fbpx
Wikipedia

Robert Hooke

January 26, 2023

Robert Hooke FRS (/hʊk/; 18 July 1635 – 3 March 1703)[3][a] was an English polymath active as a scientist, natural philosopher and architect, who is credited to be one of two scientists to discover microorganisms in 1665 using a compound microscope that he built himself,[4] the other scientist being Antoni van Leeuwenhoek in 1676.[5][6] An impoverished scientific inquirer in young adulthood, he found wealth and esteem by performing over half of the architectural surveys after London's great fire of 1666. Hooke was also a member of the Royal Society and since 1662 was its curator of experiments. Hooke was also Professor of Geometry at Gresham College.

Robert Hooke

FRS
c. 1680 Portrait of a Mathematician by Mary Beale, conjectured to be of Hooke[1] but also conjectured to be of Isaac Barrow.[2]
Born18 July 1635
Freshwater, Isle of Wight, England
Died3 March 1703(1703-03-03) (aged 67)[a]
London, England
Resting placeSt Helen's Church, Bishopsgate
NationalityEnglish
Alma materWadham College, Oxford
Known forHooke's law
Microscopy
Coining the term 'cell'
Scientific career
FieldsPhysics and Biology
InstitutionsUniversity of Oxford
Academic advisorsRobert Boyle
InfluencesRichard Busby
Signature

As an assistant to physical scientist Robert Boyle, Hooke built the vacuum pumps used in Boyle's experiments on gas law, and himself conducted experiments. In 1673, Hooke built the earliest Gregorian telescope, and then he observed the rotations of the planets Mars and Jupiter. Hooke's 1665 book Micrographia, in which he coined the term "cell", spurred microscopic investigations.[7] Investigating in optics, specifically light refraction, he inferred a wave theory of light. And his is the first recorded hypothesis of heat expanding matter, air's composition by small particles at larger distances, and heat as energy.

In physics, he approximated experimental confirmation that gravity heeds an inverse square law, and first hypothesised such a relation in planetary motion, too, a principle furthered and formalised by Isaac Newton in Newton's law of universal gravitation.[8] Priority over this insight contributed to the rivalry between Hooke and Newton, who thus antagonized Hooke's legacy. In geology and paleontology, Hooke originated the theory of a terraqueous globe, disputed the literally Biblical view of the Earth's age, hypothesised the extinction of species, and argued that fossils atop hills and mountains had become elevated by geological processes.[9] Thus observing microscopic fossils, Hooke presaged the theory of biological evolution.[10][11] Hooke's pioneering work in land surveying and in mapmaking aided development of the first modern plan-form map, although his grid-system plan for London was rejected in favour of rebuilding along existing routes. Even so, Hooke was key in devising for London a set of planning controls that remain influential. In recent times, he has been called "England's Leonardo".[12]

Life and works

 
Hooke's microscope, from an engraving in Micrographia

Early life

Much of what is known of Hooke's early life comes from an autobiography that he commenced in 1696 but never completed. Richard Waller mentions it in his introduction to The Posthumous Works of Robert Hooke, M.D. S.R.S., printed in 1705. The work of Waller, along with John Ward's Lives of the Gresham Professors (with a list of his major works)[13] and John Aubrey's Brief Lives, form the major near-contemporaneous biographical accounts of Hooke.

Robert Hooke was born in 1635 in Freshwater on the Isle of Wight to Cecily Gyles and John Hooke, an Anglican priest, the curate of Freshwater's Church of All Saints.[14] Father John Hooke's two brothers, Robert's paternal uncles, were also ministers. A royalist, John Hooke likely was among a group that went to pay respects to Charles I as he escaped to the Isle of Wight. Expected to join the church,[citation needed] Robert, too, would become a staunch monarchist.[citation needed] Robert was the youngest, by seven years, of four siblings, two boys and two girls.[15] Their father led a local school as well, yet at least partly homeschooled Robert, frail in health. The young Robert Hooke was fascinated by observation, mechanical works, and drawing. He dismantled a brass clock and built a wooden replica that reportedly worked "well enough". He made his own drawing materials from coal, chalk, and ruddle (iron ore).[b]

On his father's death in 1648, Robert inherited 40 pounds.[16][c] He took this to London with the aim of beginning an apprenticeship, and studied briefly with Samuel Cowper and Peter Lely, but was persuaded instead to enter Westminster School by its headmaster Dr. Richard Busby. Hooke quickly mastered Latin and Greek,[16] mastered Euclid's Elements,[16] learned to play the organ,[citation needed] and began his lifelong study of mechanics.[citation needed]

Oxford

In 1653, Hooke (who had also undertaken a course of twenty lessons on the organ) secured a chorister's place at Christ Church, Oxford.[14] He was employed as a "chemical assistant" to Dr Thomas Willis, for whom Hooke developed a great admiration. There he met the natural philosopher Robert Boyle, and gained employment as his assistant from about 1655 to 1662, constructing, operating, and demonstrating Boyle's "machina Boyleana" or air pump.[17] In 1659, Hooke described some elements of a method of heavier-than-air flight to Wilkins, but concluded that human muscles were insufficient to the task. In 1662, he was awarded a Master of Arts degree.[18]

Hooke himself characterised his Oxford days as the foundation of his lifelong passion for science, and the friends he made there were of paramount importance to him throughout his career, particularly Christopher Wren. Wadham was then under the guidance of John Wilkins, who had a profound impact on Hooke and those around him. There was a sense of urgency in preserving the scientific work which they perceived as being threatened by The Protectorate.[citation needed] Wilkins' "philosophical meetings" in his study were clearly important, though few records survive except for the experiments Boyle conducted in 1658 and published in 1660. This group went on to form the nucleus of the Royal Society.[citation needed] Hooke developed an air pump for Boyle's experiments based on the pump of Ralph Greatorex, which was considered, in Hooke's words, "too gross to perform any great matter."[19] It is known that Hooke had a particularly keen eye, and was an adept mathematician, neither of which applied to Boyle. It has been suggested that Hooke probably made the observations and may well have developed the mathematics of Boyle's law.[20][9] Regardless, it is clear that Hooke was a valued assistant to Boyle and the two retained a mutual high regard.

A chance surviving copy of Willis's pioneering De anima brutorum, a gift from the author, was chosen by Hooke from Wilkins' library on his death as a memento at John Tillotson's invitation. This book is now in the Wellcome Library. The book and its inscription in Hooke's hand are a testament to the lasting influence of Wilkins and his circle on the young Hooke.

Royal Society

The Royal Society was founded in 1660, and in April 1661 the society debated a short tract on the rising of water in slender glass pipes, in which Hooke reported that the height water rose was related to the bore of the pipe (due to what is now termed capillary action). His explanation of this phenomenon was subsequently published in Micrography Observ. issue 6, in which he also explored the nature of "the fluidity of gravity". On 5 November 1661, Sir Robert Moray proposed that a Curator be appointed to furnish the society with Experiments, and this was unanimously passed with Hooke being named. His appointment was made on 12 November, with thanks recorded to Dr. Boyle for releasing him to the Society's employment.

In 1664, Sir John Cutler settled an annual gratuity of fifty pounds on the Society for the founding of a Mechanick Lecture,[d] and the Fellows appointed Hooke to this task. On 27 June 1664 he was confirmed to the office, and on 11 January 1665 was named Curator by Office for life with an additional salary of £30 to Cutler's annuity.[e]

Hooke's role at the Royal Society was to demonstrate experiments from his own methods or at the suggestion of members. Among his earliest demonstrations were discussions of the nature of air, the implosion of glass bubbles which had been sealed with comprehensive hot air, and demonstrating that the Pabulum vitae and flammae were one and the same. He also demonstrated that a dog could be kept alive with its thorax opened, provided air was pumped in and out of its lungs, and noting the difference between venous and arterial blood. There were also experiments on the subject of gravity, the falling of objects, the weighing of bodies and measuring of barometric pressure at different heights, and pendulums up to 200 ft long (61 m).

Instruments were devised to measure a second of arc in the movement of the sun or other stars, to measure the strength of gunpowder, and in particular an engine to cut teeth for watches, much finer than could be managed by hand, an invention which was, by Hooke's death, in constant use.[21]

In 1663 and 1664, Hooke made his microscopic observations, subsequently collated in Micrographia in 1665.

On 20 March 1664, Hooke succeeded Arthur Dacres as Gresham Professor of Geometry. Hooke received the degree of "Doctor of Physic" in December 1691.[22]

 
Illustration from The posthumous works of Robert Hooke... published in Acta Eruditorum, 1707

Hooke and Newcomen

There is a widely reported but seemingly incorrect story that Dr Hooke corresponded with Thomas Newcomen in connection with Newcomen's invention of the steam engine. This story was discussed by Rhys Jenkins, a past President of the Newcomen Society, in 1936.[23] Jenkins traced the origin of the story to an article "Steam Engines" by Dr. John Robison (1739–1805) in the third edition of the "Encyclopædia Britannica”, which says There are to be found among Hooke's papers, in the possession of the Royal Society, some notes of observations, for the use of Newcomen, his countryman, on Papin's boasted method of transmitting to a great distance the action of an mill by means of pipes, and that Hooke had dissuaded Newcomen from erecting a machine on this principle. Jenkins points out a number of errors in Robison's article, and questions whether the correspondent might in fact have been Newton, whom Hooke is known to have corresponded with, the name being misread as Newcomen. A search by Mr. H W Dickinson of Hooke's papers held by the Royal Society, which had been bound together in the middle of the 18th century, i.e. before Robison's time, and carefully preserved since, revealed no trace of any correspondence between Hooke and Newcomen. Jenkins concluded ... this story must be omitted from the history of the steam engine, at any rate until documentary evidence is forthcoming.

In the intervening years since 1936 no such evidence has been found, but the story persists. For instance, in a book published in 2011 it is said that in a letter dated 1703 Hooke did suggest that Newcomen use condensing steam to drive the piston.[24]

Personality and disputes

Reputedly,[citation needed] Hooke was a staunch friend and ally. In his early training at Wadham College, he was among ardent royalists, particularly Christopher Wren.[citation needed] Yet allegedly,[citation needed] Hooke was also proud, and often annoyed by intellectual competitors. Hooke contended that Oldenburg had leaked details of Hooke's watch escapement.[citation needed] Otherwise, Hooke guarded his own ideas and used ciphers.[citation needed]

On the other hand, as the Royal Society's curator of experiments, Hooke was tasked to demonstrate many ideas sent in to the Society. Some evidence suggests that Hooke subsequently assumed credit for some of these ideas.[citation needed] Yet in this period of immense scientific progress, numerous ideas were developed in multiple places roughly simultaneously. Immensely busy, Hook let many of his own ideas remain undeveloped, although others he patented.[citation needed]

Perhaps more significantly, Hooke and Isaac Newton disputed over credit for certain breakthroughs in physical science, including gravitation, astronomy, and optics.[citation needed] After Hooke's death, Newton questioned his legacy. And as the Royal Society's president, Newton allegedly destroyed or failed to preserve the only known portrait of Hooke.[citation needed] In the 20th century, researchers Robert Gunther and Margaret 'Espinasse revived Hooke's legacy, establishing Hooke among the most influential scientists of his time.[25][26]: 106 

None of this should distract from Hooke's inventiveness, his remarkable experimental facility, and his capacity for hard work. His ideas about gravitation, and his claim of priority for the inverse square law, are outlined below. He was granted a large number of patents for inventions and refinements in the fields of elasticity, optics, and barometry. The Royal Society's Hooke papers, rediscovered in 2006,[27] (after disappearing when Newton took over) may open up a modern reassessment.

 
Engraving of a louse from Hooke's Micrographia

Much has been written about the unpleasant side of Hooke's personality, starting with comments by his first biographer, Richard Waller, that Hooke was "in person, but despicable" and "melancholy, mistrustful, and jealous."[21] Waller's comments influenced other writers for well over two centuries, so that a picture of Hooke as a disgruntled, selfish, anti-social curmudgeon dominates many older books and articles. For example, Arthur Berry said that Hooke "claimed credit for most of the scientific discoveries of the time."[28] Sullivan wrote that Hooke was "positively unscrupulous" and possessing an "uneasy apprehensive vanity" in dealings with Newton.[29] Manuel used the phrase "cantankerous, envious, vengeful" in his description.[30] More described Hooke having both a "cynical temperament" and a "caustic tongue."[31] Andrade was more sympathetic, but still used the adjectives "difficult", "suspicious", and "irritable" in describing Hooke.[32]

The publication of Hooke's diary in 1935[33] revealed previously unknown details about his social and familial relationships. Biographer Margaret 'Espinasse argued that "the picture which is usually painted of Hooke as a morose... recluse is completely false."[26]: 106  Hooke interacted with noted craftsmen such as Thomas Tompion, the clockmaker, and Christopher Cocks (Cox), an instrument maker. He often met Christopher Wren, with whom he shared many interests, and had a lasting friendship with John Aubrey. Hooke's diaries also make frequent reference to meetings at coffeehouses and taverns, and to dinners with Robert Boyle. He took tea on many occasions with his lab assistant, Harry Hunt. Although Hooke largely lived alone, apart from the servants who ran his home, his niece Grace Hooke and cousin Tom Giles lived with him for some years as children.

Hooke never married. His diary records that he sexually abused his niece Grace, who was in his custody between the ages of 10 and 17, during her teens.[34] Hooke also had sexual relations with several maids and housekeepers, and records that one of these housekeepers gave birth to a girl, but he does not note the child's paternity.[33]

Under the strain of an enormous workload, Hooke suffered from headaches, dizziness and bouts of insomnia. Approaching these in the same scientific spirit that he brought to his work, he experimented with self-medication, diligently recording symptoms, substances and effects in his diary. He regularly used sal ammoniac, purges and opiates, which appear to have had an increasing impact on his physical and mental health over time.[35]

On 3 March 1703 Hooke died in London, having been blind and bedridden during the last year of his life. A chest containing £8,000 in money and gold was found in his room at Gresham College.[f] Although he had talked of leaving a generous bequest to the Royal Society, which would have given his name to a library, laboratory and lectures, no will was found and the money passed to a cousin, Elizabeth Stephens.[36] Hooke was buried at St Helen's Bishopsgate, but the precise location of his grave is unknown.

Science

 
Hooke's drawing of a flea

Mechanics

In 1660, Hooke discovered the law of elasticity which bears his name and which describes the linear variation of tension with extension in an elastic spring. He first described this discovery in the anagram "ceiiinosssttuv", whose solution he published in 1678[37] as "Ut tensio, sic vis" meaning "As the extension, so the force." Hooke's work on elasticity culminated, for practical purposes, in his development of the balance spring or hairspring, which for the first time enabled a portable timepiece – a watch – to keep time with reasonable accuracy. A bitter dispute between Hooke and Christiaan Huygens on the priority of this invention was to continue for centuries after the death of both; but a note dated 23 June 1670 in the Hooke Folio (see External links below), describing a demonstration of a balance-controlled watch before the Royal Society, has been held to favour Hooke's claim.[38]

 
Cell structure of cork by Hooke

Hooke first announced his law of elasticity as an anagram. This was a method sometimes used by scientists, such as Hooke, Huygens, Galileo, and others, to establish priority for a discovery without revealing details.[39]

Hooke became Curator of Experiments in 1662 to the newly founded Royal Society, and took responsibility for experiments performed at its weekly meetings. This was a position he held for over 40 years. While this position kept him in the thick of science in Britain and beyond, it also led to some heated arguments with other scientists, such as Huygens (see above) and particularly with Isaac Newton and the Royal Society's Henry Oldenburg. In 1664 Hooke also was appointed Professor of Geometry at Gresham College in London and Cutlerian Lecturer in Mechanics.[26]: 187 

On 8 July 1680, Hooke observed the nodal patterns associated with the modes of vibration of glass plates. He ran a bow along the edge of a glass plate covered with flour, and saw the nodal patterns emerge.[40][41] In acoustics, in 1681 he showed the Royal Society that musical tones could be generated from spinning brass cogs cut with teeth in particular proportions.[42]

Gravitation

While many of his contemporaries believed in the aether as a medium for transmitting attraction or repulsion between separated celestial bodies, Hooke argued for an attracting principle of gravitation in Micrographia (1665). Hooke's 1666 Royal Society lecture on gravity added two further principles: that all bodies move in straight lines until deflected by some force and that the attractive force is stronger for closer bodies.[citation needed] Dugald Stewart quoted Hooke's own words on his system of the world.[43]

"I will explain," says Hooke, in a communication to the Royal Society in 1666, "a system of the world very different from any yet received. It is founded on the following positions. 1. That all the heavenly bodies have not only a gravitation of their parts to their own proper centre, but that they also mutually attract each other within their spheres of action. 2. That all bodies having a simple motion, will continue to move in a straight line, unless continually deflected from it by some extraneous force, causing them to describe a circle, an ellipse, or some other curve. 3. That this attraction is so much the greater as the bodies are nearer. As to the proportion in which those forces diminish by an increase of distance, I own I have not discovered it...."

Hooke's 1670 Gresham lecture explained that gravitation applied to "all celestial bodies" and added the principles that the gravitating power decreases with distance and that in the absence of any such power bodies move in straight lines.

Hooke published his ideas about the "System of the World" again in somewhat developed form in 1674, as an addition to "An Attempt to Prove the Motion of the Earth from Observations".[44] Hooke clearly postulated mutual attractions between the Sun and planets, in a way that increased with nearness to the attracting body.

Hooke's statements up to 1674 made no mention, however, that an inverse square law applies or might apply to these attractions. Hooke's gravitation was also not yet universal, though it approached universality more closely than previous hypotheses.[45] Hooke also did not provide accompanying evidence or mathematical demonstration. On these two aspects, Hooke stated in 1674: "Now what these several degrees [of gravitational attraction] are I have not yet experimentally verified" (indicating that he did not yet know what law the gravitation might follow); and as to his whole proposal: "This I only hint at present", "having my self many other things in hand which I would first compleat, and therefore cannot so well attend it" (i.e. "prosecuting this Inquiry").[44]

In November 1679, Hooke initiated a remarkable exchange of letters with Newton[46] (of which the full text is now published).[47] Hooke's ostensible purpose was to tell Newton that Hooke had been appointed to manage the Royal Society's correspondence.[48] Hooke therefore wanted to hear from members about their researches, or their views about the researches of others; and as if to whet Newton's interest, he asked what Newton thought about various matters, giving a whole list, mentioning "compounding the celestial motions of the planetts of a direct motion by the tangent and an attractive motion towards the central body", and "my hypothesis of the lawes or causes of springinesse", and then a new hypothesis from Paris about planetary motions (which Hooke described at length), and then efforts to carry out or improve national surveys, the difference of latitude between London and Cambridge, and other items. Newton's reply offered "a fansy of my own" about a terrestrial experiment (not a proposal about celestial motions) which might detect the Earth's motion, by the use of a body first suspended in air and then dropped to let it fall. The main point was to indicate how Newton thought the falling body could experimentally reveal the Earth's motion by its direction of deviation from the vertical, but he went on hypothetically to consider how its motion could continue if the solid Earth had not been in the way (on a spiral path to the centre). Hooke disagreed with Newton's idea of how the body would continue to move.[g] A short further correspondence developed, and towards the end of it Hooke, writing on 6 January 1679|80 to Newton, communicated his "supposition ... that the Attraction always is in a duplicate proportion to the Distance from the Center Reciprocall, and Consequently that the Velocity will be in a subduplicate proportion to the Attraction and Consequently as Kepler Supposes Reciprocall to the Distance."[51] (Hooke's inference about the velocity was actually incorrect)[52]

In 1686, when the first book of Newton's Principia was presented to the Royal Society, Hooke claimed that he had given Newton the "notion" of "the rule of the decrease of Gravity, being reciprocally as the squares of the distances from the Center". At the same time (according to Edmond Halley's contemporary report) Hooke agreed that "the Demonstration of the Curves generated therby" was wholly Newton's.[47]

A recent assessment about the early history of the inverse square law is that "by the late 1660s," the assumption of an "inverse proportion between gravity and the square of distance was rather common and had been advanced by a number of different people for different reasons".[53] Newton himself had shown in the 1660s that for planetary motion under a circular assumption, force in the radial direction had an inverse-square relation with distance from the center.[54] Newton, faced in May 1686 with Hooke's claim on the inverse square law, denied that Hooke was to be credited as author of the idea, giving reasons including the citation of prior work by others before Hooke.[47] Newton also firmly claimed that even if it had happened that he had first heard of the inverse square proportion from Hooke, which it had not, he would still have some rights to it in view of his mathematical developments and demonstrations, which enabled observations to be relied on as evidence of its accuracy, while Hooke, without mathematical demonstrations and evidence in favour of the supposition, could only guess (according to Newton) that it was approximately valid "at great distances from the center".[47]

On the other hand, Newton did accept and acknowledge, in all editions of the Principia, that Hooke (but not exclusively Hooke) had separately appreciated the inverse square law in the solar system. Newton acknowledged Wren, Hooke and Halley in this connection in the Scholium to Proposition 4 in Book 1.[55] Newton also acknowledged to Halley that his correspondence with Hooke in 1679–80 had reawakened his dormant interest in astronomical matters, but that did not mean, according to Newton, that Hooke had told Newton anything new or original: "yet am I not beholden to him for any light into that business but only for the diversion he gave me from my other studies to think on these things & for his dogmaticalness in writing as if he had found the motion in the Ellipsis, which inclined me to try it."[47]

One of the contrasts between the two men was that Newton was primarily a pioneer in mathematical analysis and its applications as well as optical experimentation, while Hooke was a creative experimenter of such great range, that it is not surprising to find that he left some of his ideas, such as those about gravitation, undeveloped. This in turn makes it understandable how in 1759, decades after the deaths of both Newton and Hooke, Alexis Clairaut, mathematical astronomer eminent in his own right in the field of gravitational studies, made his assessment after reviewing what Hooke had published on gravitation. "One must not think that this idea ... of Hooke diminishes Newton's glory", Clairaut wrote; "The example of Hooke" serves "to show what a distance there is between a truth that is glimpsed and a truth that is demonstrated".[56][57]

Horology

Hooke made tremendously important contributions to the science of timekeeping, being intimately involved in the advances of his time; the introduction of the pendulum as a better regulator for clocks, the balance spring to improve the timekeeping of watches, and the proposal that a precise timekeeper could be used to find the longitude at sea.

Anchor escapement

In 1655, according to his autobiographical notes, Hooke began to acquaint himself with astronomy, through the good offices of John Ward. Hooke applied himself to the improvement of the pendulum and in 1657 or 1658, he began to improve on pendulum mechanisms, studying the work of Giovanni Riccioli, and going on to study both gravitation and the mechanics of timekeeping.

Henry Sully, writing in Paris in 1717, described the anchor escapement as an admirable invention of which Dr. Hooke, formerly professor of geometry in Gresham College at London, was the inventor.[58] William Derham also attributes it to Hooke.[59]

Watch balance spring

Hooke recorded that he conceived of a way to determine longitude (then a critical problem for navigation), and with the help of Boyle and others he attempted to patent it. In the process, Hooke demonstrated a pocket-watch of his own devising, fitted with a coil spring attached to the arbour of the balance. Hooke's ultimate failure to secure sufficiently lucrative terms for the exploitation of this idea resulted in its being shelved, and evidently caused him to become more jealous of his inventions.[citation needed]

Hooke developed the balance spring independently of and at least 5 years before Christiaan Huygens,[60] who published his own work in Journal de Scavans in February 1675.

Microscopy

 
Hooke's microscope

Hooke's 1665 book Micrographia, describing observations with microscopes and telescopes, as well as original work in biology, contains the earliest of an observed microorganism, a microfungus Mucor.[7] Hooke coined the term cell, suggesting plant structure's resemblance to honeycomb cells.[61] The hand-crafted, leather and gold-tooled microscope he used to make the observations for Micrographia, originally constructed by Christopher White in London, is on display at the National Museum of Health and Medicine in Maryland.

Micrographia also contains Hooke's, or perhaps Boyle and Hooke's, ideas on combustion. Hooke's experiments led him to conclude that combustion involves a substance that is mixed with air, a statement with which modern scientists would agree, but that was not understood widely, if at all, in the seventeenth century. Hooke went on to conclude that respiration also involves a specific component of the air.[62] Partington even goes so far as to claim that if "Hooke had continued his experiments on combustion it is probable that he would have discovered oxygen".[63]

Palaeontology

 
Drawings of the Moon and the Pleiades from Hooke's Micrographia

One of the observations in Micrographia was of fossil wood, the microscopic structure of which he compared to ordinary wood. This led him to conclude that fossilised objects like petrified wood and fossil shells, such as Ammonites, were the remains of living things that had been soaked in petrifying water laden with minerals.[64] Hooke believed that such fossils provided reliable clues to the past history of life on Earth, and, despite the objections of contemporary naturalists like John Ray who found the concept of extinction theologically unacceptable, that in some cases they might represent species that had become extinct through some geological disaster.[65]

Charles Lyell wrote the following in his Principles of Geology (1832).

'The Posthumous Works of Robert Hooke M.D.,'... appeared in 1705, containing 'A Discourse of Earthquakes'... His treatise... is the most philosophical production of that age, in regard to the causes of former changes in the organic and inorganic kingdoms of nature. 'However trivial a thing,' he says, 'a rotten shell may appear to some, yet these monuments of nature are more certain tokens of antiquity than coins or medals, since the best of those may be counterfeited or made by art and design, as may also books, manuscripts, and inscriptions, as all the learned are now sufficiently satisfied has often been actually practised,' &c.; 'and though it must be granted that it is very difficult to read them and to raise a chronology out of them, and to state the intervals of the time wherein such or such catastrophes and mutations have happened, yet it is not impossible.

Astronomy

 
Hooke noted the shadows (a and b) cast by both the globe and the rings on each other in this drawing of Saturn.

One of the more-challenging problems tackled by Hooke was the measurement of the distance to a star (other than the Sun). The star chosen was Gamma Draconis and the method to be used was parallax determination. After several months of observing, in 1669, Hooke believed that the desired result had been achieved. It is now known that Hooke's equipment was far too imprecise to allow the measurement to succeed.[66] Gamma Draconis was the same star James Bradley used in 1725 in discovering the aberration of light.

Hooke's activities in astronomy extended beyond the study of stellar distance. His Micrographia contains illustrations of the Pleiades star cluster as well as of lunar craters. He performed experiments to study how such craters might have formed.[67] Hooke also was an early observer of the rings of Saturn,[68] and discovered one of the first observed double-star systems, Gamma Arietis, in 1664.[69]

Memory

A lesser-known contribution, however one of the first of its kind, was Hooke's scientific model of human memory. Hooke in a 1682 lecture to the Royal Society proposed a mechanistic model of human memory, which would bear little resemblance to the mainly philosophical models before it.[70] This model addressed the components of encoding, memory capacity, repetition, retrieval, and forgetting – some with surprising modern accuracy.[71] This work, overlooked for nearly 200 years, shared a variety of similarities with Richard Semon's work of 1919/1923, both assuming memories were physical and located in the brain.[72][73][74] The model's more interesting points are that it (1) allows for attention and other top-down influences on encoding; (2) it uses resonance to implement parallel, cue-dependent retrieval; (3) it explains memory for recency; (4) it offers a single-system account of repetition and priming, and (5) the power law of forgetting can be derived from the model's assumption in a straightforward way.[71] This lecture would be published posthumously in 1705 as the memory model was unusually placed in a series of works on the nature of light. It has been speculated that this work saw little review as the printing was done in small batches in a post-Newtonian age of science and was most likely deemed out of date by the time it was published. Further interfering with its success was contemporary memory psychologists' rejection of immaterial souls, which Hooke invoked to some degree in regards to the processes of attention, encoding and retrieval.

Architecture

Hooke was Surveyor to the City of London and chief assistant to Christopher Wren, in which capacity he helped Wren rebuild London after the Great Fire in 1666, and also worked on the design of London's Monument to the fire, the Royal Greenwich Observatory, Montagu House in Bloomsbury, and the Bethlem Royal Hospital (which became known as 'Bedlam'). Other buildings designed by Hooke include The Royal College of Physicians (1679), Ragley Hall in Warwickshire, Ramsbury Manor in Wiltshire[75] and the parish church of St Mary Magdalene at Willen in Milton Keynes, Buckinghamshire. Hooke's collaboration with Christopher Wren also included St Paul's Cathedral, whose dome uses a method of construction conceived by Hooke. Hooke also participated in the design of the Pepys Library, which held the manuscripts of Samuel Pepys' diaries, the most frequently cited eyewitness account of the Great Fire of London.[76]

Hooke and Wren both being keen astronomers, the Monument was designed to serve a scientific function as a telescope for observing transits, though Hooke's characteristically precise measurements after completion showed that the movement of the column in the wind made it unusable for this purpose. The legacy of this can be observed in the construction of the spiral staircase, which has no central column, and in the observation chamber which remains in place below ground level.

In the reconstruction after the Great Fire, Hooke proposed redesigning London's streets on a grid pattern with wide boulevards and arteries,[citation needed] a pattern subsequently used in Haussmann's renovation of Paris, in Liverpool, and in many American cities. This proposal was thwarted by arguments over property rights, as property owners were surreptitiously shifting their boundaries. Hooke was in demand to settle many of these disputes, due to his competence as a surveyor and his tact as an arbitrator.[citation needed]

Likenesses

 
Portrait thought for a time to be Hooke, but almost certainly Jan Baptist van Helmont[77]

No authenticated portrait of Robert Hooke exists. This situation has sometimes been attributed to the heated conflicts between Hooke and Newton, although Hooke's biographer Allan Chapman rejects as a myth the claims that Newton or his acolytes deliberately destroyed Hooke's portrait. German antiquarian and scholar Zacharias Conrad von Uffenbach visited the Royal Society in 1710 and his account of his visit specifically mentions him being shown the portraits of 'Boyle and Hoock' (which were said to be good likenesses), but while Boyle's portrait survives, Hooke's has evidently been lost.[12] In Hooke's time, the Royal Society met at Gresham College, but within a few months of Hooke's death Newton became the Society's president and plans were laid for a new meeting place. When the move to new quarters finally was made a few years later, in 1710, Hooke's Royal Society portrait went missing, and has yet to be found.

Two contemporary written descriptions of Hooke's appearance have survived. The first was recorded by his close friend John Aubrey, who described Hooke in middle age and at the height of his creative powers:

He is but of midling stature, something crooked, pale faced, and his face but little below, but his head is lardge, his eie full and popping, and not quick; a grey eie. He haz a delicate head of haire, browne, and of an excellent moist curle. He is and ever was temperate and moderate in dyet, etc.

The second is a rather unflattering description of Hooke as an old man, written by Richard Waller:

As to his Person he was but despicable, being very crooked, tho' I have heard from himself, and others, that he was strait till about 16 Years of Age when he first grew awry, by frequent practising, with a Turn-Lath ... He was always very pale and lean, and laterly nothing but Skin and Bone, with a Meagre Aspect, his Eyes grey and full, with a sharp ingenious Look whilst younger; his nose but thin, of a moderate height and length; his Mouth meanly wide, and upper lip thin; his Chin sharp, and Forehead large; his Head of a middle size. He wore his own Hair of a dark Brown colour, very long and hanging neglected over his Face uncut and lank...[12]

Time magazine published a portrait, supposedly of Hooke, on 3 July 1939. However, when the source was traced by Ashley Montagu, it was found to lack a verifiable connection to Hooke. Moreover, Montagu found that two contemporary written descriptions of Hooke's appearance agreed with one another, but that neither matched the Time's portrait.[78]

In 2003, historian Lisa Jardine claimed that a recently discovered portrait was of Hooke,[79] but this claim was disproved by William B. Jensen of the University of Cincinnati. The portrait identified by Jardine depicts the Flemish scholar Jan Baptist van Helmont.[77]

Other possible likenesses of Hooke include the following:

  • A seal used by Hooke displays an unusual profile portrait of a man's head, which some have argued portrays Hooke.
  • The engraved frontispiece to the 1728 edition of Chambers' Cyclopedia shows a drawing of a bust of Robert Hooke.[80] The extent to which the drawing is based on an actual work of art is unknown.
  • A memorial window[12] existed at St Helen's Bishopsgate in London, but it was a formulaic rendering, not a likeness. The window was destroyed in the 1993 Bishopsgate bombing.

In 2003, amateur history painter Rita Greer embarked on a self-funded project to memorialise Hooke. Her project aimed to produce credible images of him, both painted and drawn, that she believes fit the descriptions of him by his contemporaries John Aubrey and Richard Waller. Greer's images of Hooke, his life and work have been used for TV programmes in UK and US, in books, magazines and for PR.[81][82][83][84][85][86][87]

In 2019, Dr. Larry Griffing, an associate professor at Texas A&M University, conjectured that a contemporary portrait by famed painter Mary Beale – of an unknown sitter and referred to as "Portrait of a Mathematician" – was actually Hooke, noting that the physical features of the sitter in the portrait match his. The figure points to a drawing of elliptical motion which appears to match an unpublished manuscript created by Hooke. The painting also includes an orrery depicting the same principle. Griffing believes that buildings included in the image are of Lowther Castle, now in Cumbria, and pointedly its Church of St Michael. The church was renovated under one of Hooke's architectural commissions, which Beale would have gained familiarity with when commissioned by the Lowther family. Griffing theorizes that the painting would once have been owned by the Royal Society, but was purposefully abandoned when Newton as its president moved the Society's official residence in 1710.[1][88]

Commemorations

 
Hooke memorial plaque in Westminster Abbey

Works

  • Reponse de Monsieur Hook aux considerations de M. Auzout contenue dans un lettre ecrite a l'auteur des Philosophical Transactions et quelques lettres ecrites de part & d'autre sur le sujet des grandes lunettes [Reply of Mr. Hook to the considerations of Mr. Auzout contained in a letter written to the author of Philosophical Transactions and some letters written on both sides on the subject of large lenses] (in French). Paris: Jean Cusson (2.). 1665.
  • Lectures de potentia restitutiva, or, Of spring explaining the power of springing bodies. London : Printed for John Martyn. 1678.
  • Attempt to prove the motion of the earth (in Latin). 1679.
  • Micrographia full text at Project Gutenberg, with illustrations at Internet Archive
  • Collection of Lectures: Physical, Mechanical, Geographical and Astronomical. London : Printed for John Martyn, printer to the Royal Society, at the Bell in S. Pauls Church-yard. 1679. includes An Attempt to prove the Annual Motion of the Earth, Animadversions on the Machina Coelestis of Mr. Hevelius, A Description of Helioscopes with other instruments, Mechanical Improvement of Lamps, Remarks about Comets 1677, Microscopium, Lectures on the Spring, etc.
  • Philosophical experiments and observations. London: William Innys & John Innys. 1726.
  • The posthumous works of Robert Hooke, M.D. S.R.S. Geom. Prof. Gresh. etc. containing his Cutlerian lectures, and other discourses, read at the meetings of the illustrious Royal Society... illustrated with sculptures. To these discourses is prefixt the author's life, giving an account of his studies and employments, with an enumeration of the many experiments, instruments, contrivances and inventions, by him made and produced as curator of experiments to the Royal Society. Richard Waller, R.S. Secr. 1705.
  •  

    1678 copy of Hooke's "Lectures de potentia restitutiva"

  •  

    Title page of "Lectures de potentia restitutiva"

  •  

    First page of "Lectures de potentia restitutiva"

  •  

    Figure from "Lectures de potentia restitutiva"

  •  

    Figure from "Lectures de potentia restitutiva"

See also

Notes

  1. ^ a b These dates are according to the Julian calendar, which was still in use in England at the time. His date of death raises an additional complication: formally the civil year began on 25 March although common practice then as now was to start the year on 1 January. Thus his legal date of death was 3 March 1702 but 3 March 1703 in common usage and as shown here: according to the dual dating practice at the time it would be recorded in church records as 3 March 1702/3.[3] Wikipedia follows the convention adopted by most modern historical writing of retaining the dates according to the Julian calendar but taking the year as starting on 1 January rather than 25 March. (According to the Gregorian calendar used in most of the rest of Europe, he was born on 28 July 1635 and died on 14 March 1703. The deviation between the calendars grew from ten to eleven days between his birth and his death because the Julian calendar had a 29 February 1700 but the Gregorian calendar did not. See also Calendar (New Style) Act 1750.)
  2. ^ His father had speculated that he might become a watchmaker or limner (a decorator of illuminated manuscripts.[citation needed]
  3. ^ About £5,600 today. He was 13 years old.
  4. ^ About £8,200 today.
  5. ^ About £5,100 today. Sir John Cutler and Hooke were at odds in the following years over monies due to Hooke. Following Cutler's death, Hooke enlisted the aid of friends of the Cutler family, including Master of The Haberdashers Company Sir Richard Levett, for whom Hooke was involved in a building commission, to help recover the funds owed by Cutler.[14]
  6. ^ About £1,442,000 today.
  7. ^ Several commentators[who?] have followed Hooke in calling Newton's spiral path mistaken, or even a 'blunder', but there are also the facts: (a) that Hooke left out of account Newton's specific statement that the motion resulted from dropping "a heavy body suspended in the Air" (i.e. a resisting medium), see Newton to Hooke, 28 November 1679, document #236 at p. 301, 'Correspondence' vol. 2 cited above, and compare Hooke's report to the Royal Society on 11 December 1679 where Hooke reported the matter "supposing no resistance", see D Gjertsen, 'Newton Handbook' (1986), at p. 259; and (b) that Hooke's reply of 9 December 1679 to Newton considered the cases of motion both with and without air resistance: The resistance-free path was what Hooke called an 'elliptueid'; but a line in Hooke's diagram showing the path for his case of air resistance was, though elongated, also another inward-spiralling path ending at the Earth's centre: Hooke wrote "where the Medium ... has a power of impeding and destroying its motion the curve in which it would move would be some what like the Line AIKLMNOP &c and ... would terminate in the center C". Hooke's path including air resistance was therefore to this extent like Newton's (see 'Correspondence' vol.2, cited above, at pp. 304–306, document #237, with accompanying figure). The diagrams are also online: see Wilson, p. 241, showing Newton's 1679 diagram with spiral,[49] and extract of his letter; also Wilson, p. 242 showing Hooke's 1679 diagram including two paths, closed curve and spiral.[50] Newton pointed out in his later correspondence over the priority claim that the descent in a spiral "is true in a resisting medium such as our air is", see 'Correspondence', vol. 2 cited above, at p. 433, document #286.

References

  1. ^ a b Griffing, Lawrence R. (2020). "The lost portrait of Robert Hooke?". Journal of Microscopy. 278 (3): 114–122. doi:10.1111/jmi.12828. PMID 31497878. S2CID 202003003.
  2. ^ Whittaker, Christopher A. (2021). "Unconvincing evidence that Beale's Mathematician is Robert Hooke". Journal of Microscopy. 282 (2): 189–190. doi:10.1111/jmi.12987. ISSN 0022-2720. PMID 33231292. S2CID 227159587.
  3. ^ a b Singer, B. R. (July 1976). "Robert Hooke on Memory, Association and Time Perception (1)". Notes and Records of the Royal Society of London. 31 (1): 115–131. doi:10.1098/rsnr.1976.0003. JSTOR 531553. PMID 11609928. S2CID 21409461. Hooke died on 3 March 1702/3
  4. ^ "Robert Hooke - Biography, Facts and Pictures". FamousScientists.org. Retrieved 13 December 2022.
  5. ^ Gest, Howard (May 2004). "The discovery of microorganisms by Robert Hooke and Antoni van Leeuwenhoek, Fellows of The Royal Society". Notes Rec R Soc Lond. 58 (2): 187–201. doi:10.1098/rsnr.2004.0055. PMID 15209075. S2CID 8297229.
  6. ^ Gest, Howard (Summer 2009). "Homage to Robert Hooke (1635–1703): New insights from the recently discovered Hooke folio"". Perspect Biol Med. 52 (3): 392–399. doi:10.1353/pbm.0.0096. PMID 19684374. S2CID 38598026.
  7. ^ a b Gest, Howard (May 2004). "The discovery of microorganisms by Robert Hooke and Antoni van Leeuwenhoek, Fellows of The Royal Society". Notes Rec R Soc Lond. 58 (2): 187–201. doi:10.1098/rsnr.2004.0055. PMID 15209075. S2CID 8297229.;
    Gest, Howard (Summer 2009). "Homage to Robert Hooke (1635–1703): New insights from the recently discovered Hooke folio"". Perspect Biol Med. 52 (3): 392–399. doi:10.1353/pbm.0.0096. PMID 19684374. S2CID 38598026.
  8. ^ Encyclopædia Britannica, 15th Edition, vol.6 p. 44
  9. ^ a b Gribbin, John; Gribbin, Mary (2017). Out of the shadow of a giant: Hooke, Halley and the birth of British science, 1946-. London. ISBN 978-0-00-822059-4. OCLC 966239842.
  10. ^ Drake, Ellen Tan (2006). "Hooke's Ideas of the Terraqueous Globe and a Theory of Evolution". In Michael Cooper; Michael Hunter (eds.). Robert Hooke: Tercentennial Studies. Burlington, Vermont: Ashgate. pp. 135–149. ISBN 978-0-7546-5365-3.
  11. ^ Drake, Ellen Tan (1996). Restless Genius: Robert Hooke and His Earthly Thoughts. Oxford University Press. ISBN 978-0-19-506695-1.
  12. ^ a b c d Chapman, Alan (1996). . Proceedings of the Royal Institution of Great Britain. 67: 239–275. Archived from the original on 6 March 2011.
  13. ^ * Ward, John (1740). The lives of the professors of Gresham college: to which is prefixed the life of the founder, Sir T. Gresham. Oxford. pp. 169–193.
  14. ^ a b c Jardine, Lisa (2003). The Curious Life of Robert Hooke: The Man who Measured London (1st ed.). New York: Harper Collins Publishers. p. 23. ISBN 978-0-00-714944-5.
  15. ^ Martin, Rob (2000). "The Tragedy of Robert Hooke's Brother". The Isle of Wight History Centre. Retrieved 9 March 2010. Robert is given forty pounds, a chest and all the books
  16. ^ a b c O'Connor, J J & Robertson, E F (August 2002). . School of Mathematics and Statistics University of St Andrews, Scotland. Archived from the original on 16 July 2010. Retrieved 9 March 2010. He was left £40 by his father, together with all his father's books (the often quoted figure of £100 is a much repeated error)
  17. ^ Shapin, Steven; Schaffer, Simon (1985). "2". Leviathan and the Air-Pump: Hobbes, Boyle and the Experimental Life. Princeton: Princeton University Press. ISBN 978-0-691-08393-3. Retrieved 11 September 2009.
  18. ^ Pugliese, Patri J. (2004). "Robert Hooke". Oxford Dictionary of National Biography. doi:10.1093/ref:odnb/13693.
  19. ^ Fulton, John F. (1960). "The Honourable Robert Boyle, F.R.S. (1627–1692)". Notes and Records of the Royal Society of London. 15: 119–135 (123). doi:10.1098/rsnr.1960.0012. S2CID 145310587.
  20. ^ Gunther, Robert (1923–1967). Early Science in Oxford. Vol. 7. privately printed.
  21. ^ a b Waller, Richard (1705). The Posthumous Works of Robert Hooke, M.D. S.R.S. London: Sam. Smith and Benj. Walford.
  22. ^ De Milt, Clara (November 1939). "Robert Hooke, Chemist". Journal of Chemical Education. 16 (11): 503–510. Bibcode:1939JChEd..16..503D. doi:10.1021/ed016p503.
  23. ^ “The Heat Engine Idea in the Seventeenth Century” Rhys Jenkins, Paper read to the Chartered Institute of Patent Agents, 21 October 1936.
  24. ^ Rosen, William (2012). The Most Powerful Idea in the World: A Story of Steam, Industry and Invention. University of Chicago Press. pp. 74, 331. ISBN 978-0-226-72634-2.
  25. ^ See, for example, the 2003 Hooke meeting at the University of Oxford: "Robert Hooke Day at Christ Church, Oxford". Retrieved 23 January 2009.
  26. ^ a b c 'Espinasse, Margaret (1956). Robert Hooke. London: William Heinemann Ltd. OCLC 459411551.
  27. ^ "Auction deal saves £1m manuscript". BBC News. 28 March 2006.
  28. ^ Berry, Arthur (1898). A Short History of Astronomy. London: John Murray. p. 221.- See also the reprint published by Dover in 1961
  29. ^ Sullivan, J. W. N. (1938). Isaac Newton 1642–1727. New York: Macmillan. pp. 35–37.
  30. ^ Manuel, Frank E. (1968). A Portrait of Isaac Newton. Cambridge, Massachusetts: Harvard University Press. p. 138.
  31. ^ More, Louis Trenchard (1934). Isaac Newton. New York: Charles Schribner's Sons. pp. 94–95.
  32. ^ Andrarde, E. N. De C. (1950). Isaac Newton. New York: Chanticleer Press. pp. 56–57.
  33. ^ a b Hooke, Robert (1935). Robinson, H. W.; Adams, W. (eds.). The Diary of Robert Hooke, M.A., M.D., F.R.S., 1672–1680. London: Taylor & Francis.
  34. ^ Tinniswood, Adrian (2019). The Royal Society And The Invention of Modern Science. Unknown: Apollo. p. 58.
  35. ^ Jardine, Lisa (2003). The Man Who Measured London. Unknown: HarperCollins. p. 00.
  36. ^ Inwood 2002, pp. 1, 2.
  37. ^ Robert Hooke, De Potentia Restitutiva, or of Spring. Explaining the Power of Springing Bodies, London, 1678.
  38. ^ "Hooke Folio Online". Queen Mary University of London. Archived from the original on 18 July 2012. Retrieved 10 September 2012.
  39. ^ "The Back Page". aps.org. Retrieved 12 February 2021.
  40. ^ Ernst Florens Friedrich Chladni 14 May 2011 at the Wayback Machine, Institute for Learning Technologies 11 November 2007 at the Wayback Machine, Columbia University
  41. ^ Oxford Dictionary of Scientists, Oxford University Press, 1999, p. 101, ISBN 7810802259.
  42. ^ Greated, Clive (2001). "Robert Hooke". In Sadie, Stanley; Tyrrell, John (eds.). The New Grove Dictionary of Music and Musicians (2nd ed.). London: Macmillan. ISBN 978-1-56159-239-5.
  43. ^ Stewart, Dugald (1877) Elements of the Philosophy of the Human Mind, T. & T. Clark, Vol. 2, Ch. 2, Section 4.2 (pp. 304 ff.)
  44. ^ a b Hooke's 1674 statement in "An Attempt to Prove the Motion of the Earth from Observations", is available in online facsimile here.
  45. ^ Wilson, p. 239
  46. ^ Iliffe, Rob (2007). Newton:A Very Short Introduction. Oxford University Press. pp. 140–. ISBN 978-0-19-157902-8.
  47. ^ a b c d e Turnbull, H W (ed.) (1960), Correspondence of Isaac Newton, Vol. 2 (1676–1687), Cambridge University Press, giving the Hooke-Newton correspondence (of November 1679 to January 1679/80) at pp. 297–314, and the 1686 correspondence over Hooke's priority claim at pp. 431–448.
  48. ^ Turnbull, H W (ed.) (1960), Correspondence of Isaac Newton, Vol. 2 (1676–1687), Cambridge University Press, p. 297.
  49. ^ R. Taton, C. Wilson, Michael Hoskin (eds), Planetary Astronomy from the Renaissance to the Rise of Astrophysics, Part A, Tycho Brahe to Newton,Cambridge University Press 2003, ISBN 9780521542050, page 241
  50. ^ R. Taton, C. Wilson, Michael Hoskin (eds), Planetary Astronomy from the Renaissance to the Rise of Astrophysics, Part A, Tycho Brahe to Newton,Cambridge University Press 2003, ISBN 9780521542050, page 242
  51. ^ See p. 309 in 'Correspondence of Isaac Newton', Vol. 2 cited above, at document #239.
  52. ^ Wilson, p. 244.
  53. ^ Gal, Ofer (2002) Meanest foundations and nobler superstructures: Hooke, Newton and the 'Compounding of the Celestiall Motions of the Planetts, Springer, p. 9, ISBN 1402007329.
  54. ^ Whiteside, D T (1991). "The pre-history of the 'Principia' from 1664 to 1686". Notes and Records of the Royal Society of London. 45 (1): 11–61 (13–20). doi:10.1098/rsnr.1991.0002. JSTOR 531520.
  55. ^ See for example the 1729 English translation of the 'Principia', p. 66.
  56. ^ The second extract is quoted and translated in W.W. Rouse Ball, "An Essay on Newton's 'Principia'" (London and New York: Macmillan, 1893), at p. 69.
  57. ^ The original statements by Clairaut (in French) are found (with orthography here as in the original) in Explication abregée du systême du monde, et explication des principaux phénomenes astronomiques tirée des Principes de M. Newton (1759), at Introduction (section IX), p. 6: Il ne faut pas croire que cette idée ... de Hook diminue la gloire de M. Newton, [and] L'exemple de Hook [serve] à faire voir quelle distance il y a entre une vérité entrevue & une vérité démontrée.
  58. ^ Sully, H and Le Roy, J (1737) Regle artificielle des tems, G. Dupuis, Paris, ch. 1, p. 14
  59. ^ Derham, William (1734) The artificial clock maker, James, John and Paul Knapton. at the Crown, in Ludgate Street., p. 97.
  60. ^ Ian Sample, "Eureka! Lost manuscript found in cupboard", The Guardian, 9 February 2006
  61. ^ Hooke, Robert (1665). Micrographia: Or Some Physiological Descriptions of Minute Bodies Made by Magnifying Glasses, with Observations and Inquiries Thereupon. The Royal Society. p. 113.
  62. ^ See particularly Observation 16 of Micrographia.
  63. ^ Partington, J. P. (1951). A Short History of Chemistry (2nd ed.). London: Macmillan and Company. pp. 78–80.
  64. ^ Rudwick, Martin J.S. (1976). The Meaning of Fossils. The University of Chicago Press. p. 54.
  65. ^ Bowler, Peter J. (1992). The Earth Encompassed. W. W. Norton. pp. 118–119.
  66. ^ Hirshfeld, Alan W. (2001). Parallax, The Race to Measure the Cosmos. New York: W. H. Freeman. pp. 144–149. ISBN 978-0-7167-3711-7.
  67. ^ Ashbrook, Joseph (1984). The Astronomical Scrapbook. Cambridge, Massachusetts: Sky Publishing Corporation. pp. 240–241. ISBN 978-0-521-10604-7.
  68. ^ Alexander, A. F. O'D. (1962). The Planet Saturn. Londin: Faber and Faber Limited. pp. 108–109.
  69. ^ Aitken, Robert G. (1935). The Binary Stars. New York: McGraw-Hill. p. 1.
  70. ^ Singer, B. R. (1979). "Robert Hooke on memory: Association and time perception (I)". Notes and Records of the Royal Society of London. 31 (1): 115–131. doi:10.1098/rsnr.1976.0003. JSTOR 531553. PMID 11609928. S2CID 21409461.
  71. ^ a b Hintzman, D. L. (2003). "Robert Hooke's model of memory". Psychonomic Bulletin & Review. 10 (1): 3–14. doi:10.3758/BF03196465. PMID 12747488.
  72. ^ Semon, R. (1923). Mnemic psychology (B. Duffy, Trans.). London: George Allen & Unwin. (Original work published 1919)
  73. ^ Schacter, D. L. (2001). Forgotten ideas, neglected pioneers: Richard Semon and the story of memory. Philadelphia: Psychology Press/Taylor & Francis, ISBN 184169052X.
  74. ^ Schacter, D. L.; Eich, J. E. & Tulving, E. (1978). "Richard Semon's theory of memory". Journal of Verbal Learning & Verbal Behavior. 17 (6): 721–743. doi:10.1016/S0022-5371(78)90443-7.
  75. ^ Inwood, Stephen (28 February 2011). The Man Who Knew Too Much (Kindle Location 8290). Macmillan Publishers UK. Kindle Edition.
  76. ^ Hyam, R. (1982). Magdalene Described. Sawston, Cambridgeshire, U.K.: Crampton & Sons Ltd.
  77. ^ a b . Libraries.uc.edu. 4 February 2011. Archived from the original on 28 October 2012. Retrieved 10 September 2012.
  78. ^ Montagu, M. F. Ashley (1941). "A Spurious Portrait of Robert Hooke (1635–1703)". Isis. 33: 15–17. doi:10.1086/358521. S2CID 145201143. See also 3 July 1939 issue of Time (p. 39).
  79. ^ Jardine, Lisa (2003). The Curious Life of Robert Hooke. Harper Collins. pp. 15–19.
  80. ^ "Robert Hooke". she-philosopher.com. 17 August 2007. Retrieved 10 September 2012.
  81. ^ Burgan, Michael (2008). Robert Hooke Natural Philosopher and Scientific Explorer. Minneapolis, Minnesota: Compass Point Books. pp. Cover, 21, 26, 45, 65, 77, 88, 96, 98–99, 101. ISBN 978-0-7565-3315-1.
  82. ^ Fekany Lee, Kimberly (2009). Cell Scientists: from Leeuwenhoek to Fuchs. Compass Point Books, Minneapolis, Minnesota. ISBN 978-0-7565-3964-1.
  83. ^ Chapman, Allan (2005). England's Leonardo Robert Hooke and the Seventeenth-Century Scientific Revolution. Institute of Physics Publishing Ltd. pp. Portrait of Robert Hooke inside dust jacket and last page of plates. ISBN 978-0-7503-0987-5.
  84. ^ "Gresham College memorial portrait of Robert Hooke". Dome, the Magazine of the Friends of St. Paul's Cathedral (46): 17.
  85. ^ Chapman, Allan. "Robert Hooke: the forgotten genius of physics". Interactions (April 2005).
  86. ^ "Rita's portraits of Hooke sought after across UK". Petersfield Post (21 May): 13. 2008.
  87. ^ "Unveiling of memorial portrait of Robert Hooke as astronomer and inventor". Open House. Newspaper for the Staff of the Open University (421). 2009.
  88. ^ Griffing, PhD., Larry (9 September 2020). "This 17th Century Scientist Discovered the Cell. I Discovered His Missing Portrait". Daily Beast. Retrieved 17 March 2022.
  89. ^ "(3514) Hooke". (3514) Hooke In: Dictionary of Minor Planet Names. Springer. 2003. p. 295. doi:10.1007/978-3-540-29925-7_3513. ISBN 978-3-540-29925-7.
  90. ^ "BSCB :: The British Society for Cell Biology". bscb.org. Retrieved 10 September 2012.

Sources

  • Wilson, Curtis (1989), Ch. 13 "The Newtonian achievement in astronomy", pp. 233–274 in Planetary astronomy from the Renaissance to the rise of astrophysics: 2A: Tycho Brahe to Newton, Cambridge University Press, ISBN 0521242541.

Further reading

  • Andrade, E. N. De C. (1950). "Wilkins Lecture: Robert Hooke". Proceedings of the Royal Society of London. Series B, Biological Sciences. 137 (887): 153–187. Bibcode:1950RSPSB.137..153A. doi:10.1098/rspb.1950.0029. JSTOR 82545. PMID 15430319. S2CID 162828757.
  • Aubrey, John (1898). Clark, Andrew (ed.). Brief Lives. Oxford: Clarendon Press. pp. 409–416.
  • Bennett, Jim; Michael Cooper; Michael Hunter; Lisa Jardine (2003). London's Leonardo: The Life and Work of Robert Hooke. Oxford University Press. ISBN 978-0-19-852579-0.
  • Chapman, Allan; Kent, Paul, eds. (2005). Robert Hooke and the English Renaissance. Gravewing. ISBN 978-0-85244-587-7.
  • Cooper, Michael (2003). 'A More Beautiful City': Robert Hooke and the Rebuilding of London after the Great Fire. Sutton Publishing Ltd. ISBN 978-0-7509-2959-2.
  • Cooper, Michael; Michael Hunter (2006). Robert Hooke: Tercentennial Studies. Burlington, Vermont: Ashgate.
  • Gunther, Robert, ed. (1923–1967). Early Science in Oxford. Vol. 7. privately printed.
    • Robert Gunther's Early Science in Oxford, a history of science in Oxford during the Protectorate, Restoration and Age of Enlightenment, devotes five of its fourteen volumes to Hooke.
  • Hall, A. R. (1951). "Robert Hooke and Horology". Notes and Records of the Royal Society of London. 8 (2): 167–177. doi:10.1098/rsnr.1951.0016. S2CID 145726594.
  • Hart, Vaughan (2020). Christopher Wren: In Search of Eastern Antiquity, Yale University Press ISBN 978-1913107079
  • Hooke, Robert (1635–1703). Micrographia: or some physiological descriptions of minute bodies made by magnifying glasses with observations and inquiries thereupon...
  • Hooke, Robert (1935). Robinson, H. W.; Adams, W. (eds.). The Diary of Robert Hooke, M.A., M.D., F.R.S., 1672–1680. London: Taylor & Francis.
  • Inwood, Stephen (2002). The Man Who Knew Too Much. Pan. ISBN 978-0-330-48829-7.(Published in the US as The Forgotten Genius)
  • Stevenson, Christine (February 2005). "Robert Hooke, Monuments and Memory". Art History. 28 (1): 43–73. doi:10.1111/j.0141-6790.2005.00453.x.

External links

 
Wikiquote has quotations related to Robert Hooke.
 
Wikimedia Commons has media related to Robert Hooke.
 
Wikisource has original works by or about:
Robert Hooke
  • Robert Hooke, hosted by Westminster School
  • Works by Robert Hooke at Project Gutenberg
  • Works by or about Robert Hooke at Internet Archive
  • Works by Robert Hooke at LibriVox (public domain audiobooks)  
  • Works by Robert Hooke at Open Library
  • Micrographia
    • Hooke's Micrographia, at Project Gutenberg (downloadable collections, including searchable ASCII text and book as complete html document with images)
    • Hooke's Micrographia, at Linda Hall Library
    • Digitzed images of Micrographia housed at the University of Kentucky Libraries Special Collections Research Center
  • Lost manuscript of Robert Hooke discovered – from The Guardian
  • Manuscript bought for The Royal Society – from The Guardian
  • Robert Hooke's Books, a searchable database of books that belonged to or were annotated by Robert Hooke
  • Westfall, Richard S. "Robert Hooke". Rice University (The Galileo Project). Retrieved 16 February 2008.
  • Cooper, Michael (11 May 2008). "Now that the dust has settled: A view of Robert Hooke post-2003". Retrieved 22 December 2008. – A 60-minute presentation by Prof. Michael Cooper, Gresham College, with links to slides, audio, video, and a transcript, with references
  • The posthumous works of Robert Hooke (1705) – full digital facsimile from Linda Hall Library

January 26, 2023
robert, hooke, july, 1635, march, 1703, english, polymath, active, scientist, natural, philosopher, architect, credited, scientists, discover, microorganisms, 1665, using, compound, microscope, that, built, himself, other, scientist, being, antoni, leeuwenhoek. Robert Hooke FRS h ʊ k 18 July 1635 3 March 1703 3 a was an English polymath active as a scientist natural philosopher and architect who is credited to be one of two scientists to discover microorganisms in 1665 using a compound microscope that he built himself 4 the other scientist being Antoni van Leeuwenhoek in 1676 5 6 An impoverished scientific inquirer in young adulthood he found wealth and esteem by performing over half of the architectural surveys after London s great fire of 1666 Hooke was also a member of the Royal Society and since 1662 was its curator of experiments Hooke was also Professor of Geometry at Gresham College Robert HookeFRSc 1680 Portrait of a Mathematician by Mary Beale conjectured to be of Hooke 1 but also conjectured to be of Isaac Barrow 2 Born18 July 1635Freshwater Isle of Wight EnglandDied3 March 1703 1703 03 03 aged 67 a London EnglandResting placeSt Helen s Church BishopsgateNationalityEnglishAlma materWadham College OxfordKnown forHooke s lawMicroscopyCoining the term cell Scientific careerFieldsPhysics and BiologyInstitutionsUniversity of OxfordAcademic advisorsRobert BoyleInfluencesRichard BusbySignatureAs an assistant to physical scientist Robert Boyle Hooke built the vacuum pumps used in Boyle s experiments on gas law and himself conducted experiments In 1673 Hooke built the earliest Gregorian telescope and then he observed the rotations of the planets Mars and Jupiter Hooke s 1665 book Micrographia in which he coined the term cell spurred microscopic investigations 7 Investigating in optics specifically light refraction he inferred a wave theory of light And his is the first recorded hypothesis of heat expanding matter air s composition by small particles at larger distances and heat as energy In physics he approximated experimental confirmation that gravity heeds an inverse square law and first hypothesised such a relation in planetary motion too a principle furthered and formalised by Isaac Newton in Newton s law of universal gravitation 8 Priority over this insight contributed to the rivalry between Hooke and Newton who thus antagonized Hooke s legacy In geology and paleontology Hooke originated the theory of a terraqueous globe disputed the literally Biblical view of the Earth s age hypothesised the extinction of species and argued that fossils atop hills and mountains had become elevated by geological processes 9 Thus observing microscopic fossils Hooke presaged the theory of biological evolution 10 11 Hooke s pioneering work in land surveying and in mapmaking aided development of the first modern plan form map although his grid system plan for London was rejected in favour of rebuilding along existing routes Even so Hooke was key in devising for London a set of planning controls that remain influential In recent times he has been called England s Leonardo 12 Contents 1 Life and works 1 1 Early life 1 2 Oxford 1 3 Royal Society 1 4 Hooke and Newcomen 2 Personality and disputes 3 Science 3 1 Mechanics 3 2 Gravitation 3 3 Horology 3 3 1 Anchor escapement 3 3 2 Watch balance spring 3 4 Microscopy 3 5 Palaeontology 3 6 Astronomy 3 7 Memory 4 Architecture 5 Likenesses 6 Commemorations 7 Works 8 See also 9 Notes 10 References 10 1 Sources 11 Further reading 12 External linksLife and works Hooke s microscope from an engraving in Micrographia Early life Much of what is known of Hooke s early life comes from an autobiography that he commenced in 1696 but never completed Richard Waller mentions it in his introduction to The Posthumous Works of Robert Hooke M D S R S printed in 1705 The work of Waller along with John Ward s Lives of the Gresham Professors with a list of his major works 13 and John Aubrey s Brief Lives form the major near contemporaneous biographical accounts of Hooke Robert Hooke was born in 1635 in Freshwater on the Isle of Wight to Cecily Gyles and John Hooke an Anglican priest the curate of Freshwater s Church of All Saints 14 Father John Hooke s two brothers Robert s paternal uncles were also ministers A royalist John Hooke likely was among a group that went to pay respects to Charles I as he escaped to the Isle of Wight Expected to join the church citation needed Robert too would become a staunch monarchist citation needed Robert was the youngest by seven years of four siblings two boys and two girls 15 Their father led a local school as well yet at least partly homeschooled Robert frail in health The young Robert Hooke was fascinated by observation mechanical works and drawing He dismantled a brass clock and built a wooden replica that reportedly worked well enough He made his own drawing materials from coal chalk and ruddle iron ore b On his father s death in 1648 Robert inherited 40 pounds 16 c He took this to London with the aim of beginning an apprenticeship and studied briefly with Samuel Cowper and Peter Lely but was persuaded instead to enter Westminster School by its headmaster Dr Richard Busby Hooke quickly mastered Latin and Greek 16 mastered Euclid s Elements 16 learned to play the organ citation needed and began his lifelong study of mechanics citation needed Oxford Robert Boyle by Johann Kerseboom at Gawthorpe Hall Lancashire In 1653 Hooke who had also undertaken a course of twenty lessons on the organ secured a chorister s place at Christ Church Oxford 14 He was employed as a chemical assistant to Dr Thomas Willis for whom Hooke developed a great admiration There he met the natural philosopher Robert Boyle and gained employment as his assistant from about 1655 to 1662 constructing operating and demonstrating Boyle s machina Boyleana or air pump 17 In 1659 Hooke described some elements of a method of heavier than air flight to Wilkins but concluded that human muscles were insufficient to the task In 1662 he was awarded a Master of Arts degree 18 Hooke himself characterised his Oxford days as the foundation of his lifelong passion for science and the friends he made there were of paramount importance to him throughout his career particularly Christopher Wren Wadham was then under the guidance of John Wilkins who had a profound impact on Hooke and those around him There was a sense of urgency in preserving the scientific work which they perceived as being threatened by The Protectorate citation needed Wilkins philosophical meetings in his study were clearly important though few records survive except for the experiments Boyle conducted in 1658 and published in 1660 This group went on to form the nucleus of the Royal Society citation needed Hooke developed an air pump for Boyle s experiments based on the pump of Ralph Greatorex which was considered in Hooke s words too gross to perform any great matter 19 It is known that Hooke had a particularly keen eye and was an adept mathematician neither of which applied to Boyle It has been suggested that Hooke probably made the observations and may well have developed the mathematics of Boyle s law 20 9 Regardless it is clear that Hooke was a valued assistant to Boyle and the two retained a mutual high regard A chance surviving copy of Willis s pioneering De anima brutorum a gift from the author was chosen by Hooke from Wilkins library on his death as a memento at John Tillotson s invitation This book is now in the Wellcome Library The book and its inscription in Hooke s hand are a testament to the lasting influence of Wilkins and his circle on the young Hooke Royal Society The Royal Society was founded in 1660 and in April 1661 the society debated a short tract on the rising of water in slender glass pipes in which Hooke reported that the height water rose was related to the bore of the pipe due to what is now termed capillary action His explanation of this phenomenon was subsequently published in Micrography Observ issue 6 in which he also explored the nature of the fluidity of gravity On 5 November 1661 Sir Robert Moray proposed that a Curator be appointed to furnish the society with Experiments and this was unanimously passed with Hooke being named His appointment was made on 12 November with thanks recorded to Dr Boyle for releasing him to the Society s employment In 1664 Sir John Cutler settled an annual gratuity of fifty pounds on the Society for the founding of a Mechanick Lecture d and the Fellows appointed Hooke to this task On 27 June 1664 he was confirmed to the office and on 11 January 1665 was named Curator by Office for life with an additional salary of 30 to Cutler s annuity e Hooke s role at the Royal Society was to demonstrate experiments from his own methods or at the suggestion of members Among his earliest demonstrations were discussions of the nature of air the implosion of glass bubbles which had been sealed with comprehensive hot air and demonstrating that the Pabulum vitae and flammae were one and the same He also demonstrated that a dog could be kept alive with its thorax opened provided air was pumped in and out of its lungs and noting the difference between venous and arterial blood There were also experiments on the subject of gravity the falling of objects the weighing of bodies and measuring of barometric pressure at different heights and pendulums up to 200 ft long 61 m Instruments were devised to measure a second of arc in the movement of the sun or other stars to measure the strength of gunpowder and in particular an engine to cut teeth for watches much finer than could be managed by hand an invention which was by Hooke s death in constant use 21 In 1663 and 1664 Hooke made his microscopic observations subsequently collated in Micrographia in 1665 On 20 March 1664 Hooke succeeded Arthur Dacres as Gresham Professor of Geometry Hooke received the degree of Doctor of Physic in December 1691 22 Illustration from The posthumous works of Robert Hooke published in Acta Eruditorum 1707 Hooke and Newcomen There is a widely reported but seemingly incorrect story that Dr Hooke corresponded with Thomas Newcomen in connection with Newcomen s invention of the steam engine This story was discussed by Rhys Jenkins a past President of the Newcomen Society in 1936 23 Jenkins traced the origin of the story to an article Steam Engines by Dr John Robison 1739 1805 in the third edition of the Encyclopaedia Britannica which says There are to be found among Hooke s papers in the possession of the Royal Society some notes of observations for the use of Newcomen his countryman on Papin s boasted method of transmitting to a great distance the action of an mill by means of pipes and that Hooke had dissuaded Newcomen from erecting a machine on this principle Jenkins points out a number of errors in Robison s article and questions whether the correspondent might in fact have been Newton whom Hooke is known to have corresponded with the name being misread as Newcomen A search by Mr H W Dickinson of Hooke s papers held by the Royal Society which had been bound together in the middle of the 18th century i e before Robison s time and carefully preserved since revealed no trace of any correspondence between Hooke and Newcomen Jenkins concluded this story must be omitted from the history of the steam engine at any rate until documentary evidence is forthcoming In the intervening years since 1936 no such evidence has been found but the story persists For instance in a book published in 2011 it is said that in a letter dated 1703 Hooke did suggest that Newcomen use condensing steam to drive the piston 24 Personality and disputesReputedly citation needed Hooke was a staunch friend and ally In his early training at Wadham College he was among ardent royalists particularly Christopher Wren citation needed Yet allegedly citation needed Hooke was also proud and often annoyed by intellectual competitors Hooke contended that Oldenburg had leaked details of Hooke s watch escapement citation needed Otherwise Hooke guarded his own ideas and used ciphers citation needed On the other hand as the Royal Society s curator of experiments Hooke was tasked to demonstrate many ideas sent in to the Society Some evidence suggests that Hooke subsequently assumed credit for some of these ideas citation needed Yet in this period of immense scientific progress numerous ideas were developed in multiple places roughly simultaneously Immensely busy Hook let many of his own ideas remain undeveloped although others he patented citation needed Perhaps more significantly Hooke and Isaac Newton disputed over credit for certain breakthroughs in physical science including gravitation astronomy and optics citation needed After Hooke s death Newton questioned his legacy And as the Royal Society s president Newton allegedly destroyed or failed to preserve the only known portrait of Hooke citation needed In the 20th century researchers Robert Gunther and Margaret Espinasse revived Hooke s legacy establishing Hooke among the most influential scientists of his time 25 26 106 None of this should distract from Hooke s inventiveness his remarkable experimental facility and his capacity for hard work His ideas about gravitation and his claim of priority for the inverse square law are outlined below He was granted a large number of patents for inventions and refinements in the fields of elasticity optics and barometry The Royal Society s Hooke papers rediscovered in 2006 27 after disappearing when Newton took over may open up a modern reassessment Engraving of a louse from Hooke s Micrographia Much has been written about the unpleasant side of Hooke s personality starting with comments by his first biographer Richard Waller that Hooke was in person but despicable and melancholy mistrustful and jealous 21 Waller s comments influenced other writers for well over two centuries so that a picture of Hooke as a disgruntled selfish anti social curmudgeon dominates many older books and articles For example Arthur Berry said that Hooke claimed credit for most of the scientific discoveries of the time 28 Sullivan wrote that Hooke was positively unscrupulous and possessing an uneasy apprehensive vanity in dealings with Newton 29 Manuel used the phrase cantankerous envious vengeful in his description 30 More described Hooke having both a cynical temperament and a caustic tongue 31 Andrade was more sympathetic but still used the adjectives difficult suspicious and irritable in describing Hooke 32 The publication of Hooke s diary in 1935 33 revealed previously unknown details about his social and familial relationships Biographer Margaret Espinasse argued that the picture which is usually painted of Hooke as a morose recluse is completely false 26 106 Hooke interacted with noted craftsmen such as Thomas Tompion the clockmaker and Christopher Cocks Cox an instrument maker He often met Christopher Wren with whom he shared many interests and had a lasting friendship with John Aubrey Hooke s diaries also make frequent reference to meetings at coffeehouses and taverns and to dinners with Robert Boyle He took tea on many occasions with his lab assistant Harry Hunt Although Hooke largely lived alone apart from the servants who ran his home his niece Grace Hooke and cousin Tom Giles lived with him for some years as children Hooke never married His diary records that he sexually abused his niece Grace who was in his custody between the ages of 10 and 17 during her teens 34 Hooke also had sexual relations with several maids and housekeepers and records that one of these housekeepers gave birth to a girl but he does not note the child s paternity 33 Under the strain of an enormous workload Hooke suffered from headaches dizziness and bouts of insomnia Approaching these in the same scientific spirit that he brought to his work he experimented with self medication diligently recording symptoms substances and effects in his diary He regularly used sal ammoniac purges and opiates which appear to have had an increasing impact on his physical and mental health over time 35 On 3 March 1703 Hooke died in London having been blind and bedridden during the last year of his life A chest containing 8 000 in money and gold was found in his room at Gresham College f Although he had talked of leaving a generous bequest to the Royal Society which would have given his name to a library laboratory and lectures no will was found and the money passed to a cousin Elizabeth Stephens 36 Hooke was buried at St Helen s Bishopsgate but the precise location of his grave is unknown Science Hooke s drawing of a flea Mechanics In 1660 Hooke discovered the law of elasticity which bears his name and which describes the linear variation of tension with extension in an elastic spring He first described this discovery in the anagram ceiiinosssttuv whose solution he published in 1678 37 as Ut tensio sic vis meaning As the extension so the force Hooke s work on elasticity culminated for practical purposes in his development of the balance spring or hairspring which for the first time enabled a portable timepiece a watch to keep time with reasonable accuracy A bitter dispute between Hooke and Christiaan Huygens on the priority of this invention was to continue for centuries after the death of both but a note dated 23 June 1670 in the Hooke Folio see External links below describing a demonstration of a balance controlled watch before the Royal Society has been held to favour Hooke s claim 38 Cell structure of cork by Hooke Hooke first announced his law of elasticity as an anagram This was a method sometimes used by scientists such as Hooke Huygens Galileo and others to establish priority for a discovery without revealing details 39 Hooke became Curator of Experiments in 1662 to the newly founded Royal Society and took responsibility for experiments performed at its weekly meetings This was a position he held for over 40 years While this position kept him in the thick of science in Britain and beyond it also led to some heated arguments with other scientists such as Huygens see above and particularly with Isaac Newton and the Royal Society s Henry Oldenburg In 1664 Hooke also was appointed Professor of Geometry at Gresham College in London and Cutlerian Lecturer in Mechanics 26 187 On 8 July 1680 Hooke observed the nodal patterns associated with the modes of vibration of glass plates He ran a bow along the edge of a glass plate covered with flour and saw the nodal patterns emerge 40 41 In acoustics in 1681 he showed the Royal Society that musical tones could be generated from spinning brass cogs cut with teeth in particular proportions 42 GravitationWhile many of his contemporaries believed in the aether as a medium for transmitting attraction or repulsion between separated celestial bodies Hooke argued for an attracting principle of gravitation in Micrographia 1665 Hooke s 1666 Royal Society lecture on gravity added two further principles that all bodies move in straight lines until deflected by some force and that the attractive force is stronger for closer bodies citation needed Dugald Stewart quoted Hooke s own words on his system of the world 43 I will explain says Hooke in a communication to the Royal Society in 1666 a system of the world very different from any yet received It is founded on the following positions 1 That all the heavenly bodies have not only a gravitation of their parts to their own proper centre but that they also mutually attract each other within their spheres of action 2 That all bodies having a simple motion will continue to move in a straight line unless continually deflected from it by some extraneous force causing them to describe a circle an ellipse or some other curve 3 That this attraction is so much the greater as the bodies are nearer As to the proportion in which those forces diminish by an increase of distance I own I have not discovered it Hooke s 1670 Gresham lecture explained that gravitation applied to all celestial bodies and added the principles that the gravitating power decreases with distance and that in the absence of any such power bodies move in straight lines Hooke published his ideas about the System of the World again in somewhat developed form in 1674 as an addition to An Attempt to Prove the Motion of the Earth from Observations 44 Hooke clearly postulated mutual attractions between the Sun and planets in a way that increased with nearness to the attracting body Hooke s statements up to 1674 made no mention however that an inverse square law applies or might apply to these attractions Hooke s gravitation was also not yet universal though it approached universality more closely than previous hypotheses 45 Hooke also did not provide accompanying evidence or mathematical demonstration On these two aspects Hooke stated in 1674 Now what these several degrees of gravitational attraction are I have not yet experimentally verified indicating that he did not yet know what law the gravitation might follow and as to his whole proposal This I only hint at present having my self many other things in hand which I would first compleat and therefore cannot so well attend it i e prosecuting this Inquiry 44 In November 1679 Hooke initiated a remarkable exchange of letters with Newton 46 of which the full text is now published 47 Hooke s ostensible purpose was to tell Newton that Hooke had been appointed to manage the Royal Society s correspondence 48 Hooke therefore wanted to hear from members about their researches or their views about the researches of others and as if to whet Newton s interest he asked what Newton thought about various matters giving a whole list mentioning compounding the celestial motions of the planetts of a direct motion by the tangent and an attractive motion towards the central body and my hypothesis of the lawes or causes of springinesse and then a new hypothesis from Paris about planetary motions which Hooke described at length and then efforts to carry out or improve national surveys the difference of latitude between London and Cambridge and other items Newton s reply offered a fansy of my own about a terrestrial experiment not a proposal about celestial motions which might detect the Earth s motion by the use of a body first suspended in air and then dropped to let it fall The main point was to indicate how Newton thought the falling body could experimentally reveal the Earth s motion by its direction of deviation from the vertical but he went on hypothetically to consider how its motion could continue if the solid Earth had not been in the way on a spiral path to the centre Hooke disagreed with Newton s idea of how the body would continue to move g A short further correspondence developed and towards the end of it Hooke writing on 6 January 1679 80 to Newton communicated his supposition that the Attraction always is in a duplicate proportion to the Distance from the Center Reciprocall and Consequently that the Velocity will be in a subduplicate proportion to the Attraction and Consequently as Kepler Supposes Reciprocall to the Distance 51 Hooke s inference about the velocity was actually incorrect 52 In 1686 when the first book of Newton s Principia was presented to the Royal Society Hooke claimed that he had given Newton the notion of the rule of the decrease of Gravity being reciprocally as the squares of the distances from the Center At the same time according to Edmond Halley s contemporary report Hooke agreed that the Demonstration of the Curves generated therby was wholly Newton s 47 A recent assessment about the early history of the inverse square law is that by the late 1660s the assumption of an inverse proportion between gravity and the square of distance was rather common and had been advanced by a number of different people for different reasons 53 Newton himself had shown in the 1660s that for planetary motion under a circular assumption force in the radial direction had an inverse square relation with distance from the center 54 Newton faced in May 1686 with Hooke s claim on the inverse square law denied that Hooke was to be credited as author of the idea giving reasons including the citation of prior work by others before Hooke 47 Newton also firmly claimed that even if it had happened that he had first heard of the inverse square proportion from Hooke which it had not he would still have some rights to it in view of his mathematical developments and demonstrations which enabled observations to be relied on as evidence of its accuracy while Hooke without mathematical demonstrations and evidence in favour of the supposition could only guess according to Newton that it was approximately valid at great distances from the center 47 On the other hand Newton did accept and acknowledge in all editions of the Principia that Hooke but not exclusively Hooke had separately appreciated the inverse square law in the solar system Newton acknowledged Wren Hooke and Halley in this connection in the Scholium to Proposition 4 in Book 1 55 Newton also acknowledged to Halley that his correspondence with Hooke in 1679 80 had reawakened his dormant interest in astronomical matters but that did not mean according to Newton that Hooke had told Newton anything new or original yet am I not beholden to him for any light into that business but only for the diversion he gave me from my other studies to think on these things amp for his dogmaticalness in writing as if he had found the motion in the Ellipsis which inclined me to try it 47 One of the contrasts between the two men was that Newton was primarily a pioneer in mathematical analysis and its applications as well as optical experimentation while Hooke was a creative experimenter of such great range that it is not surprising to find that he left some of his ideas such as those about gravitation undeveloped This in turn makes it understandable how in 1759 decades after the deaths of both Newton and Hooke Alexis Clairaut mathematical astronomer eminent in his own right in the field of gravitational studies made his assessment after reviewing what Hooke had published on gravitation One must not think that this idea of Hooke diminishes Newton s glory Clairaut wrote The example of Hooke serves to show what a distance there is between a truth that is glimpsed and a truth that is demonstrated 56 57 Horology Hooke made tremendously important contributions to the science of timekeeping being intimately involved in the advances of his time the introduction of the pendulum as a better regulator for clocks the balance spring to improve the timekeeping of watches and the proposal that a precise timekeeper could be used to find the longitude at sea Anchor escapement Anchor escapement In 1655 according to his autobiographical notes Hooke began to acquaint himself with astronomy through the good offices of John Ward Hooke applied himself to the improvement of the pendulum and in 1657 or 1658 he began to improve on pendulum mechanisms studying the work of Giovanni Riccioli and going on to study both gravitation and the mechanics of timekeeping Henry Sully writing in Paris in 1717 described the anchor escapement as an admirable invention of which Dr Hooke formerly professor of geometry in Gresham College at London was the inventor 58 William Derham also attributes it to Hooke 59 Watch balance spring Christiaan Huygens by Caspar Netscher Hooke recorded that he conceived of a way to determine longitude then a critical problem for navigation and with the help of Boyle and others he attempted to patent it In the process Hooke demonstrated a pocket watch of his own devising fitted with a coil spring attached to the arbour of the balance Hooke s ultimate failure to secure sufficiently lucrative terms for the exploitation of this idea resulted in its being shelved and evidently caused him to become more jealous of his inventions citation needed Hooke developed the balance spring independently of and at least 5 years before Christiaan Huygens 60 who published his own work in Journal de Scavans in February 1675 Microscopy Hooke s microscope Hooke s 1665 book Micrographia describing observations with microscopes and telescopes as well as original work in biology contains the earliest of an observed microorganism a microfungus Mucor 7 Hooke coined the term cell suggesting plant structure s resemblance to honeycomb cells 61 The hand crafted leather and gold tooled microscope he used to make the observations for Micrographia originally constructed by Christopher White in London is on display at the National Museum of Health and Medicine in Maryland Micrographia also contains Hooke s or perhaps Boyle and Hooke s ideas on combustion Hooke s experiments led him to conclude that combustion involves a substance that is mixed with air a statement with which modern scientists would agree but that was not understood widely if at all in the seventeenth century Hooke went on to conclude that respiration also involves a specific component of the air 62 Partington even goes so far as to claim that if Hooke had continued his experiments on combustion it is probable that he would have discovered oxygen 63 Palaeontology Drawings of the Moon and the Pleiades from Hooke s Micrographia One of the observations in Micrographia was of fossil wood the microscopic structure of which he compared to ordinary wood This led him to conclude that fossilised objects like petrified wood and fossil shells such as Ammonites were the remains of living things that had been soaked in petrifying water laden with minerals 64 Hooke believed that such fossils provided reliable clues to the past history of life on Earth and despite the objections of contemporary naturalists like John Ray who found the concept of extinction theologically unacceptable that in some cases they might represent species that had become extinct through some geological disaster 65 Charles Lyell wrote the following in his Principles of Geology 1832 The Posthumous Works of Robert Hooke M D appeared in 1705 containing A Discourse of Earthquakes His treatise is the most philosophical production of that age in regard to the causes of former changes in the organic and inorganic kingdoms of nature However trivial a thing he says a rotten shell may appear to some yet these monuments of nature are more certain tokens of antiquity than coins or medals since the best of those may be counterfeited or made by art and design as may also books manuscripts and inscriptions as all the learned are now sufficiently satisfied has often been actually practised amp c and though it must be granted that it is very difficult to read them and to raise a chronology out of them and to state the intervals of the time wherein such or such catastrophes and mutations have happened yet it is not impossible Astronomy Hooke noted the shadows a and b cast by both the globe and the rings on each other in this drawing of Saturn One of the more challenging problems tackled by Hooke was the measurement of the distance to a star other than the Sun The star chosen was Gamma Draconis and the method to be used was parallax determination After several months of observing in 1669 Hooke believed that the desired result had been achieved It is now known that Hooke s equipment was far too imprecise to allow the measurement to succeed 66 Gamma Draconis was the same star James Bradley used in 1725 in discovering the aberration of light Hooke s activities in astronomy extended beyond the study of stellar distance His Micrographia contains illustrations of the Pleiades star cluster as well as of lunar craters He performed experiments to study how such craters might have formed 67 Hooke also was an early observer of the rings of Saturn 68 and discovered one of the first observed double star systems Gamma Arietis in 1664 69 Memory A lesser known contribution however one of the first of its kind was Hooke s scientific model of human memory Hooke in a 1682 lecture to the Royal Society proposed a mechanistic model of human memory which would bear little resemblance to the mainly philosophical models before it 70 This model addressed the components of encoding memory capacity repetition retrieval and forgetting some with surprising modern accuracy 71 This work overlooked for nearly 200 years shared a variety of similarities with Richard Semon s work of 1919 1923 both assuming memories were physical and located in the brain 72 73 74 The model s more interesting points are that it 1 allows for attention and other top down influences on encoding 2 it uses resonance to implement parallel cue dependent retrieval 3 it explains memory for recency 4 it offers a single system account of repetition and priming and 5 the power law of forgetting can be derived from the model s assumption in a straightforward way 71 This lecture would be published posthumously in 1705 as the memory model was unusually placed in a series of works on the nature of light It has been speculated that this work saw little review as the printing was done in small batches in a post Newtonian age of science and was most likely deemed out of date by the time it was published Further interfering with its success was contemporary memory psychologists rejection of immaterial souls which Hooke invoked to some degree in regards to the processes of attention encoding and retrieval Architecture Church of St Mary Magdalene at Willen Milton Keynes Hooke was Surveyor to the City of London and chief assistant to Christopher Wren in which capacity he helped Wren rebuild London after the Great Fire in 1666 and also worked on the design of London s Monument to the fire the Royal Greenwich Observatory Montagu House in Bloomsbury and the Bethlem Royal Hospital which became known as Bedlam Other buildings designed by Hooke include The Royal College of Physicians 1679 Ragley Hall in Warwickshire Ramsbury Manor in Wiltshire 75 and the parish church of St Mary Magdalene at Willen in Milton Keynes Buckinghamshire Hooke s collaboration with Christopher Wren also included St Paul s Cathedral whose dome uses a method of construction conceived by Hooke Hooke also participated in the design of the Pepys Library which held the manuscripts of Samuel Pepys diaries the most frequently cited eyewitness account of the Great Fire of London 76 Hooke and Wren both being keen astronomers the Monument was designed to serve a scientific function as a telescope for observing transits though Hooke s characteristically precise measurements after completion showed that the movement of the column in the wind made it unusable for this purpose The legacy of this can be observed in the construction of the spiral staircase which has no central column and in the observation chamber which remains in place below ground level In the reconstruction after the Great Fire Hooke proposed redesigning London s streets on a grid pattern with wide boulevards and arteries citation needed a pattern subsequently used in Haussmann s renovation of Paris in Liverpool and in many American cities This proposal was thwarted by arguments over property rights as property owners were surreptitiously shifting their boundaries Hooke was in demand to settle many of these disputes due to his competence as a surveyor and his tact as an arbitrator citation needed Likenesses Portrait thought for a time to be Hooke but almost certainly Jan Baptist van Helmont 77 No authenticated portrait of Robert Hooke exists This situation has sometimes been attributed to the heated conflicts between Hooke and Newton although Hooke s biographer Allan Chapman rejects as a myth the claims that Newton or his acolytes deliberately destroyed Hooke s portrait German antiquarian and scholar Zacharias Conrad von Uffenbach visited the Royal Society in 1710 and his account of his visit specifically mentions him being shown the portraits of Boyle and Hoock which were said to be good likenesses but while Boyle s portrait survives Hooke s has evidently been lost 12 In Hooke s time the Royal Society met at Gresham College but within a few months of Hooke s death Newton became the Society s president and plans were laid for a new meeting place When the move to new quarters finally was made a few years later in 1710 Hooke s Royal Society portrait went missing and has yet to be found Two contemporary written descriptions of Hooke s appearance have survived The first was recorded by his close friend John Aubrey who described Hooke in middle age and at the height of his creative powers He is but of midling stature something crooked pale faced and his face but little below but his head is lardge his eie full and popping and not quick a grey eie He haz a delicate head of haire browne and of an excellent moist curle He is and ever was temperate and moderate in dyet etc The second is a rather unflattering description of Hooke as an old man written by Richard Waller As to his Person he was but despicable being very crooked tho I have heard from himself and others that he was strait till about 16 Years of Age when he first grew awry by frequent practising with a Turn Lath He was always very pale and lean and laterly nothing but Skin and Bone with a Meagre Aspect his Eyes grey and full with a sharp ingenious Look whilst younger his nose but thin of a moderate height and length his Mouth meanly wide and upper lip thin his Chin sharp and Forehead large his Head of a middle size He wore his own Hair of a dark Brown colour very long and hanging neglected over his Face uncut and lank 12 Time magazine published a portrait supposedly of Hooke on 3 July 1939 However when the source was traced by Ashley Montagu it was found to lack a verifiable connection to Hooke Moreover Montagu found that two contemporary written descriptions of Hooke s appearance agreed with one another but that neither matched the Time s portrait 78 In 2003 historian Lisa Jardine claimed that a recently discovered portrait was of Hooke 79 but this claim was disproved by William B Jensen of the University of Cincinnati The portrait identified by Jardine depicts the Flemish scholar Jan Baptist van Helmont 77 Other possible likenesses of Hooke include the following A seal used by Hooke displays an unusual profile portrait of a man s head which some have argued portrays Hooke The engraved frontispiece to the 1728 edition of Chambers Cyclopedia shows a drawing of a bust of Robert Hooke 80 The extent to which the drawing is based on an actual work of art is unknown A memorial window 12 existed at St Helen s Bishopsgate in London but it was a formulaic rendering not a likeness The window was destroyed in the 1993 Bishopsgate bombing In 2003 amateur history painter Rita Greer embarked on a self funded project to memorialise Hooke Her project aimed to produce credible images of him both painted and drawn that she believes fit the descriptions of him by his contemporaries John Aubrey and Richard Waller Greer s images of Hooke his life and work have been used for TV programmes in UK and US in books magazines and for PR 81 82 83 84 85 86 87 In 2019 Dr Larry Griffing an associate professor at Texas A amp M University conjectured that a contemporary portrait by famed painter Mary Beale of an unknown sitter and referred to as Portrait of a Mathematician was actually Hooke noting that the physical features of the sitter in the portrait match his The figure points to a drawing of elliptical motion which appears to match an unpublished manuscript created by Hooke The painting also includes an orrery depicting the same principle Griffing believes that buildings included in the image are of Lowther Castle now in Cumbria and pointedly its Church of St Michael The church was renovated under one of Hooke s architectural commissions which Beale would have gained familiarity with when commissioned by the Lowther family Griffing theorizes that the painting would once have been owned by the Royal Society but was purposefully abandoned when Newton as its president moved the Society s official residence in 1710 1 88 Commemorations Hooke memorial plaque in Westminster Abbey 3514 Hooke an asteroid 1971 UJ 89 Craters on the Moon and on Mars are named in his honour The Hooke Medal 90 Robert Hooke Science Centre Westminster School London List of new memorials to Robert Hooke 2005 2009 The Boyle Hooke plaque in OxfordWorksReponse de Monsieur Hook aux considerations de M Auzout contenue dans un lettre ecrite a l auteur des Philosophical Transactions et quelques lettres ecrites de part amp d autre sur le sujet des grandes lunettes Reply of Mr Hook to the considerations of Mr Auzout contained in a letter written to the author of Philosophical Transactions and some letters written on both sides on the subject of large lenses in French Paris Jean Cusson 2 1665 Lectures de potentia restitutiva or Of spring explaining the power of springing bodies London Printed for John Martyn 1678 Attempt to prove the motion of the earth in Latin 1679 Micrographia full text at Project Gutenberg with illustrations at Internet Archive Collection of Lectures Physical Mechanical Geographical and Astronomical London Printed for John Martyn printer to the Royal Society at the Bell in S Pauls Church yard 1679 includes An Attempt to prove the Annual Motion of the Earth Animadversions on the Machina Coelestis of Mr Hevelius A Description of Helioscopes with other instruments Mechanical Improvement of Lamps Remarks about Comets 1677 Microscopium Lectures on the Spring etc Philosophical experiments and observations London William Innys amp John Innys 1726 The posthumous works of Robert Hooke M D S R S Geom Prof Gresh etc containing his Cutlerian lectures and other discourses read at the meetings of the illustrious Royal Society illustrated with sculptures To these discourses is prefixt the author s life giving an account of his studies and employments with an enumeration of the many experiments instruments contrivances and inventions by him made and produced as curator of experiments to the Royal Society Richard Waller R S Secr 1705 1678 copy of Hooke s Lectures de potentia restitutiva Title page of Lectures de potentia restitutiva First page of Lectures de potentia restitutiva Figure from Lectures de potentia restitutiva Figure from Lectures de potentia restitutiva See alsoCatenary Curve formed by a hanging chain Great Red Spot Persistent storm in Jupiter s atmosphere Hooke s atom Artificial helium like atom with a harmonic instead of Coulomb potential Hooke s law Physical law force needed to deform a spring scales linearly with distance Optical microscope Microscope that uses visible light Reticle Aim markings in optical devices e g crosshairs Sash window Window made of one or more movable panels Savart wheel Acoustical device to generate a pitch Shadowgraph Optical method to reveal non uniformity Universal joint Mechanism with bendable rotation axis List of astronomical instrument makersNotes a b These dates are according to the Julian calendar which was still in use in England at the time His date of death raises an additional complication formally the civil year began on 25 March although common practice then as now was to start the year on 1 January Thus his legal date of death was 3 March 1702 but 3 March 1703 in common usage and as shown here according to the dual dating practice at the time it would be recorded in church records as 3 March 1702 3 3 Wikipedia follows the convention adopted by most modern historical writing of retaining the dates according to the Julian calendar but taking the year as starting on 1 January rather than 25 March According to the Gregorian calendar used in most of the rest of Europe he was born on 28 July 1635 and died on 14 March 1703 The deviation between the calendars grew from ten to eleven days between his birth and his death because the Julian calendar had a 29 February 1700 but the Gregorian calendar did not See also Calendar New Style Act 1750 His father had speculated that he might become a watchmaker or limner a decorator of illuminated manuscripts citation needed About 5 600 today He was 13 years old About 8 200 today About 5 100 today Sir John Cutler and Hooke were at odds in the following years over monies due to Hooke Following Cutler s death Hooke enlisted the aid of friends of the Cutler family including Master of The Haberdashers Company Sir Richard Levett for whom Hooke was involved in a building commission to help recover the funds owed by Cutler 14 About 1 442 000 today Several commentators who have followed Hooke in calling Newton s spiral path mistaken or even a blunder but there are also the facts a that Hooke left out of account Newton s specific statement that the motion resulted from dropping a heavy body suspended in the Air i e a resisting medium see Newton to Hooke 28 November 1679 document 236 at p 301 Correspondence vol 2 cited above and compare Hooke s report to the Royal Society on 11 December 1679 where Hooke reported the matter supposing no resistance see D Gjertsen Newton Handbook 1986 at p 259 and b that Hooke s reply of 9 December 1679 to Newton considered the cases of motion both with and without air resistance The resistance free path was what Hooke called an elliptueid but a line in Hooke s diagram showing the path for his case of air resistance was though elongated also another inward spiralling path ending at the Earth s centre Hooke wrote where the Medium has a power of impeding and destroying its motion the curve in which it would move would be some what like the Line AIKLMNOP amp c and would terminate in the center C Hooke s path including air resistance was therefore to this extent like Newton s see Correspondence vol 2 cited above at pp 304 306 document 237 with accompanying figure The diagrams are also online see Wilson p 241 showing Newton s 1679 diagram with spiral 49 and extract of his letter also Wilson p 242 showing Hooke s 1679 diagram including two paths closed curve and spiral 50 Newton pointed out in his later correspondence over the priority claim that the descent in a spiral is true in a resisting medium such as our air is see Correspondence vol 2 cited above at p 433 document 286 References a b Griffing Lawrence R 2020 The lost portrait of Robert Hooke Journal of Microscopy 278 3 114 122 doi 10 1111 jmi 12828 PMID 31497878 S2CID 202003003 Whittaker Christopher A 2021 Unconvincing evidence that Beale s Mathematician is Robert Hooke Journal of Microscopy 282 2 189 190 doi 10 1111 jmi 12987 ISSN 0022 2720 PMID 33231292 S2CID 227159587 a b Singer B R July 1976 Robert Hooke on Memory Association and Time Perception 1 Notes and Records of the Royal Society of London 31 1 115 131 doi 10 1098 rsnr 1976 0003 JSTOR 531553 PMID 11609928 S2CID 21409461 Hooke died on 3 March 1702 3 Robert Hooke Biography Facts and Pictures FamousScientists org Retrieved 13 December 2022 Gest Howard May 2004 The discovery of microorganisms by Robert Hooke and Antoni van Leeuwenhoek Fellows of The Royal Society Notes Rec R Soc Lond 58 2 187 201 doi 10 1098 rsnr 2004 0055 PMID 15209075 S2CID 8297229 Gest Howard Summer 2009 Homage to Robert Hooke 1635 1703 New insights from the recently discovered Hooke folio Perspect Biol Med 52 3 392 399 doi 10 1353 pbm 0 0096 PMID 19684374 S2CID 38598026 a b Gest Howard May 2004 The discovery of microorganisms by Robert Hooke and Antoni van Leeuwenhoek Fellows of The Royal Society Notes Rec R Soc Lond 58 2 187 201 doi 10 1098 rsnr 2004 0055 PMID 15209075 S2CID 8297229 Gest Howard Summer 2009 Homage to Robert Hooke 1635 1703 New insights from the recently discovered Hooke folio Perspect Biol Med 52 3 392 399 doi 10 1353 pbm 0 0096 PMID 19684374 S2CID 38598026 Encyclopaedia Britannica 15th Edition vol 6 p 44 a b Gribbin John Gribbin Mary 2017 Out of the shadow of a giant Hooke Halley and the birth of British science 1946 London ISBN 978 0 00 822059 4 OCLC 966239842 Drake Ellen Tan 2006 Hooke s Ideas of the Terraqueous Globe and a Theory of Evolution In Michael Cooper Michael Hunter eds Robert Hooke Tercentennial Studies Burlington Vermont Ashgate pp 135 149 ISBN 978 0 7546 5365 3 Drake Ellen Tan 1996 Restless Genius Robert Hooke and His Earthly Thoughts Oxford University Press ISBN 978 0 19 506695 1 a b c d Chapman Alan 1996 England s Leonardo Robert Hooke 1635 1703 and the art of experiment in Restoration England Proceedings of the Royal Institution of Great Britain 67 239 275 Archived from the original on 6 March 2011 Ward John 1740 The lives of the professors of Gresham college to which is prefixed the life of the founder Sir T Gresham Oxford pp 169 193 a b c Jardine Lisa 2003 The Curious Life of Robert Hooke The Man who Measured London 1st ed New York Harper Collins Publishers p 23 ISBN 978 0 00 714944 5 Martin Rob 2000 The Tragedy of Robert Hooke s Brother The Isle of Wight History Centre Retrieved 9 March 2010 Robert is given forty pounds a chest and all the books a b c O Connor J J amp Robertson E F August 2002 Hooke biography School of Mathematics and Statistics University of St Andrews Scotland Archived from the original on 16 July 2010 Retrieved 9 March 2010 He was left 40 by his father together with all his father s books the often quoted figure of 100 is a much repeated error Shapin Steven Schaffer Simon 1985 2 Leviathan and the Air Pump Hobbes Boyle and the Experimental Life Princeton Princeton University Press ISBN 978 0 691 08393 3 Retrieved 11 September 2009 Pugliese Patri J 2004 Robert Hooke Oxford Dictionary of National Biography doi 10 1093 ref odnb 13693 Fulton John F 1960 The Honourable Robert Boyle F R S 1627 1692 Notes and Records of the Royal Society of London 15 119 135 123 doi 10 1098 rsnr 1960 0012 S2CID 145310587 Gunther Robert 1923 1967 Early Science in Oxford Vol 7 privately printed a b Waller Richard 1705 The Posthumous Works of Robert Hooke M D S R S London Sam Smith and Benj Walford De Milt Clara November 1939 Robert Hooke Chemist Journal of Chemical Education 16 11 503 510 Bibcode 1939JChEd 16 503D doi 10 1021 ed016p503 The Heat Engine Idea in the Seventeenth Century Rhys Jenkins Paper read to the Chartered Institute of Patent Agents 21 October 1936 Rosen William 2012 The Most Powerful Idea in the World A Story of Steam Industry and Invention University of Chicago Press pp 74 331 ISBN 978 0 226 72634 2 See for example the 2003 Hooke meeting at the University of Oxford Robert Hooke Day at Christ Church Oxford Retrieved 23 January 2009 a b c Espinasse Margaret 1956 Robert Hooke London William Heinemann Ltd OCLC 459411551 Auction deal saves 1m manuscript BBC News 28 March 2006 Berry Arthur 1898 A Short History of Astronomy London John Murray p 221 See also the reprint published by Dover in 1961 Sullivan J W N 1938 Isaac Newton 1642 1727 New York Macmillan pp 35 37 Manuel Frank E 1968 A Portrait of Isaac Newton Cambridge Massachusetts Harvard University Press p 138 More Louis Trenchard 1934 Isaac Newton New York Charles Schribner s Sons pp 94 95 Andrarde E N De C 1950 Isaac Newton New York Chanticleer Press pp 56 57 a b Hooke Robert 1935 Robinson H W Adams W eds The Diary of Robert Hooke M A M D F R S 1672 1680 London Taylor amp Francis Tinniswood Adrian 2019 The Royal Society And The Invention of Modern Science Unknown Apollo p 58 Jardine Lisa 2003 The Man Who Measured London Unknown HarperCollins p 00 Inwood 2002 pp 1 2 Robert Hooke De Potentia Restitutiva or of Spring Explaining the Power of Springing Bodies London 1678 Hooke Folio Online Queen Mary University of London Archived from the original on 18 July 2012 Retrieved 10 September 2012 The Back Page aps org Retrieved 12 February 2021 Ernst Florens Friedrich Chladni Archived 14 May 2011 at the Wayback Machine Institute for Learning Technologies Archived 11 November 2007 at the Wayback Machine Columbia University Oxford Dictionary of Scientists Oxford University Press 1999 p 101 ISBN 7810802259 Greated Clive 2001 Robert Hooke In Sadie Stanley Tyrrell John eds The New Grove Dictionary of Music and Musicians 2nd ed London Macmillan ISBN 978 1 56159 239 5 Stewart Dugald 1877 Elements of the Philosophy of the Human Mind T amp T Clark Vol 2 Ch 2 Section 4 2 pp 304 ff a b Hooke s 1674 statement in An Attempt to Prove the Motion of the Earth from Observations is available in online facsimile here Wilson p 239 Iliffe Rob 2007 Newton A Very Short Introduction Oxford University Press pp 140 ISBN 978 0 19 157902 8 a b c d e Turnbull H W ed 1960 Correspondence of Isaac Newton Vol 2 1676 1687 Cambridge University Press giving the Hooke Newton correspondence of November 1679 to January 1679 80 at pp 297 314 and the 1686 correspondence over Hooke s priority claim at pp 431 448 Turnbull H W ed 1960 Correspondence of Isaac Newton Vol 2 1676 1687 Cambridge University Press p 297 R Taton C Wilson Michael Hoskin eds Planetary Astronomy from the Renaissance to the Rise of Astrophysics Part A Tycho Brahe to Newton Cambridge University Press 2003 ISBN 9780521542050 page 241 R Taton C Wilson Michael Hoskin eds Planetary Astronomy from the Renaissance to the Rise of Astrophysics Part A Tycho Brahe to Newton Cambridge University Press 2003 ISBN 9780521542050 page 242 See p 309 in Correspondence of Isaac Newton Vol 2 cited above at document 239 Wilson p 244 Gal Ofer 2002 Meanest foundations and nobler superstructures Hooke Newton and the Compounding of the Celestiall Motions of the Planetts Springer p 9 ISBN 1402007329 Whiteside D T 1991 The pre history of the Principia from 1664 to 1686 Notes and Records of the Royal Society of London 45 1 11 61 13 20 doi 10 1098 rsnr 1991 0002 JSTOR 531520 See for example the 1729 English translation of the Principia p 66 The second extract is quoted and translated in W W Rouse Ball An Essay on Newton s Principia London and New York Macmillan 1893 at p 69 The original statements by Clairaut in French are found with orthography here as in the original in Explication abregee du systeme du monde et explication des principaux phenomenes astronomiques tiree des Principes de M Newton 1759 at Introduction section IX p 6 Il ne faut pas croire que cette idee de Hook diminue la gloire de M Newton and L exemple de Hook serve a faire voir quelle distance il y a entre une verite entrevue amp une verite demontree Sully H and Le Roy J 1737 Regle artificielle des tems G Dupuis Paris ch 1 p 14 Derham William 1734 The artificial clock maker James John and Paul Knapton at the Crown in Ludgate Street p 97 Ian Sample Eureka Lost manuscript found in cupboard The Guardian 9 February 2006 Hooke Robert 1665 Micrographia Or Some Physiological Descriptions of Minute Bodies Made by Magnifying Glasses with Observations and Inquiries Thereupon The Royal Society p 113 See particularly Observation 16 of Micrographia Partington J P 1951 A Short History of Chemistry 2nd ed London Macmillan and Company pp 78 80 Rudwick Martin J S 1976 The Meaning of Fossils The University of Chicago Press p 54 Bowler Peter J 1992 The Earth Encompassed W W Norton pp 118 119 Hirshfeld Alan W 2001 Parallax The Race to Measure the Cosmos New York W H Freeman pp 144 149 ISBN 978 0 7167 3711 7 Ashbrook Joseph 1984 The Astronomical Scrapbook Cambridge Massachusetts Sky Publishing Corporation pp 240 241 ISBN 978 0 521 10604 7 Alexander A F O D 1962 The Planet Saturn Londin Faber and Faber Limited pp 108 109 Aitken Robert G 1935 The Binary Stars New York McGraw Hill p 1 Singer B R 1979 Robert Hooke on memory Association and time perception I Notes and Records of the Royal Society of London 31 1 115 131 doi 10 1098 rsnr 1976 0003 JSTOR 531553 PMID 11609928 S2CID 21409461 a b Hintzman D L 2003 Robert Hooke s model of memory Psychonomic Bulletin amp Review 10 1 3 14 doi 10 3758 BF03196465 PMID 12747488 Semon R 1923 Mnemic psychology B Duffy Trans London George Allen amp Unwin Original work published 1919 Schacter D L 2001 Forgotten ideas neglected pioneers Richard Semon and the story of memory Philadelphia Psychology Press Taylor amp Francis ISBN 184169052X Schacter D L Eich J E amp Tulving E 1978 Richard Semon s theory of memory Journal of Verbal Learning amp Verbal Behavior 17 6 721 743 doi 10 1016 S0022 5371 78 90443 7 Inwood Stephen 28 February 2011 The Man Who Knew Too Much Kindle Location 8290 Macmillan Publishers UK Kindle Edition Hyam R 1982 Magdalene Described Sawston Cambridgeshire U K Crampton amp Sons Ltd a b Oesper Chemistry Collection Helps Professor Clear Up Portrait Mystery Libraries uc edu 4 February 2011 Archived from the original on 28 October 2012 Retrieved 10 September 2012 Montagu M F Ashley 1941 A Spurious Portrait of Robert Hooke 1635 1703 Isis 33 15 17 doi 10 1086 358521 S2CID 145201143 See also 3 July 1939 issue of Time p 39 Jardine Lisa 2003 The Curious Life of Robert Hooke Harper Collins pp 15 19 Robert Hooke she philosopher com 17 August 2007 Retrieved 10 September 2012 Burgan Michael 2008 Robert Hooke Natural Philosopher and Scientific Explorer Minneapolis Minnesota Compass Point Books pp Cover 21 26 45 65 77 88 96 98 99 101 ISBN 978 0 7565 3315 1 Fekany Lee Kimberly 2009 Cell Scientists from Leeuwenhoek to Fuchs Compass Point Books Minneapolis Minnesota ISBN 978 0 7565 3964 1 Chapman Allan 2005 England s Leonardo Robert Hooke and the Seventeenth Century Scientific Revolution Institute of Physics Publishing Ltd pp Portrait of Robert Hooke inside dust jacket and last page of plates ISBN 978 0 7503 0987 5 Gresham College memorial portrait of Robert Hooke Dome the Magazine of the Friends of St Paul s Cathedral 46 17 Chapman Allan Robert Hooke the forgotten genius of physics Interactions April 2005 Rita s portraits of Hooke sought after across UK Petersfield Post 21 May 13 2008 Unveiling of memorial portrait of Robert Hooke as astronomer and inventor Open House Newspaper for the Staff of the Open University 421 2009 Griffing PhD Larry 9 September 2020 This 17th Century Scientist Discovered the Cell I Discovered His Missing Portrait Daily Beast Retrieved 17 March 2022 3514 Hooke 3514 Hooke In Dictionary of Minor Planet Names Springer 2003 p 295 doi 10 1007 978 3 540 29925 7 3513 ISBN 978 3 540 29925 7 BSCB The British Society for Cell Biology bscb org Retrieved 10 September 2012 Sources Wilson Curtis 1989 Ch 13 The Newtonian achievement in astronomy pp 233 274 in Planetary astronomy from the Renaissance to the rise of astrophysics 2A Tycho Brahe to Newton Cambridge University Press ISBN 0521242541 Further readingAndrade E N De C 1950 Wilkins Lecture Robert Hooke Proceedings of the Royal Society of London Series B Biological Sciences 137 887 153 187 Bibcode 1950RSPSB 137 153A doi 10 1098 rspb 1950 0029 JSTOR 82545 PMID 15430319 S2CID 162828757 Aubrey John 1898 Clark Andrew ed Brief Lives Oxford Clarendon Press pp 409 416 Bennett Jim Michael Cooper Michael Hunter Lisa Jardine 2003 London s Leonardo The Life and Work of Robert Hooke Oxford University Press ISBN 978 0 19 852579 0 Chapman Allan Kent Paul eds 2005 Robert Hooke and the English Renaissance Gravewing ISBN 978 0 85244 587 7 Cooper Michael 2003 A More Beautiful City Robert Hooke and the Rebuilding of London after the Great Fire Sutton Publishing Ltd ISBN 978 0 7509 2959 2 Cooper Michael Michael Hunter 2006 Robert Hooke Tercentennial Studies Burlington Vermont Ashgate Gunther Robert ed 1923 1967 Early Science in Oxford Vol 7 privately printed Robert Gunther s Early Science in Oxford a history of science in Oxford during the Protectorate Restoration and Age of Enlightenment devotes five of its fourteen volumes to Hooke Hall A R 1951 Robert Hooke and Horology Notes and Records of the Royal Society of London 8 2 167 177 doi 10 1098 rsnr 1951 0016 S2CID 145726594 Hart Vaughan 2020 Christopher Wren In Search of Eastern Antiquity Yale University Press ISBN 978 1913107079 Hooke Robert 1635 1703 Micrographia or some physiological descriptions of minute bodies made by magnifying glasses with observations and inquiries thereupon Hooke Robert 1935 Robinson H W Adams W eds The Diary of Robert Hooke M A M D F R S 1672 1680 London Taylor amp Francis Inwood Stephen 2002 The Man Who Knew Too Much Pan ISBN 978 0 330 48829 7 Published in the US as The Forgotten Genius Stevenson Christine February 2005 Robert Hooke Monuments and Memory Art History 28 1 43 73 doi 10 1111 j 0141 6790 2005 00453 x External links Wikiquote has quotations related to Robert Hooke Wikimedia Commons has media related to Robert Hooke Wikisource has original works by or about Robert Hooke Robert Hooke hosted by Westminster School Works by Robert Hooke at Project Gutenberg Works by or about Robert Hooke at Internet Archive Works by Robert Hooke at LibriVox public domain audiobooks Works by Robert Hooke at Open Library Micrographia Hooke s Micrographia at Project Gutenberg downloadable collections including searchable ASCII text and book as complete html document with images Hooke s Micrographia at Linda Hall Library Digitzed images of Micrographia housed at the University of Kentucky Libraries Special Collections Research Center Lost manuscript of Robert Hooke discovered from The Guardian Manuscript bought for The Royal Society from The Guardian Robert Hooke s Books a searchable database of books that belonged to or were annotated by Robert Hooke Westfall Richard S Robert Hooke Rice University The Galileo Project Retrieved 16 February 2008 Cooper Michael 11 May 2008 Now that the dust has settled A view of Robert Hooke post 2003 Retrieved 22 December 2008 A 60 minute presentation by Prof Michael Cooper Gresham College with links to slides audio video and a transcript with references The posthumous works of Robert Hooke 1705 full digital facsimile from Linda Hall Library Retrieved from https en wikipedia org w index php title Robert Hooke amp oldid 1133608857, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.