Revolution in Time

A book about the history of the mechanical clock. Its inventors, investors and consumers. I really enjoyed reading this. It’s like reading a history book but looking through a very specific lens. I like it as a concept and after reading this book I added a lot more ‘history of industry’ books to my list.

The mechanical clock

1. Weight driven
2. Transmitted energy of falling weight through a gear train
3. Used oscillation to track the flow of time

1. Why Innovation Was Focused in Europe

• China

  • Astronomical clock

  • Water wheel clocks & clepsydras (sand timers with water)

    • Froze in winter (same as in Europe)

• Middle East

  • No trouble with cloudy skies or cold weather

  • Hence sundials and water clocks worked fine –> No innovation

• Room for error

• Europeans brought clocks to China

• China did not take opportunity to copy and improve them

• China did not need to know the time like Europe did

• Communist china –> You do things when government says, not at a certain time

• Clocks represented an insult to china

  • Clocks very Christian (telling you when to pray etc)

• Interest in time measurement –> The clock (Not the other way around)

• Popularity of clocks grew in line with developments in Astronomy

• Also grew as Christianity grew (prayer times)

• Monestary bells –> Timings for monks to increase productivity for God

• Early turret clocks

  • Very expensive

  • A mark of prestige

2. History of Horological Techniques

• Personalisation of time

  • Miniturisation (1400s)

    • Allowed for portability

    • Birth of the watch

    • Who’s watch was most accurate? <– Status symbol

    • “Privatisation”/personalisation of time –> Individualism –> Growth of horology in Europe

  • War

    • Personal time was useful for military organisation

• Regional Focuses

  • Main parts of horology development

    1. English/Dutch: Greater accuracy & measurement precision
    2. Germans: Greater complexity (minaturisation, advanced engineering)
    3. French: Development of the watch as an ornament of beauty
  • Drivers of accurate time measurement

    1. Astronomers
    2. Calculation of longitude at sea (longitude can be inferred from time differences at sea)

       • “Dead reckoning”

       • Britain announced big prize for whoever could solve this longitude problem

• Further Precision

  • 1600s – Introduction of a minute hand

  • Galileo vs Huygens: Who invented the pendulum clock?

  • Industry ran into the verification problem

    • How do you know if your watch is accurate if you dont have an accurate watch to compare it to?

  • 1690s – Introduction of second and fractional second hands

    • In Britain to ensure bookies knew the winner of Horse races

• Reaching an Asymptote

  • The last gains are the hardest and this was the point the industry was at

  • Improvements generally came in reduction of friction

    • Using crystals/rubies in watches

    • Adding oil regularly

• Longitude Problem Solved

  • John Harrison

    • Englishman that solved the longitude problem with a clock he made from wood

    • His clock was called the H4

• French rise to challenge English dominance

  • Pierre Le Roy

    • Arguably the greatest horologist to ever live

    • Chronometer (detend) escapement

  • Ferdinand Berthoud – Another french clockmaker

  • Patriotism drove the french horologists

• Arnold v Earnshaw

  • In 1700s, John Arnold began to manufacture and industrialise the Chronometer

  • Ran into competition from Thomas Earnshaw

  • Large debate around the father of the English marine clock: Earnshaw vs Arnold

  • A pocket chronometer by either of these men would still work perfectly today

  • One Second = 9,192,631,770 periods of the radiation corresponding to the transition between the two hyperfine levels of ground state of the cesium-133 atom

3. Who Made Clocks, and How

• Royal comissions

  • Something unique to clockmaking in the 1700s-1800s was that maintenance was as costly and time consuming as production

  • “Royally comissioned”

    • Watchmaking was expensive, so initially horologists were comissioned by royalty and the ultra wealthy to make custom pieces

• Division of labour

  • Driven by specialisation

  • Clockmaking broke down into

    • Master clockmaker – Owner of the shop and maker of designs/manufacturing process

    • Apprentices – Doing apprenticeship under a master

    • Journeymen – Completed apprenticeship but had not yet opened their own shop

  • Clockmakers guilds

    • Made to protect against competition

    • Had to be in the guild to sell clocks

  • Prevention of competition = Decreased innovation

• British Superiority

  • Britain vs France

  • Industrial revolution

    • British horology enjoyed a century of superiority in the 1700s

    • Demand for watches in Britain grew as people had more money

  • Initiation of import wars on watches from france

  • Importing watches to copy them was a big market too

• Geneva

  • Place of refuge for protestants in France

  • Had a highly skilled population

  • Had access to cheap labour in the farms of the mountains

  • Travelling merchants grew in importance

    • Knew what was popular

    • Transported watches

• The Swiss Jura

  • Abundance of cheap labour

  • Low cost mass production

  • Made very cheap watches

  • Standardised parts –> Replaceable

  • Geneva made the custom beautiful watches, the jura mass produced for the standard person

• UK unable to compete with the Swiss

  • “Unification of time”

  • As everyone needed to know the time –> Increased demand –> Benefits mass producers (Swiss Jura)

  • Policy blockades preventing Jura watches in UK were avoided with smuggling, etc

  • Growth of common time from: Railways, industrial work

• Growth of Swiss Industry

  • Improvement of both quality and quantity from the Swiss

  • New swiss watchmakers were popping up to make new styles (eg. Patek Phillipe)

  • Swiss market too small –> Needed to export –> Made the industry more flexible to change

• American mass production

  • Driven by civil war of 1850s

  • Used machinery to make parts

    • High production and great quality + accuracy

  • US marketed their watches better than other nations

• Swiss Response to the US

  • Swiss reacted to US much better than Britain did to the Swiss

  • Swiss stressed the quality of their pieces, which were better than the US

  • Marketed itself with a Swiss prestige

  • After this the US industry fell away

  • The Swiss became crazy dominant in the watch market

• Quartz Watches

  • USA and Japan benefitted from this

    • Timex, Seiko, Casio

    • US did mass production right with Quartz watches

  • Swiss lacked the technological ability to compete

    • They stuck to the high quality, good prestige mechanical watches

  • Quartz kept better time than a lot of more expensive watches

  • Swiss lost a lot of market share as a result of not doing well with Quartz

  • Swiss are still untouchable in the prestige market