John Harrison (writer)
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John Harrison ( – 24 March 1776) was a self-educated English
carpenter Carpentry is a skilled trade and a craft in which the primary work performed is the cutting, shaping and installation of building materials during the construction of buildings, Shipbuilding, ships, timber bridges, concrete formwork, etc. ...
and clockmaker who invented the marine chronometer, a long-sought-after device for solving the problem of calculating longitude while at sea. Harrison's solution revolutionized navigation and greatly increased the safety of long-distance sea travel. The problem he solved was considered so important following the Scilly naval disaster of 1707 that the British Parliament offered financial rewards of up to £20,000 (equivalent to £ in ) under the 1714 Longitude Act. In 1730, Harrison presented his first design, and worked over many years on improved designs, making several advances in time-keeping technology, finally turning to what were called sea watches. Harrison gained support from the Longitude Board in building and testing his designs. Toward the end of his life, he received recognition and a reward from Parliament. Harrison came 39th in the BBC's 2002 public poll of the
100 Greatest Britons ''100 Greatest Britons'' is a television series that was broadcast by the BBC in 2002. It was based on a television poll conducted to determine who the British people at that time considered the greatest Britons in history. The series included in ...
.


Early life

John Harrison was born in
Foulby Foulby is a village in the county of West Yorkshire, England. It is situated near Nostell, between Crofton and Ackworth Moor Top, on the A638 east-south east of the city of Wakefield. The village falls within the Ackworth, North Elmsall and Up ...
in the West Riding of Yorkshire, the first of five children in his family. His step father worked as a carpenter at the nearby Nostell Priory estate. A house on the site of what may have been the family home bears a
blue plaque A blue plaque is a permanent sign installed in a public place in the United Kingdom and elsewhere to commemorate a link between that location and a famous person, event, or former building on the site, serving as a historical marker. The term i ...
. Around 1700, the Harrison family moved to the Lincolnshire village of Barrow upon Humber. Following his father's trade as a carpenter, Harrison built and repaired clocks in his spare time. Legend has it that at the age of six, while in bed with smallpox, he was given a watch to amuse himself and he spent hours listening to it and studying its moving parts. He also had a fascination for music, eventually becoming choirmaster for Barrow parish church.Harrison built his first longcase clock in 1713, at the age of 20. The mechanism was made entirely of wood. Three of Harrison's early wooden clocks have survived: the first (1713) is in the Worshipful Company of Clockmakers' collection previously in the Guildhall in London, and since 2015 on display in the Science Museum. The second (1715) is also in the Science Museum in London; and the third (1717) is at Nostell Priory in Yorkshire, the face bearing the inscription "John Harrison Barrow". The Nostell example, in the billiards room of this stately home, has a
Victorian Victorian or Victorians may refer to: 19th century * Victorian era, British history during Queen Victoria's 19th-century reign ** Victorian architecture ** Victorian house ** Victorian decorative arts ** Victorian fashion ** Victorian literature ...
outer case, which has small glass windows on each side of the movement so that the wooden workings may be inspected. On 30 August 1718, John Harrison married Elizabeth Barret at Barrow-upon-Humber church. After her death in 1726, he married Elizabeth Scott on 23 November 1726, at the same church. In the early 1720s, Harrison was commissioned to make a new turret clock at Brocklesby Park, North Lincolnshire. The clock still works, and like his previous clocks has a wooden movement of oak and lignum vitae. Unlike his early clocks, it incorporates some original features to improve timekeeping, for example the
grasshopper escapement The grasshopper escapement is a low-friction escapement for pendulum clocks invented by British clockmaker John Harrison around 1722. An escapement, part of every mechanical clock, is the mechanism that gives the clock's pendulum periodic pushes ...
. Between 1725 and 1728, John and his brother James, also a skilled joiner, made at least three precision longcase clocks, again with the movements and longcase made of oak and lignum vitae. The grid-iron pendulum was developed during this period. These precision clocks are thought by some to have been the most accurate clocks in the world at the time. Number 1, now in a private collection, belonged to the Time Museum, USA, until the museum closed in 2000 and its collection was dispersed at auction in 2004. Number 2 is in the Leeds City Museum. It forms the core of a permanent display dedicated to John Harrison's achievements, "John Harrison: The Clockmaker Who Changed the World" and had its official opening on 23 January 2014, the first longitude-related event marking the tercentenary of the Longitude Act. Number 3 is in the Worshipful Company of Clockmakers' collection. Harrison was a man of many skills and he used these to systematically improve the performance of the pendulum clock. He invented the gridiron pendulum, consisting of alternating brass and iron rods assembled so that the thermal expansions and contractions essentially cancel each other out. Another example of his inventive genius was the
grasshopper escapement The grasshopper escapement is a low-friction escapement for pendulum clocks invented by British clockmaker John Harrison around 1722. An escapement, part of every mechanical clock, is the mechanism that gives the clock's pendulum periodic pushes ...
– a control device for the step-by-step release of a clock's driving power. Developed from the anchor escapement, it was almost frictionless, requiring no
lubrication Lubrication is the process or technique of using a lubricant to reduce friction and wear and tear in a contact between two surfaces. The study of lubrication is a discipline in the field of tribology. Lubrication mechanisms such as fluid-lubric ...
because the pallets were made from wood. This was an important advantage at a time when lubricants and their degradation were little understood. In his earlier work on sea clocks, Harrison was continually assisted, both financially and in many other ways, by George Graham, the watchmaker and instrument maker. Harrison was introduced to Graham by the Astronomer Royal Edmond Halley, who championed Harrison and his work. This support was important to Harrison, as he was supposed to have found it difficult to communicate his ideas in a coherent manner.


Longitude problem

Longitude fixes the location of a place on Earth east or west of a north–south line called the prime meridian. It is given as an angular measurement that ranges from 0° at the prime meridian to +180° eastward and −180° westward. Knowledge of a ship's east–west position was essential when approaching land. After a long voyage, cumulative errors in dead reckoning frequently led to
shipwreck A shipwreck is the wreckage of a ship that is located either beached on land or sunken to the bottom of a body of water. Shipwrecking may be intentional or unintentional. Angela Croome reported in January 1999 that there were approximately ...
s and a great loss of life. Avoiding such disasters became vital in Harrison's lifetime, in an era when trade and navigation were increasing dramatically around the world. Many ideas were proposed for how to determine longitude during a sea voyage. Earlier methods attempted to compare local time with the known time at a reference place, such as Greenwich or Paris, based on a simple theory that had been first proposed by Gemma Frisius. The methods relied on astronomical observations that were themselves reliant on the predictable nature of the motions of different
heavenly bodies "Heavenly Bodies" is a song written by Elaine Lifton, Gloria Nissenson and Lee Ritenour, and recorded by American country music artist Earl Thomas Conley. It was released in May 1982 as the first single from the album '' Somewhere Between Right ...
. Such methods were problematic because of the difficulty in accurately estimating the time at the reference place. Harrison set out to solve the problem directly, by producing a reliable clock that could keep the time of the reference place. His difficulty was in producing a clock that was not affected by variations in temperature, pressure or humidity, remained accurate over long time intervals, resisted corrosion in salt air, and was able to function on board a constantly-moving ship. Many scientists, including Isaac Newton and
Christiaan Huygens Christiaan Huygens, Lord of Zeelhem, ( , , ; also spelled Huyghens; la, Hugenius; 14 April 1629 – 8 July 1695) was a Dutch mathematician, physicist, engineer, astronomer, and inventor, who is regarded as one of the greatest scientists of ...
, doubted that such a clock could ever be built and favoured other methods for reckoning longitude, such as the method of lunar distances. Huygens ran trials using both a pendulum and a spiral balance spring clock as methods of determining longitude, with both types producing inconsistent results. Newton observed that "a good watch may serve to keep a reckoning at sea for some days and to know the time of a celestial observation; and for this end a good Jewel may suffice till a better sort of watch can be found out. But when longitude at sea is lost, it cannot be found again by any watch".


First three marine timekeepers

In the 1720s, the English clockmaker
Henry Sully Henry may refer to: People *Henry (given name) * Henry (surname) * Henry Lau, Canadian singer and musician who performs under the mononym Henry Royalty * Portuguese royalty ** King-Cardinal Henry, King of Portugal ** Henry, Count of Portuga ...
invented a marine clock that was designed to determine longitude: this was in the form of a clock with a large balance wheel that was vertically mounted on friction rollers and impulsed by a frictional rest Debaufre type escapement. Very unconventionally, the balance oscillations were controlled by a weight at the end of a pivoted horizontal lever attached to the balance by a cord. This solution avoided temperature error due to thermal expansion, a problem which affects steel balance springs. Sully's clock kept accurate time only in calm weather, because the balance oscillations were affected by the pitching and rolling of the ship. However his clocks were amongst the first serious attempts to find longitude in this way. Harrison's machines, though much larger, are of similar layout: H3 has a vertically mounted balance wheel and is linked to another wheel of the same size, an arrangement that eliminates problems arising from the ship's motion.Federation of the Swiss Watch Industry
In 1716, Sully presented his first ''Montre de la Mer'' to the French Académie des SciencesA Chronology of Clocks
and in 1726 he published ''Une Horloge inventée et executée par M. Sulli''. Drawings of Harrison's H4 chronometer of 1761, published in ''The principles of Mr Harrison's time-keeper'', 1767. In 1730, Harrison designed a marine clock to compete for the Longitude prize and travelled to London, seeking financial assistance. He presented his ideas to Edmond Halley, the Astronomer Royal, who in turn referred him to George Graham, the country's foremost clockmaker. Graham must have been impressed by Harrison's ideas, for he loaned him money to build a model of his "Sea clock". As the clock was an attempt to make a seagoing version of his wooden pendulum clocks, which performed exceptionally well, he used wooden wheels, roller
pinion A pinion is a round gear—usually the smaller of two meshed gears—used in several applications, including drivetrain and rack and pinion systems. Applications Drivetrain Drivetrains usually feature a gear known as the pinion, which may ...
s and a version of the 'grasshopper' escapement. Instead of a pendulum, he used two dumbbell balances, linked together. It took Harrison five years to build his first sea clock (or H1). He demonstrated it to members of the Royal Society who spoke on his behalf to the Board of Longitude. The clock was the first proposal that the Board considered to be worthy of a sea trial. In 1736, Harrison sailed to
Lisbon Lisbon (; pt, Lisboa ) is the capital and largest city of Portugal, with an estimated population of 544,851 within its administrative limits in an area of 100.05 km2. Grande Lisboa, Lisbon's urban area extends beyond the city's administr ...
on HMS ''Centurion'' under the command of Captain George Proctor and returned on HMS ''Orford'' after Proctor died at Lisbon on 4 October 1736. The clock lost time on the outward voyage. However, it performed well on the return trip: both the captain and the
sailing master The master, or sailing master, is a historical rank for a naval officer trained in and responsible for the navigation of a sailing vessel. The rank can be equated to a professional seaman and specialist in navigation, rather than as a military ...
of the ''Orford'' praised the design. The master noted that his own calculations had placed the ship sixty miles east of its true landfall which had been correctly predicted by Harrison using H1. This was not the transatlantic voyage demanded by the Board of Longitude, but the Board was impressed enough to grant Harrison £500 for further development. Harrison had moved to London by 1737 and went on to develop H2, a more compact and rugged version. In 1741, after three years of building and two of on-land testing, H2 was ready, but by then Britain was at war with Spain in the War of Austrian Succession and the mechanism was deemed too important to risk falling into Spanish hands. In any event, Harrison suddenly abandoned all work on this second machine when he discovered a serious design flaw in the concept of the bar balances. He had not recognized that the period of oscillation of the bar balances could be affected by the yawing action of the ship (when the ship turned such as '
coming about Tacking is a sailing maneuver by which a sailing vessel, whose desired course is into the wind, turns its bow toward and through the wind so that the direction from which the wind blows changes from one side of the boat to the other, allowing p ...
' while tacking). It was this that led him to adopt circular balances in the Third Sea Clock (H3). The Board granted him another £500, and while waiting for the war to end, he proceeded to work on H3. Harrison spent seventeen years working on this third 'sea clock', but despite every effort it did not perform exactly as he would have wished. The problem was that, because Harrison did not fully understand the physics behind the springs used to control the balance wheels, the timing of the wheels was not isochronous, a characteristic that affected its accuracy. The engineering world was not to fully understand the properties of springs for such applications for another two centuries. Despite this, it had proved a very valuable experiment as much was learned from its construction. Certainly in this machine Harrison left the world two enduring legacies – the bimetallic strip and the caged roller bearing.


Longitude watches

After steadfastly pursuing various methods during thirty years of experimentation, Harrison found to his surprise that some of the watches made by Graham's successor Thomas Mudge kept time just as accurately as his huge sea clocks. It is possible that Mudge was able to do this after the early 1740s thanks to the availability of the new "Huntsman" or "Crucible" steel produced by Benjamin Huntsman sometime in the early 1740s which enabled harder
pinion A pinion is a round gear—usually the smaller of two meshed gears—used in several applications, including drivetrain and rack and pinion systems. Applications Drivetrain Drivetrains usually feature a gear known as the pinion, which may ...
s but more importantly, a tougher and more highly polished cylinder escapement to be produced. Harrison then realized that a mere watch after all could be made accurate enough for the task and was a far more practical proposition for use as a marine timekeeper. He proceeded to redesign the concept of the watch as a timekeeping device, basing his design on sound scientific principles.


"Jefferys" watch

He had already in the early 1750s designed a precision watch for his own use, which was made for him by the watchmaker John Jefferys 1752–1753. This watch incorporated a novel frictional rest escapement and was not only the first to have a compensation for temperature variations but also contained the first miniature ''
going train In horology, a wheel train (or just train) is the gear train of a mechanical watch or clock. Although the term is used for other types of gear trains, the long history of mechanical timepieces has created a traditional terminology for their gear tr ...
fusee Fusee or fusée may refer to: * Fusee (horology), a component of a clock * Flare, a pyrotechnic device sometimes called a Fusee * Fusee, an old word for "flintlock Flintlock is a general term for any firearm that uses a flint-striking lock (fi ...
'' of Harrison's design which enabled the watch to continue running whilst being wound. These features led to the very successful performance of the "Jefferys" watch, which Harrison incorporated into the design of two new timekeepers which he proposed to build. These were in the form of a large watch and another of a smaller size but of similar pattern. However, only the larger No. 1 (or "H4" as it is sometimes called) watch appears to have ever been finished (See the reference to "H4" below). Aided by some of London's finest workmen, he proceeded to design and make the world's first successful marine timekeeper that allowed a navigator to accurately assess his ship's position in longitude. Importantly, Harrison showed everyone that it could be done by using a watch to calculate longitude. This was to be Harrison's masterpiece – an instrument of beauty, resembling an oversized pocket watch from the period. It is engraved with Harrison's signature, marked Number 1 and dated AD 1759.


H4

Harrison's first "sea watch" (now known as H4) is housed in silver pair cases some in diameter. The clock's
movement Movement may refer to: Common uses * Movement (clockwork), the internal mechanism of a timepiece * Motion, commonly referred to as movement Arts, entertainment, and media Literature * "Movement" (short story), a short story by Nancy Fu ...
is highly complex for that period, resembling a larger version of the then-current conventional movement. A coiled steel spring inside a brass mainspring barrel provides 30 hours of power. This is covered by the fusee barrel which pulls a chain wrapped around the conically shaped pulley known as the fusee. The fusee is topped by the winding square (requiring separate key). The great wheel attached to the base of this fusee transmits power to the rest of the movement. The fusee contains the maintaining power, a mechanism for keeping the H4 going while being wound. From Gould: In comparison, the verge's escapement has a recoil with a limited balance arc and is sensitive to variations in driving torque. According to a review by H. M. Frodsham of the movement in 1878, H4's escapement had "a good deal of 'set' and not so much recoil, and as a result the impulse came very near to a double chronometer action". The D-shaped pallets of Harrison's escapement are both made of diamond, approx 2mm long with the curved side radius of 0.6 mm; a considerable feat of manufacture at the time. For technical reasons the balance was made much larger than in a conventional watch of the period, 2.2. inches (55.9 mm) in diameter weighing 28 5/8 Troy grains (1.85 g) and the vibrations controlled by a flat spiral steel spring of 3 turns with a long straight tail. The spring is tapered, being thicker at the stud end and tapering toward the collet at the centre. The movement also has centre seconds motion with a sweep seconds hand. The Third Wheel is equipped with internal teeth and has an elaborate bridge similar to the pierced and engraved bridge for the period. It runs at 5 beats (ticks) per second, and is equipped with a tiny 7 1/2 second remontoire. A balance-brake, activated by the position of the fusee, stops the watch half an hour before it is completely run down, in order that the remontoire does not run down also. Temperature compensation is in the form of a 'compensation curb' (or 'Thermometer Kirb' as Harrison called it). This takes the form of a bimetallic strip mounted on the regulating slide, and carrying the curb pins at the free end. During its initial testing, Harrison dispensed with this regulation using the slide, but left its indicating dial or figure piece in place. This first watch took six years to construct, following which the Board of Longitude determined to trial it on a voyage from Portsmouth to Kingston, Jamaica. For this purpose it was placed aboard the 50-gun , which set sail from Portsmouth on 18 November 1761. Harrison, by then 68 years old, sent it on this transatlantic trial in the care of his son, William. The watch was tested before departure by Robertson, Master of the Academy at Portsmouth, who reported that on 6 November 1761 at noon it was 3 seconds slow, having lost 24 seconds in 9 days on mean solar time. The daily rate of the watch was therefore fixed as losing 24/9 seconds per day.Rees's Clocks Watches and Chronometers, 1819–20, David & Charles reprint 1970 When ''Deptford'' reached its destination, after correction for the initial error of 3 seconds and accumulated loss of 3 minutes 36.5 seconds at the daily rate over the 81 days and 5 hours of the voyage, the watch was found to be 5 seconds slow compared to the known longitude of Kingston, corresponding to an error in longitude of 1.25 minutes, or approximately one nautical mile. William Harrison returned aboard the 14-gun , reaching England on 26 March 1762 to report the successful outcome of the experiment. Harrison senior thereupon waited for the £20,000 prize, but the Board were persuaded that the accuracy could have been just luck and demanded another trial. The board were also not convinced that a timekeeper which took six years to construct met the test of practicality required by the Longitude Act. The Harrisons were outraged and demanded their prize, a matter that eventually worked its way to Parliament, which offered £5,000 for the design. The Harrisons refused but were eventually obliged to make another trip to Bridgetown on the island of Barbados to settle the matter. At the time of this second trial, another method for measuring longitude was ready for testing: the Method of Lunar Distances. The moon moves fast enough, some thirteen degrees a day, to easily measure the movement from day to day. By comparing the angle between the moon and the sun for the day one left for Britain, the "proper position" (how it would appear in Greenwich, England, at that specific time) of the moon could be calculated. By comparing this with the angle of the moon over the horizon, the longitude could be calculated. During Harrison's second trial of his 'sea watch' (H4) Nevil Maskelyne was asked to accompany HMS ''Tartar'' and test the Lunar Distances system. Once again the watch proved extremely accurate, keeping time to within 39 seconds, corresponding to an error in the longitude of Bridgetown of less than . Maskelyne's measures were also fairly good, at , but required considerable work and calculation in order to use. At a meeting of the Board in 1765 the results were presented, but they again attributed the accuracy of the measurements to luck. Once again the matter reached Parliament, which offered £10,000 in advance and the other half once he turned over the design to other watchmakers to duplicate. In the meantime Harrison's watch would have to be turned over to the Astronomer Royal for long-term on-land testing. Unfortunately, Nevil Maskelyne had been appointed Astronomer Royal on his return from Barbados, and was therefore also placed on the Board of Longitude. He returned a report of the watch that was negative, claiming that its "going rate" (the amount of time it gained or lost per day) was due to inaccuracies cancelling themselves out, and refused to allow it to be factored out when measuring longitude. Consequently, this first Marine Watch of Harrison's failed the needs of the Board despite the fact that it had succeeded in two previous trials. Harrison began working on his second 'sea watch' (H5) while testing was conducted on the first, which Harrison felt was being held hostage by the Board. After three years he had had enough; Harrison felt "extremely ill used by the gentlemen who I might have expected better treatment from" and decided to enlist the aid of King George III. He obtained an audience with the King, who was extremely annoyed with the Board. King George tested the watch No.2 (H5) himself at the palace and after ten weeks of daily observations between May and July in 1772, found it to be accurate to within one third of one second per day. King George then advised Harrison to petition Parliament for the full prize after threatening to appear in person to dress them down. Finally in 1773, when he was 80 years old, Harrison received a monetary award in the amount of £8,750 from Parliament for his achievements, but he never received the official award (which was never awarded to anyone). He was to survive for just three more years. In total, Harrison received £23,065 for his work on chronometers. He received £4,315 in increments from the Board of Longitude for his work, £10,000 as an interim payment for H4 in 1765 and £8,750 from Parliament in 1773. This gave him a reasonable income for most of his life (equivalent to roughly £450,000 per year in 2007, though all his costs, such as materials and subcontracting work to other horologists, had to come out of this). He became the equivalent of a multi-millionaire (in today's terms) in the final decade of his life. Captain
James Cook James Cook (7 November 1728 Old Style date: 27 October – 14 February 1779) was a British explorer, navigator, cartographer, and captain in the British Royal Navy, famous for his three voyages between 1768 and 1779 in the Pacific Ocean an ...
used K1, a copy of H4, on his second and third voyages, having used the lunar distance method on his first voyage. K1 was made by Larcum Kendall, who had been apprenticed to John Jefferys. Cook's log is full of praise for the watch and the charts of the southern Pacific Ocean he made with its use were remarkably accurate. K2 was loaned to Lieutenant William Bligh, commander of HMS ''Bounty'' but it was retained by Fletcher Christian following the infamous
mutiny Mutiny is a revolt among a group of people (typically of a military, of a crew or of a crew of pirates) to oppose, change, or overthrow an organization to which they were previously loyal. The term is commonly used for a rebellion among member ...
. It was not recovered from
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until 1808 when it was given to Captain Folger, and then passed through several hands before reaching the National Maritime Museum in London. Initially, the cost of these chronometers was quite high (roughly 30% of a ship's cost). However, over time, the costs dropped to between £25 and £100 (half a year's to two years' salary for a skilled worker) in the early 19th century. Many historians point to relatively low production volumes over time as evidence that the chronometers were not widely used. However, Landes points out that the chronometers lasted for decades and did not need to be replaced frequently – indeed the number of makers of marine chronometers reduced over time due to the ease in supplying the demand even as the merchant marine expanded.This book has a table showing that at the peak just prior to the War of 1812, Britain's Royal Navy had almost 1000 ships. By 1840, this number had reduced to only 200. Even though the navy only officially equipped their vessels with chronometers after 1825, this shows that the number of chronometers required by the navy was shrinking in the early 19th century. Mörzer Bruyns identifies a recession starting around 1857 that depressed shipping and the need for chronometers. Also, many merchant mariners would make do with a deck chronometer at half the price. These were not as accurate as the boxed marine chronometer but were adequate for many. While the Lunar Distances method would complement and rival the marine chronometer initially, the chronometer would overtake it in the 19th century. The more accurate Harrison timekeeping device led to the much-needed precise calculation of longitude, making the device a fundamental key to the modern age. Following Harrison, the marine timekeeper was reinvented yet again by John Arnold who while basing his design on Harrison's most important principles, at the same time simplified it enough for him to produce equally accurate but far less costly marine chronometers in quantity from around 1783. Nonetheless, for many years even towards the end of the 18th century, chronometers were expensive rarities, as their adoption and use proceeded slowly due to the high expense of precision manufacturing. The expiry of Arnold's patents at the end of the 1790s enabled many other watchmakers including Thomas Earnshaw to produce chronometers in greater quantities at less cost even than those of Arnold. By the early 19th century, navigation at sea without one was considered unwise to unthinkable. Using a chronometer to aid navigation simply saved lives and ships – the insurance industry, self-interest, and common sense did the rest in making the device a universal tool of maritime trade.


Death and memorials

Harrison died on 24 March 1776, at the age of eighty-two, just shy of his eighty-third birthday. He was buried in the graveyard of St John's Church, Hampstead, in north London, along with his second wife Elizabeth and later their son William. His tomb was restored in 1879 by the Worshipful Company of Clockmakers, even though Harrison had never been a member of the Company. Harrison's last home was 12, Red Lion Square, in the Holborn district of London. There is a plaque dedicated to Harrison on the wall of Summit House, a 1925 modernist office block, on the south side of the square. A memorial tablet to Harrison was unveiled in Westminster Abbey on 24 March 2006, finally recognising him as a worthy companion to his friend George Graham and Thomas Tompion, 'The Father of English Watchmaking', who are both buried in the Abbey. The memorial shows a
meridian Meridian or a meridian line (from Latin ''meridies'' via Old French ''meridiane'', meaning “midday”) may refer to Science * Meridian (astronomy), imaginary circle in a plane perpendicular to the planes of the celestial equator and horizon * ...
line (line of constant longitude) in two metals to highlight Harrison's most widespread invention, the bimetallic strip thermometer. The strip is engraved with its own longitude of 0 degrees, 7 minutes and 35 seconds West. The Corpus Clock in Cambridge, unveiled in 2008, is a homage by the designer to Harrison's work but is of an electromechanical design. In appearance it features Harrison's
grasshopper escapement The grasshopper escapement is a low-friction escapement for pendulum clocks invented by British clockmaker John Harrison around 1722. An escapement, part of every mechanical clock, is the mechanism that gives the clock's pendulum periodic pushes ...
, the 'pallet frame' being sculpted to resemble an actual grasshopper. This is the clock's defining feature. In 2014, Northern Rail named diesel railcar 153316 as the ''John 'Longitude' Harrison''. On 3 April 2018, Google celebrated his 325th birthday by making a Google Doodle for its homepage. In February 2020, a bronze statue of John Harrison was unveiled in Barrow upon Humber. The statue was created by sculptor Marcus Cornish.


Subsequent history

After World War I, Harrison's timepieces were rediscovered at the
Royal Greenwich Observatory The Royal Observatory, Greenwich (ROG; known as the Old Royal Observatory from 1957 to 1998, when the working Royal Greenwich Observatory, RGO, temporarily moved south from Greenwich to Herstmonceux) is an observatory situated on a hill in G ...
by retired naval officer Lieutenant Commander Rupert T. Gould. The timepieces were in a highly decrepit state and Gould spent many years documenting, repairing and restoring them, without compensation for his efforts. Gould was the first to designate the timepieces from H1 to H5, initially calling them No.1 to No.5. Unfortunately, Gould made modifications and repairs that would not pass today's standards of good museum conservation practice, although most Harrison scholars give Gould credit for having ensured that the historical artifacts survived as working mechanisms to the present time. Gould wrote ''The Marine Chronometer'' published in 1923, which covered the history of chronometers from the Middle Ages through to the 1920s, and which included detailed descriptions of Harrison's work and the subsequent evolution of the chronometer. The book remains the authoritative work on the marine chronometer. Today the restored H1, H2, H3 and H4 timepieces can be seen on display in the Royal Observatory at Greenwich. H1, H2 and H3 still work: H4 is kept in a stopped state because, unlike the first three, it requires oil for lubrication and so will degrade as it runs. H5 is owned by the Worshipful Company of Clockmakers of London, and was previously on display at the Clockmakers' Museum in the
Guildhall, London Guildhall is a municipal building in the Moorgate area of the City of London, England. It is off Gresham and Basinghall streets, in the wards of Bassishaw and Cheap. The building has been used as a town hall for several hundred years, and is ...
, as part of the Company's collection; since 2015 the collection has been displayed in the
Science Museum, London The Science Museum is a major museum on Exhibition Road in South Kensington, London. It was founded in 1857 and is one of the city's major tourist attractions, attracting 3.3 million visitors annually in 2019. Like other publicly funded ...
. In the final years of his life, John Harrison wrote about his research into
musical tuning In music, there are two common meanings for tuning: * Tuning practice, the act of tuning an instrument or voice. * Tuning systems, the various systems of pitches used to tune an instrument, and their theoretical bases. Tuning practice Tun ...
and manufacturing methods for bells. His tuning system, (a meantone system derived from pi), is described in his pamphlet ''A Description Concerning Such Mechanism ... (CSM)''. This system challenged the traditional view that harmonics occur at integer frequency ratios and in consequence all music using this tuning produces low frequency beating. In 2002, Harrison's last manuscript, ''A true and short, but full Account of the Foundation of Musick, or, as principally therein, of the Existence of the Natural Notes of Melody'', was rediscovered in the US Library of Congress. His theories on the mathematics of bell manufacturing (using "Radical Numbers") are yet to be clearly understood. One of the controversial claims of his last years was that of being able to build a land clock more accurate than any competing design. Specifically, he claimed to have designed a clock capable of keeping accurate time to within one second over a span of 100 days. At the time, such publications as ''The London Review of English and Foreign Literature'' ridiculed Harrison for what was considered an outlandish claim. Harrison drew a design but never built such a clock himself, but in 1970
Martin Burgess Edward Martin Burgess FSA FBHI (born 21 November 1931), known as Martin Burgess, is an English horologist and master clockmaker. Early life Born in Yorkshire, Burgess was educated at Gresham's School, Holt, between 1944 and 1949, where he was ...
, a Harrison expert and himself a clockmaker, studied the plans and endeavored to build the timepiece as drawn. He built two versions, dubbed Clock A and Clock B. Clock A became the Gurney Clock which was given to the city of Norwich in 1975, while Clock B lay unfinished in his workshop for decades until it was acquired in 2009 by Donald Saff. The completed Clock B was submitted to the National Maritime Museum in Greenwich for further study. It was found that Clock B could potentially meet Harrison's original claim, so the clock's design was carefully checked and adjusted. Finally, over a 100-day period from 6 January to 17 April 2015, Clock B was secured in a transparent case in the Royal Observatory and left to run untouched, apart from regular winding. Upon completion of the run, the clock was measured to have lost only 5/8 of a second, meaning Harrison's design was fundamentally sound. If we ignore the fact that this clock uses materials such as duraluminium and invar unavailable to Harrison, had it been built in 1762, the date of Harrison's testing of his H4, and run continuously since then without correction, it would now ( ) be slow by just minutes and seconds. Guinness World Records has declared the Martin Burgess' Clock B the "most accurate mechanical clock with a pendulum swinging in free air."


In literature, television, drama and music

In 1995, inspired by a Harvard University symposium on the longitude problem organized by the National Association of Watch and Clock Collectors, Dava Sobel wrote a book on Harrison's work. '' Longitude: The True Story of a Lone Genius Who Solved the Greatest Scientific Problem of His Time'' became the first popular bestseller on the subject of horology. ''The Illustrated Longitude'', in which Sobel's text was accompanied by 180 images selected by William J. H. Andrewes, appeared in 1998. The book was dramatised for UK television by Charles Sturridge in a Granada Productions 4 episode series for Channel 4 in 1999, under the title '' Longitude''. It was broadcast in the US later that same year by co-producer A&E. The production starred
Michael Gambon Sir Michael John Gambon (; born 19 October 1940) is an Irish-English actor. Regarded as one of Ireland and Britain's most distinguished actors, he is known for his work on stage and screen. Gambon started his acting career with Laurence Olivi ...
as Harrison and Jeremy Irons as Gould. Sobel's book was also the basis for a PBS
NOVA A nova (plural novae or novas) is a transient astronomical event that causes the sudden appearance of a bright, apparently "new" star (hence the name "nova", which is Latin for "new") that slowly fades over weeks or months. Causes of the dramati ...
episode entitled ''Lost at Sea: The Search for Longitude''. Harrison's marine time-keepers were an essential part of the plot in the 1996 Christmas special of long-running British sitcom '' Only Fools And Horses'', entitled " Time on Our Hands". The plot concerns the discovery and subsequent sale at auction of Harrison's Lesser Watch H6. The fictional watch was auctioned off at Sotheby's for £6.2 million. The song "John Harrison's Hands", written by Brian McNeill and Dick Gaughan, appeared on the 2001 album ''Outlaws & Dreamers''. The song has also been covered by
Steve Knightley Steve Knightley (born 1954) is an English singer, songwriter and acoustic musician. Since 1992 he has been one half of folk/roots duo Show of Hands along with Phil Beer. Knightley was named "Songwriter of the Nineties" by BBC Radio 6 Music in ...
, appearing on his album 2011 ''Live in Somerset''. It was further covered by the British band Show of Hands and appears on their 2016 album ''The Long Way Home''. In 1998, British composer Harrison Birtwistle wrote the piano piece "Harrison's clocks" that contains musical depictions of Harrison's various clocks. Composer Peter Graham's piece ''Harrison's Dream'' is about Harrison's forty-year quest to produce an accurate clock. Graham worked simultaneously on the brass band and wind band versions of the piece, which received their first performances just four months apart, in October 2000 and February 2001 respectively.


Works

*


See also

* History of longitude * Lunar distance (navigation) * Marine chronometer *'' The Island of the Day Before'' – Umberto Eco


References


Further reading

* * * * *Whittle, Eric S. (1984). ''The Inventor of the Marine Chronometer: John Harrison of Foulby (1693-1776)''. Wakefield Historical Publications. *


External links


John Harrison and the Longitude Problem, at the National Maritime Museum sitePBS Nova Online: ''Lost at Sea, the Search for Longitude''John 'Longitude' Harrison and musical tuningExcerpt from: Time Restored: The Story of the Harrison Timekeepers and R.T. Gould, 'The Man who Knew (almost) Everything'
* ttp://www.thepirateking.com/bios/harrison_john.htm Excellent accounting of John Harrison and his H1, H2, H3 Achievementsbr>Harrison's precision pendulum-clock No. 2, 1727, on the BBC's "A History of the World" website
* ttp://cudl.lib.cam.ac.uk/view/MS-H-17809 Account of John Harrison and his chronometerat Cambridge Digital Library
Building an Impossible Clock
Shayla Love, 19 Jan 2016, ''The Atlantic'' * {{DEFAULTSORT:Harrison, John 1693 births 1776 deaths 17th-century English people 18th-century English people Burials at St John-at-Hampstead English designers English clockmakers English inventors English watchmakers (people) People from Barrow upon Humber People from Foulby Engineers from Yorkshire Recipients of the Copley Medal British scientific instrument makers