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Baris 73: [[Berkas:Zhang Heng.jpg\|thumb\|left\|130px\|[[Zhang Heng]] (78–139)]] Sebagai tambahan, karya-karya matematika dari astronom Han dan penemu [[Zhang Heng]] (78–139) memiliki perumusan untuk [[pi]] juga, yang berbeda dari cara perhitungan yang dilakukan oleh Liu Hui. Zhang Heng menggunakan rumus pi-nya untuk menentukan volume bola. Juga terdapat karya tertulis dari matematikawan dan [[teori musik\|teoriwan musik]] [[Jing Fang]] (78–37 SM); dengan menggunakan [[koma Pythagoras]], Jing mengamati bahwa 53 [[perlimaan sempurna]] menghampiri 31 [[oktaf]]. Ini kemudian mengarah pada penemuan [[53 temperamen sama]], dan tidak pernah dihitung dengan tepat [http://www.tonalsoft.com/enc/m/mercator-comma.aspx di tempat lain] hingga seorang Jerman, [[Nicholas Mercator]] melakukannya pada abad ke-17. ~~<!--~~ In addition, the mathematical works of the Han astronomer and inventor [[Zhang Heng]] (AD 78–139) had a formulation for [[pi]] as well, which differed from Liu Hui's calculation. Zhang Heng used his formula of pi to find spherical volume. There was also the written work of the mathematician and [[music theory\|music theorist]] [[Jing Fang]] (78–37 BC); by using the [[Pythagorean comma]], Jing observed that 53 [[just fifth]]s approximates 31 [[octave]]s. This would later lead to the discovery of [[53 equal temperament]], and was not calculated precisely [http://www.tonalsoft.com/enc/m/mercator-comma.aspx elsewhere] until the German [[Nicholas Mercator]] did so in the 17th century. ~~The~~Bangsa ~~Chinese~~Cina ~~also~~juga ~~made~~membuat ~~use~~penggunaan ofdiagram ~~the~~kombinatorial ~~complex combinatorial diagram~~kompleks ~~known~~yang asdikenal ~~the~~sebagai [[~~magic~~kotak ~~square~~ajaib]] ~~and~~dan [[~~Magic~~lingkaran ~~circle~~ajaib (~~mathematics~~matematika)\|~~magic~~lingkaran ~~circles~~ajaib]], ~~described~~dijelaskan indi ~~ancient~~zaman ~~times~~kuno ~~and~~dan ~~perfected~~disempurnakan byoleh [[Yang Hui]] (AD1238–1398 ~~1238–1398~~M). [[Zu Chongzhi]] (~~5th~~abad ~~century~~ke-5) ~~of the~~dari [[~~Southern~~Dinasti ~~and~~Selatan ~~Northern~~dan ~~Dynasties~~Utara]] ~~computed~~menghitung ~~the~~nilai ~~value~~pi ofsampai πtujuh totempat ~~seven decimal places~~desimal, ~~which~~yang ~~remained~~bertahan ~~the~~menjadi ~~most~~nilai ~~accurate~~pi ~~value~~paling ofakurat πselama ~~for~~hampir ~~almost 1000~~1.000 ~~years~~tahun. Bahkan setelah matematika Eropa mulai mencapai kecemerlangannya pada masa [[Renaisans]], matematika Eropa dan Cina adalah tradisi yang saling terpisah, dengan menurunnya hasil matematika Cina secara signifikan, hingga para misionaris [[Jesuit]] seperti [[Matteo Ricci]] membawa gagasan-gagasan matematika kembali dan kemudian di antara dua kebudayaan dari abad ke-16 sampai abad ke-18. Even after European mathematics began to flourish during the [[Renaissance]], European and Chinese mathematics were separate traditions, with significant Chinese mathematical output in decline, until the [[Jesuit]] missionaries such as [[Matteo Ricci]] carried mathematical ideas back and forth between the two cultures from the 16th to 18th centuries. ~~-->~~ == Matematika India ==

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