婆羅摩笈多

维基百科,自由的百科全书
婆羅摩笈多
出生598年
哈尔沙帝国拉贾斯坦邦宾马尔
逝世670年
瞿折羅-普羅蒂訶羅
职业印度数学家天文学家

婆羅摩笈多梵語ब्रह्मगुप्तIAST: Brahmagupta,598年—668年),印度数学家天文学家,生於印度拉贾斯坦邦宾马尔[1],一生可能大多数时间都在生地度过。当时,該地隸屬于哈尔沙帝国。婆羅摩笈多為乌贾因天文台台长,於任职期间著書二部,乃关于数学天文学,當中包括於628年寫成的《婆罗摩历算书英语Brāhmasphuṭasiddhānta》。

婆羅摩笈多係首位提出0計算規則的數學家。和當時許多的印度數學家一樣,會將文字編排成橢圓形的句子,而且最後會有一個環狀排列的詩。由於未提出證明,不知其中的數學推導過程[2]

生平和著作

在《婆罗摩历算书》第十四篇的第7句及第8句,提及婆羅摩笈多於三十歲著作此書,也是628年,便可推得婆羅摩笈多是在598年出生[3] [1]。婆羅摩笈多寫了四本有關數學及天文學的書,分別為624年的《Cadamekela》、628年的《婆罗摩历算书英语Brāhmasphuṭasiddhānta》、665年的《Khandakhadyaka》及672年的《Durkeamynarda》,其中最著名的是《婆罗摩历算书》。波斯歷史學家比魯尼在其著作《Tariq al-Hind》提到,阿拉伯帝國阿拔斯王朝哈里發馬蒙曾派大使到印度,並將一本「算書」帶到巴格達,翻譯為阿拉伯文,一般認為這本算書就是《婆罗摩历算书》[4]

数学

《婆罗摩历算书》中,有四章半講述纯数学,第12章講述演算系列和少许几何学。第18章是关于代数,婆羅摩笈多在这里引入了一个解二次丟番圖方程nx² + 1 = y²的方法。

婆羅摩笈多还提供了计算任何四边已知的圆内接四边形的面积的公式。海伦公式是婆羅摩笈多给出的公式的一个特殊形式(一边为零)。婆羅摩笈多公式与海伦公式之间的关系,类似餘弦定理扩展了勾股定理

代數

婆羅摩笈多在《婆羅摩曆算書》第十八章給了線性方程的解:

之間的數交換後的差除以未知數的差,就是方程的解。[5]

當中方程的解是,而色是指常數項c和e。他然後進一步給了二次方程兩個解:

18.44:色和二次項和4相乘的積加一次項的二次方的數,把這個數開方後減一次項,再把整個數除一次項的2倍,就是方程的解。[注 1]
18.45:色和二次項的積加一次項一半的二次方的數,把這個數開方後減一次項的一半,再把整個數除一次項就是方程的解。[注 2][5]

其實它們分別說了方程的解恆等於

運算

級數

婆羅摩笈多提供了頭個平方和及立方和的算法:

12.20. 平方和是[头几个整数直接和]乘以两倍[项数]与1的和后再除以3的结果。立方和是这直接和的平方。[注 3][6]

婆羅摩笈多的方法較近似於現代形式。

這裏,婆羅摩笈多所給的頭個自然數的平方和立方的算法,分別為

婆羅摩笈多普及了數學中的重要概念:0。《婆羅摩曆算書》是至今為止,已知首部將0視為普通數字使用之著作。除此之外,這部書還闡述了負數和0的運算規則。這些規則與現代規則非常接近。

婆羅摩笈多在《婆羅摩曆算書》第十八章中這樣提到:

18.30:正數加正數為正數,負數加負數為負數。正數加負數為他們彼此的差,如果它們相等,結果就是零。負數加零為負數,正數加零為正數,零加零為零[注 4]
18.32:負數減零為負數,正數減零為正數,零減零為零,正數減負數為他們彼此的和。[注 5][5]

他這樣描述乘法:

18.33:正負得負,負負得正,正正得正,正數乘零﹑負數乘零和零乘零都是零。[注 6][5]

最大的區別在於,婆羅摩笈多試圖定義除以零,在現代數學中這個運算無解。

18.34:正數除正數或負數除負數為正數,正數除負數或負數除正數為負數,零除零為零[注 7][5]
18.35:正數或負數除以零有零作為該數的除數,零除以正數或負數有正數或負數作為該數的除數。正數或負數的平方為正數,零的平方為零。[注 8][5]

婆羅摩笈多的定義不實用,比如他認為。而他並沒有保證的說法是對的。[7]

幾何

婆羅摩笈多公式

圖供參考

婆羅摩笈多在《婆羅摩曆算書》第十二章中這樣提到

12.21:一個四邊形或三角形的大約面積是邊和對邊的和的一半。四邊形的準確面積是每一個邊分別地被另外三條邊減的和的一半的開方。[注 9][6]

設一個圓內接四邊形的四條邊為pqrs,大約面積為,設,準確面積則為

雖然婆羅摩笈多並沒有說四邊形為圓內接四邊形,但其實這是明顯的。[8]

圆周率

婆羅摩笈多還提供了一個化圓為方的幾何方法:

12.40:直徑和半徑的二次方每個乘3分別地為圓形大約的周界和面積。而準確值則為直徑和半徑的二次方乘開方10。[注 10][6]

这个方法不十分精确,按照它的计算得出的圆周率

天文学

婆羅摩笈多是最早使用代数解决天文问题的人。一般认为,阿拉伯人是通过《婆罗摩历算书》了解到印度天文学的[9]。770年,阿拔斯王朝第二代哈里发曼苏尔邀请乌贾因的学者赴巴格达,使用《婆罗摩历算书》介绍印度代数天文学。他还请人将婆羅摩笈多的著作译成阿拉伯语。

婆羅摩笈多其它重要的天文成就在于:计算星曆表、天体出生和下降的时间、合相日食月食的方法。婆羅摩笈多批评往世书中大地平坦或者像碗一样中空的理论。相反地,他的观察认为大地和天空是圆的,不过他误认为大地不运动。

相關條目

原文引注

  1. ^ 英文原文是:“18.44. Diminish by the middle [number] the square-root of the rupas multiplied by four times the square and increased by the square of the middle [number]; divide the remainder by twice the square. [The result is] the middle [number].”
  2. ^ 英文原文是:“18.45. Whatever is the square-root of the rupas multiplied by the square [and] increased by the square of half the unknown, diminish that by half the unknown [and] divide [the remainder] by its square. [The result is] the unknown.”
  3. ^ 英文原文是:“12.20. The sum of the squares is that [sum] multiplied by twice the [number of] step[s] increased by one [and] divided by three. The sum of the cubes is the square of that [sum] Piles of these with identical balls [can also be computed]”
  4. ^ 英文原文是:“18.30. [The sum] of two positives is positives, of two negatives negative; of a positive and a negative [the sum] is their difference; if they are equal it is zero. The sum of a negative and zero is negative, [that] of a positive and zero positive, [and that] of two zeros zero. [...]”
  5. ^ 英文原文是:“18.32. A negative minus zero is negative, a positive [minus zero] positive; zero [minus zero] is zero. When a positive is to be subtracted from a negative or a negative from a positive, then it is to be added [...]”
  6. ^ 英文原文是:“18.33. The product of a negative and a positive is negative, of two negatives positive, and of positives positive; the product of zero and a negative, of zero and a positive, or of two zeros is zero.”
  7. ^ 英文原文是:“18.34. A positive divided by a positive or a negative divided by a negative is positive; a zero divided by a zero is zero; a positive divided by a negative is negative; a negative divided by a positive is [also] negative.”
  8. ^ 英文原文是:“18.35. A negative or a positive divided by zero has that [zero] as its divisor, or zero divided by a negative or a positive [has that negative or positive as its divisor]. The square of a negative or of a positive is positive; [the square] of zero is zero. That of which [the square] is the square is [its] square-root.”
  9. ^ 英文原文是:“12.21. The approximate area is the product of the halves of the sums of the sides and opposite sides of a triangle and a quadrilateral. The accurate [area] is the square root from the product of the halves of the sums of the sides diminished by [each] side of the quadrilateral.”
  10. ^ 英文原文是:“12.40. The diameter and the square of the radius [each] multiplied by 3 are [respectively] the practical circumference and the area [of a circle]. The accurate [values] are the square-roots from the squares of those two multiplied by ten.”

參考資料

  1. ^ 1.0 1.1 Seturo Ikeyama. Brāhmasphuṭasiddhānta (CH. 21) of Brahmagupta with Commentary of Pṛthūdhaka, critically edited with English translation and notes. INSA. 2003. 
  2. ^ Brahmagupta biography. School of Mathematics and Statistics University of St Andrews, Scotland. [2013-07-15]. (原始内容存档于2013-09-15). 
  3. ^ David Pingree. Census of the Exact Sciences in Sanskrit (CESS). American Philosophical Society. : p254. 
  4. ^ Boyer. The Arabic Hegemony. 1991: 226. By 766 we learn that an astronomical-mathematical work, known to the Arabs as the Sindhind, was brought to Baghdad from India. It is generally thought that this was the Brahmasphuta Siddhanta, although it may have been the Surya Siddhanata. A few years later, perhaps about 775, this Siddhanata was translated into Arabic, and it was not long afterwards (ca. 780) that Ptolemy's astrological Tetrabiblos was translated into Arabic from the Greek.  缺少或|title=为空 (帮助)
  5. ^ 5.0 5.1 5.2 5.3 5.4 5.5 Plofker 2007,pp.428–434)
  6. ^ 6.0 6.1 6.2 Plofker 2007,pp.421–427)
  7. ^ Boyer. China and India. 1991: 220. However, here again Brahmagupta spoiled matters somewhat by asserting that , and on the touchy matter of , he did not commit himself:  缺少或|title=为空 (帮助)
  8. ^ Plofker 2007,p.424) Brahmagupta does not explicitly state that he is discussing only figures inscribed in circles, but it is implied by these rules for computing their circumradius.
  9. ^ Brahmagupta, and the influence on Arabia. School of Mathematical and Computational Sciences University of St Andrews. 2002-05 [2013-07-15]. (原始内容存档于2013-09-15).