy in Marischal College Aberdeen Katherine was seven years Maxwell s senior Comparatively little is known of her although it is known that she helped in his lab and worked on experiments in viscosity Maxwell s biographer and friend Lewis Campbell adopted an uncharacteristic reticence on the subject of Katherine though describing their married life as one of unexampled devotion In 1860 Marischal College merged with the neighbouring King s College to form the University of Aberdeen There was no room for two professors of Natural Philosophy so Maxwell despite his scientific reputation found himself laid off He was unsuccessful in applying for Forbes s recently vacated chair at Edinburgh the post instead going to Tait Maxwell was granted the Chair of Natural Philosophy at King s College London instead After recovering from a near fatal bout of smallpox in 1860 he moved to London with his wife King s College London 1860 1865 Commemoration of Maxwell s equations at King s College Two identical IEEE Milestone Plaques are at Maxwell s birthplace in Edinburgh and the family home at Glenlair Maxwell s time at King s was probably the most productive of his career He was awarded the Royal Society s Rumford Medal in 1860 for his work on colour and was later elected to the Society in 1861 This period of his life would see him display the world s first light fast colour photograph further develop his ideas on the viscosity of gases and propose a system of defining physical quantities now known as dimensional analysis Maxwell would often attend lectures at the Royal Institution where he came into regular contact with Michael Faraday The relationship between the two men could not be described as being close because Faraday was 40 years Maxwell s senior and showed signs of senility They nevertheless maintained a strong respect for each other s talents This time is especially noteworthy for the advances Maxwell made in the fields of electricity and magnetism He examined the nature of both electric and magnetic fields in his two part paper On physical lines of force which was published in 1861 In it he provided a conceptual model for electromagnetic induction consisting of tiny spinning cells of magnetic flux Two more parts were later added to and published in that same paper in early 1862 In the first additional part he discussed the nature of electrostatics and displacement current In the second additional part he dealt with the rotation of the plane of the polarisation of light in a magnetic field a phenomenon that had been discovered by Faraday and is now known as the Faraday effect Later years 1865 1879 The gravestone at Parton Kirk Galloway of James Clerk Maxwell his parents and his wife In 1865 Maxwell resigned the chair at King s College London and returned to Glenlair with Katherine In his paper On governors 1868 he mathematically described the behaviour of governors devices that control the speed of steam engines thereby establishing the theoretical basis of control engineering In his paper On reciprocal figures frames and diagrams of forces 1870 he discussed the rigidity of various designs of lattice He wrote the textbook Theory of Heat 1871 and the treatise Matter and Motion 1876 Maxwell was also the first to make explicit use of dimensional analysis in 1871 In 1871 he returned to Cambridge to become the first Cavendish Professor of Physics Maxwell was put in charge of the development of the Cavendish Laboratory supervising every step in the progress of the building and of the purchase of the collection of apparatus One of Maxwell s last great contributions to science was the editing with copious original notes of the research of Henry Cavendish from which it appeared that Cavendish researched amongst other things such questions as the density of the Earth and the composition of water He was elected as a member to the American Philosophical Society in 1876 DeathIn April 1879 Maxwell began to have difficulty in swallowing the first symptom of his fatal illness Maxwell died in Cambridge of abdominal cancer on 5 November 1879 at the age of 48 His mother had died at the same age of the same type of cancer The minister who regularly visited him in his last weeks was astonished at his lucidity and the immense power and scope of his memory but comments more particularly his illness drew out the whole heart and soul and spirit of the man his firm and undoubting faith in the Incarnation and all its results in the full sufficiency of the Atonement in the work of the Holy Spirit He had gauged and fathomed all the schemes and systems of philosophy and had found them utterly empty and unsatisfying unworkable was his own word about them and he turned with simple faith to the Gospel of the Saviour As death approached Maxwell told a Cambridge colleague I have been thinking how very gently I have always been dealt with I have never had a violent shove all my life The only desire which I can have is like David to serve my own generation by the will of God and then fall asleep Maxwell is buried at Parton Kirk near Castle Douglas in Galloway close to where he grew up The extended biography The Life of James Clerk Maxwell by his former schoolfellow and lifelong friend Professor Lewis Campbell was published in 1882 His collected works were issued in two volumes by the Cambridge University Press in 1890 The executors of Maxwell s estate were his physician George Edward Paget G G Stokes and Colin Mackenzie who was Maxwell s cousin Overburdened with work Stokes passed Maxwell s papers to William Garnett who had effective custody of the papers until about 1884 There is a memorial inscription to him near the choir screen at Westminster Abbey James Clerk Maxwell painted by Jemima BlackburnPersonal life As a great lover of Scottish poetry Maxwell memorised poems and wrote his own The best known is Rigid Body Sings closely based on Comin Through the Rye by Robert Burns which he apparently used to sing while accompanying himself on a guitar It has the opening lines Gin a body meet a body Flyin through the air Gin a body hit a body Will it fly And where A collection of his poems was published by his friend Lewis Campbell in 1882 Descriptions of Maxwell remark upon his remarkable intellectual qualities being matched by social awkwardness Maxwell wrote the following aphorism for his own conduct as a scientist He that would enjoy life and act with freedom must have the work of the day continually before his eyes Not yesterday s work lest he fall into despair not to morrow s lest he become a visionary not that which ends with the day which is a worldly work nor yet that only which remains to eternity for by it he cannot shape his action Happy is the man who can recognize in the work of to day a connected portion of the work of life and an embodiment of the work of eternity The foundations of his confidence are unchangeable for he has been made a partaker of Infinity He strenuously works out his daily enterprises because the present is given him for a possession Maxwell was an evangelical Presbyterian and in his later years became an Elder of the Church of Scotland Maxwell s religious beliefs and related activities have been the focus of a number of papers Attending both Church of Scotland his father s denomination and Episcopalian his mother s denomination services as a child Maxwell underwent an evangelical conversion in April 1853 One facet of this conversion may have aligned him with an antipositivist position Scientific legacyElectromagnetism A postcard from Maxwell to Peter Tait Maxwell had studied and commented on electricity and magnetism as early as 1855 when his paper On Faraday s lines of force was read to the Cambridge Philosophical Society The paper presented a simplified model of Faraday s work and how electricity and magnetism are related He reduced all of the current knowledge into a linked set of differential equations with 20 equations in 20 variables This work was later published as On Physical Lines of Force in March 1861 Around 1862 while lecturing at King s College Maxwell calculated that the speed of propagation of an electromagnetic field is approximately that of the speed of light He considered this to be more than just a coincidence commenting We can scarcely avoid the conclusion that light consists in the transverse undulations of the same medium which is the cause of electric and magnetic phenomena Working on the problem further Maxwell showed that the equations predict the existence of waves of oscillating electric and magnetic fields that travel through empty space at a speed that could be predicted from simple electrical experiments using the data available at the time Maxwell obtained a velocity of 310 740 000 metres per second 1 0195 109 ft s In his 1865 paper A Dynamical Theory of the Electromagnetic Field Maxwell wrote The agreement of the results seems to show that light and magnetism are affections of the same substance and that light is an electromagnetic disturbance propagated through the field according to electromagnetic laws His famous twenty equations in their modern form of partial differential equations first appeared in fully developed form in his textbook A Treatise on Electricity and Magnetism in 1873 Most of this work was done by Maxwell at Glenlair during the period between holding his London post and his taking up the Cavendish chair Oliver Heaviside reduced the complexity of Maxwell s theory down to four partial differential equations known now collectively as Maxwell s Laws or Maxwell s equations Although potentials became much less popular in the nineteenth century the use of scalar and vector potentials is now standard in the solution of Maxwell s equations As Barrett and Grimes 1995 describe Maxwell expressed electromagnetism in the algebra of quaternions and made the electromagnetic potential the centerpiece of his theory In 1881 Heaviside replaced the electromagnetic potential field by force fields as the centerpiece of electromagnetic theory According to Heaviside the electromagnetic potential field was arbitrary and needed to be assassinated sic A few years later there was a debate between Heaviside and Peter Guthrie Tate sic about the relative merits of vector analysis and quaternions The result was the realization that there was no need for the greater physical insights provided by quaternions if the theory was purely local and vector analysis became commonplace Maxwell was proved correct and his quantitative connection between light and electromagnetism is considered one of the great accomplishments of 19th century mathematical physics Maxwell also introduced the concept of the electromagnetic field in comparison to force lines that Faraday described By understanding the propagation of electromagnetism as a field emitted by active particles Maxwell could advance his work on light At that time Maxwell believed that the propagation of light required a medium for the waves dubbed the luminiferous aether Over time the existence of such a medium permeating all space and yet apparently undetectable by mechanical means proved impossible to reconcile with experiments such as the Michelson Morley experiment Moreover it seemed to require an absolute frame of reference in which the equations were valid with the distasteful result that the equations changed form for a moving observer These difficulties inspired Albert Einstein to formulate the theory of special relativity in the process Einstein dispensed with the requirement of a stationary luminiferous aether Einstein acknowledged the groundbreaking work of Maxwell stating that One scientific epoch ended and another began with James Clerk Maxwell He also acknowledged the influence that his work had on his relativity theory The special theory of relativity owes its origins to Maxwell s equations of the electromagnetic field Colour vision First durable colour photographic image demonstrated by Maxwell in an 1861 lecture Along with most physicists of the time Maxwell had a strong interest in psychology Following in the steps of Isaac Newton and Thomas Young he was particularly interested in the study of colour vision From 1855 to 1872 Maxwell published at intervals a series of investigations concerning the perception of colour colour blindness and colour theory and was awarded the Rumford Medal for On the Theory of Colour Vision Isaac Newton had demonstrated using prisms that white light such as sunlight is composed of a number of monochromatic components which could then be recombined into white light Newton also showed that an orange paint made of yellow and red could look exactly like a monochromatic orange light although being composed of two monochromatic yellow and red lights Hence the paradox that puzzled physicists of the time two complex lights composed of more than one monochromatic light could look alike but be physically different called metameres Thomas Young later proposed that this paradox could be explained by colours being perceived through a limited number of channels in the eyes which he proposed to be threefold the trichromatic colour theory Maxwell used the recently developed linear algebra to prove Young s theory Any monochromatic light stimulating three receptors should be able to be equally stimulated by a set of three different monochromatic lights in fact by any set of three different lights He demonstrated that to be the case inventing colour matching experiments and Colourimetry Maxwell was also interested in applying his theory of colour perception namely in colour photography Stemming directly from his psychological work on colour perception if a sum of any three lights could reproduce any perceivable colour then colour photographs could be produced with a set of three coloured filters In the course of his 1855 paper Maxwell proposed that if three black and white photographs of a scene were taken through red green and blue filters and transparent prints of the images were projected onto a screen using three projectors equipped with similar filters when superimposed on the screen the result would be perceived by the human eye as a complete reproduction of all the colours in the scene During an 1861 Royal Institution lecture on colour theory Maxwell presented the world s first demonstration of colour photography by this principle of three colour analysis and synthesis Thomas Sutton inventor of the single lens reflex camera took the picture He photographed a tartan ribbon three times through red green and blue filters also making a fourth photograph through a yellow filter which according to Maxwell s account was not used in the demonstration Because Sutton s photographic plates were insensitive to red and barely sensitive to green the results of this pioneering experiment were far from perfect It was remarked in the published account of the lecture that if the red and green images had been as fully photographed as the blue it would have been a truly coloured image of the riband By finding photographic materials more sensitive to the less refrangible rays the representation of the colours of objects might be greatly improved Researchers in 1961 concluded that the seemingly impossible partial success of the red filtered exposure was due to ultraviolet light which is strongly reflected by some red dyes not entirely blocked by the red filter used and within the range of sensitivity of the wet collodion process Sutton employed Kinetic theory and thermodynamics Maxwell s demon a thought experiment where entropy decreases Maxwell also investigated the kinetic theory of gases Originating with Daniel Bernoulli this theory was advanced by the successive labours of John Herapath John James Waterston James Joule and particularly Rudolf Clausius to such an extent as to put its general accuracy beyond a doubt but it received enormous development from Maxwell who in this field appeared as an experimenter on the laws of gaseous friction as well as a mathematician Between 1859 and 1866 he developed the theory of the distributions of velocities in particles of a gas work later generalised by Ludwig Boltzmann The formula called the Maxwell Boltzmann distribution gives the fraction of gas molecules moving at a specified velocity at any given temperature In the kinetic theory temperatures and heat involve only molecular movement This approach generalised the previously established laws of thermodynamics and explained existing observations and experiments in a better way than had been achieved previously His work on thermodynamics led him to devise the thought experiment that came to be known as Maxwell s demon where the second law of thermodynamics is violated by an imaginary being capable of sorting particles by energy In 1871 he established Maxwell s thermodynamic relations which are statements of equality among the second derivatives of the thermodynamic potentials with respect to different thermodynamic variables In 1874 he constructed a plaster thermodynamic visualisation as a way of exploring phase transitions based on the American scientist Josiah Willard Gibbs s graphical thermodynamics papers Peter Guthrie Tait called Maxwell the leading molecular scientist of his time Another person added after Maxwell s death that only one man lived who could understand Gibbs s papers That was Maxwell and now he is dead Control theory Maxwell published the paper On governors in the Proceedings of the Royal Society vol 16 1867 1868 This paper is considered a central paper of the early days of control theory Here governors refers to the governor or the centrifugal governor used to regulate steam engines The James Clerk Maxwell Monument in Edinburgh by Alexander Stoddart Commissioned by The Royal Society of Edinburgh unveiled in 2008 HonoursPublicationsMaxwell James Clerk 1873 A treatise on electricity and magnetism Vol I Oxford Clarendon Press Maxwell James Clerk 1873 A treatise on electricity and magnetism Vol II Oxford Clarendon Press Maxwell James Clerk 1876 Matter and Motion London and New York Society for Promoting Christian Knowledge and Pott Young amp Co Maxwell James Clerk 1881 An Elementary treatise on electricity Oxford Clarendon Press Maxwell James Clerk 1890 The scientific papers of James Clerk Maxwell Vol I Dover Publication Maxwell James Clerk 1890 The scientific papers of James Clerk Maxwell Vol II Cambridge University Press Maxwell James Clerk 1908 Theory of heat Longmans Green Co Three of Maxwell s contributions to Encyclopaedia Britannica appeared in the Ninth Edition 1878 Atom Attraction and Ether and three in the Eleventh Edition 1911 Capillary Action Diagram and Faraday MichaelNotes Topology and Scottish mathematical physics University of St Andrews Archived from the original on 12 September 2013 Retrieved 9 September 2013 Nahin P J 1992 Maxwell s grand unification IEEE Spectrum 29 3 45 doi 10 1109 6 123329 S2CID 28991366 Keithley Joseph F 1999 The Story of Electrical and Magnetic Measurements From 500 BC to the 1940s New York IEEE Press p 180 ISBN 978 0 7803 1193 0 Mahon 2003 pp 82 83 164 Maxwell James Clerk 1865 A dynamical theory of the electromagnetic field PDF Philosophical Transactions of the Royal Society of London 155 459 512 Bibcode 1865RSPT 155 459M doi 10 1098 rstl 1865 0008 S2CID 186207827 Archived PDF from the original on 28 July 2011 This article accompanied an 8 December 1864 presentation by Maxwell to the Royal Society His statement that light and magnetism are affections of the same substance is at page 499 Longair Malcolm 13 April 2015 a paper I hold to be great guns a commentary on Maxwell 1865 A dynamical theory of the electromagnetic field Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences 373 2039 20140473 Bibcode 2015RSPTA 37340473L doi 10 1098 rsta 2014 0473 ISSN 1364 503X PMC 4360095 PMID 25750155 Sarkar Tapan K Salazar Palma Magdalena Sengupta Dipak L 2010 James Clerk Maxwell The Founder of Electrical Engineering 2010 Second Region 8 IEEE Conference on the History of 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James Oxford Dictionary of National Biography online ed Oxford University Press doi 10 1093 ref odnb 5624 Subscription or UK public library membership required Mahon Basil 2003 The Man Who Changed Everything the Life of James Clerk Maxwell Wiley ISBN 0 470 86171 1 Russo Remigio 1996 Mathematical Problems in Elasticity World Scientific ISBN 981 02 2576 8 Tait Peter Guthrie 1911 Maxwell James Clerk In Chisholm Hugh ed Encyclopaedia Britannica Vol 17 11th ed Cambridge University Press Timoshenko Stephen 1983 History of Strength of Materials Courier Dover ISBN 978 0 486 61187 7 Tolstoy Ivan 1982 James Clerk Maxwell A Biography University of Chicago Press ISBN 0 226 80787 8 OCLC 8688302 Warwick Andrew 2003 Masters of Theory Cambridge and the Rise of Mathematical Physics University of Chicago Press ISBN 0 226 87374 9 Waterston Charles D Macmillan Shearer A July 2006 Former Fellows of the Royal Society of Edinburgh 1783 2002 Biographical Index PDF Vol II Edinburgh The Royal Society of Edinburgh ISBN 978 0 902198 84 5 Wilczek Frank 2015 Maxwell I God s Esthetics II The Doors of Perception A Beautiful Question Finding Nature s Deep Design Allen Lane pp 117 164 ISBN 978 0 7181 9946 3 External linksWikimedia Commons has media related to James Clerk Maxwell Wikiquote has quotations related to James Clerk Maxwell Wikisource has original works by or about James Clerk Maxwell Portraits of James Clerk Maxwell at the National Portrait Gallery London Works by James Clerk Maxwell at Project Gutenberg Works by or about James Clerk Maxwell at the Internet Archive Works by James Clerk Maxwell at LibriVox public domain audiobooks O Connor John J Robertson Edmund F James Clerk Maxwell MacTutor History of Mathematics Archive University of St Andrews Genealogy and Coat of Arms of James Clerk Maxwell 1831 1879 Numericana The James Clerk Maxwell Foundation Maxwell James Clerk Maxwell s last will and testament scotlandspeople gov uk 31 May 2013 Archived from the original on 30 December 2006 Retrieved 25 November 2008 The Published Scientific Papers and Books of James Clerk Maxwell PDF Clerk Maxwell Foundation Bibliography PDF Clerk Maxwell Foundation James Clerk Maxwell Experiments on colour as perceived by the Eye with remarks on colour blindness Proceedings of the Royal Society of Edinburgh vol 3 no 45 pp 299 301 digital facsimile from the Linda Hall Library Maxwell BBC Radio 4 discussion with Simon Schaffer Peter Harman amp Joanna Haigh In Our Time 2 October 2003 Scotland s Einstein James Clerk Maxwell The Man Who Changed the World BBC Two documentary 2015