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Guo Shoujing

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Guo Shoujing
郭守敬
Stone bust of Guo Shoujing on public display in Beijing
Born1231
Xingtai, Hebei province
Died1314 or 1316
Known forShòushí Calendar (授时曆; "Season-Granting Calendar")
Scientific career
FieldsAstronomy, hydraulic engineering
InstitutionsGaocheng Astronomical Observatory
Guo Shoujing
Chinese郭守敬

Guo Shoujing (Chinese: 郭守敬, 1231–1316), or Ruosi (若思), was a Chinese astronomer,[1] engineer, and mathematician. He lived during the Yuan Dynasty (1271–1368). He is considered one of the greatest scientists in Chinese history.[2] Guo was a major influence in the development of science.

He improved the Grand Canal, built a human-made lake (Kunming lake), created one of the most accurate calendars in history, invented some of the most accurate clocks during his time, and made many other contributions to math, astronomy, and hydraulics (water engineering).

As a kid

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He was born in 1231 in Xingtai, Hebei province. His family was poor.[3] He grandfather, Guo Yong, was famous for his study of the Five Classics to astronomy, mathematics, and hydraulics. Guo Shoujing was a child prodigy. As a teenager, he learned how to build a water clock. He then improved it. His new invention was called the lotus clepsydra (a bowl shaped like a lotus flower that water dripped into). At 16 he began to study math and from there hydraulics and astronomy.[3]

Hydraulics

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At 20, Guo became a hydraulic engineer and government official. He helped fix a bridge over the Dahuoquan River.

Improving the Grand Canal

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In the late 1250s, Kublai Khan (of the Mongol Empire, Yuan dynasty) thought hydraulic engineering, irrigation, and water transport would help the country and people. He sent Liu Bingzhong and his student Guo to improve irrigation systems between Dadu (now Beijing) and the Yellow River.

Guo helped build a 30 km canal from Baifu spring in the Shenshan Mountain to Dadu,

The Grand Canal linked the Yangzi river, the Huai, and Yellow river since the early 7th century. Guo helped extend it to Dadu 1292–93.[4]

It worked. Kublai Khan was happy, and Guo did similar things for the rest of the empire. He was promoted to chief advisor of hydraulics, mathematics, and astronomy.[5]

Human-made Kunming lake

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He created a human-made Kunming Lake in Beijing. This was one of his most memorable engineering feats.

The lake provided water for all areas surrounding Beijing and led to the best grain transport system in the world.

He built other reservoirs, thereby allowing people in inner China to access to fresh water for planting, drinking, and trading.

For irrigation, he provided hydraulics systems which distributed water equally and quickly, which allowed communities to trade more effectively, and therefore prosper.

In 1292, he became the head of the Water Works Bureau.

Inventions: clocks

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Guo invented many astronomy devices: the gnomon, the square table, the armilla, and a water powered armillary sphere called the Ling Long Yi.

  • The gnomon is a clock; it tells the time by measuring the position sun (like a sundial). It can also determine the seasons. Guo made this device much more accurate.
  • The square table measures the angle and position of stars in the side. It is also a protractor.
  • The armilla measures the angle of the sun, as well as the position of any celestial body.
  • The Ling Long Yi is a fancier and more accurate version of the armilla.[6]

Astronomy: calendar

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Even when young Guo was revolutionizing old inventions. His clocks, watches, irrigation, reservoirs, and equilibrium stations were the most accurate of his time, allowing for an extremely accurate recording of time.

Kublai Khan noticed Guo was a genius in astronomy. So he asked Guo, Zhang, and Wang Xun to build a very accurate calendar. It would be the most accurate of its time. They built 27 observatories in the empire to collect data for calculations.

In 1280, Guo finished the calendar, calculating a year to be 365.2425 days, just 26 seconds off modern measurements. He invented many tools in the process.

The calendar revolutionized China and the world. It allowed more accurate recording of history, gave a sense of unification, and helped later emperors rule over China. His calendar would be used for the next 363 years, the longest a Chinese calendar has been used in history.[7]

Guo was also able to more accurately establish the location of celestial bodies and the angles of the Sun relative to Earth. He invented a new type of compass, helping people find north using the stars instead of magnets.

In 1283, Guo was promoted to director of the Observatory in Beijing.

Guo’s work in mathematics was regarded as the most knowledgeable for 400 years. Throughout his life he worked a lot on spherical trigonometry,[3] using a system of approximation to find arc lengths and angles. He approximated pi was equal to 3. But this allowed him to solve some equations much faster and more accurately than if he said pi was 3.14....[3]

He also used mathematical functions for spherical trigonometry,[8][9] building upon the knowledge of Shen Kuo's (1031–1095).[10]

The next important work in trigonometry would only be printed 300 years later by Xu Guangqi in 1607, during the Ming Dynasty.[10]

Influence

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Tang Shunzhi 唐順之 (1507-1560) said Guo's work was an example of "practical scholarship" (applying advanced knowledge to solve practical problems).[11]

Guo influenced the Changzhou School of Thought and spread of "evidential learning" (learning through experience).

A number of things are named after Guo, including the Asteroid 2012 Guo Shou-Jing and the Large Sky Area Multi-Object Fibre Spectroscopic Telescope near Beijing.

References

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  1. Morris Rossabi (28 November 2014). From Yuan to Modern China and Mongolia: The Writings of Morris Rossabi. BRILL. pp. 282–. ISBN 978-90-04-28529-3.
  2. Engelfriet, 72.
  3. 3.0 3.1 3.2 3.3 O'Connor.
  4. "China", 71727.
  5. Kleeman.
  6. Shea.
  7. Asiapac Editorial (2004), 132
  8. Needham, Volume 3, 109.
  9. Ho, 105.
  10. 10.0 10.1 Needham, Volume 3, 110.
  11. Ching-ch'uan hsien-sheng wen-chi (1573), 6.36b-40a, 7.15a-18a. in Elman, Classicism, Politics, and Kinship, 78