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米利堅羅密士譔,英國偉烈亞力口譯,海寧李善蘭筆述。
《代微积拾级》,由英国汉学家、来华传教士伟烈亚力(Alexander Wylie,1815年4月6日-1887年2月10日)口译,清代数学家李善兰(1811年1月22日-1882年12月9日)笔述;1859年由上海墨海书馆(The London Missionary Society Press)出版。原著为美国数学家伊莱亚斯·罗密士(Elias Loomis,1811年8月7日-1889年8月15日)于1851年出版的《解析几何和微积分初步》(Elements of Analytical Geometry and of The Differential and Integral Calculus)。
需要注意的是,这本书中的定义以今天的眼光来看并不严谨。一方面,当时的微积分学基础并不牢固,(ε, δ)-极限定义还未出现,书中仍然只使用未严格定义的无穷小量来定义概念;另一方面,这本书本身就是入门教材,不应过于晦涩难懂。
代(解析几何)
微(微分)
积(积分)
李善蘭,字壬叔,海寧人。諸生。從陳奐受經,於算術好之獨深。十歲即通九章,後得測圓海鏡、句股割圜記,學益進。疑割圜法非自然,精思得其理。嘗謂道有一貫,藝亦然。測圓海鏡每題皆有法有草,法者,本題之法也;草者,用立天元一曲折以求本題之法,乃造法之法,法之源也。算術大至躔離交食,細至米鹽瑣碎,其法至繁,以立天元一演之,莫不能得其法。故立天元一者,算學中之一貫也。並時明算如錢塘戴煦,南匯張文虎,烏程徐有壬、汪曰楨,歸安張福僖,皆相友善。咸豐初,客上海,識英吉利偉烈亞力、艾約瑟、韋廉臣三人,偉烈亞力精天算,通華言。善蘭以歐幾里幾何原本十三卷、續二卷,明時譯得六卷,因與偉烈亞力同譯後九卷,西士精通幾何者尟,其第十卷尤玄奧,未易解,譌奪甚多,善蘭筆受時,輒以意匡補。譯成,偉烈亞力歎曰:「西士他日欲得善本,當求諸中國也!」
偉烈亞力又言美國天算名家羅密士嘗取代數、微分、積分合為一書,分款設題,較若列眉,復與善蘭同譯之,名曰代微積拾級十八卷。代數變天元、四元,別為新法,微分、積分二術,又藉徑於代數,實中土未有之奇秘。善蘭隨體剖析自然,得力於海鏡為多。
粵匪陷吳、越,依曾國籓軍中。同治七年,用巡撫郭嵩燾薦,徵入同文館,充算學總教習、總理衙門章京,授戶部郎中、三品卿銜。課同文館生以海鏡,而以代數演之,合中、西為一法,成就甚眾。光緒十年,卒於官,年垂七十。
善蘭聰彊絕人,其於算,能執理之至簡,馭數至繁,故衍之無不可通之數,抉之即無不可窮之理。所著則古昔齋算學,詳藝文志。世謂梅文鼎悟借根之出天元,善蘭能變四元而為代數,蓋梅氏後一人云。
[取自《清史稿·列傳二百九十四·疇人二》]
在书中,小写拉丁字母以天干(10个)、地支(12个)和物(w)、天(x)、地(y)、人(z)对应;小写希腊字母以二十八宿的前24个对应。大写字母将小写字母对应的汉字左侧加上“口”来表示,即使加上口字旁的字已存在,也按照小写的读音来读(例如小写的v对应“亥”,那么大写的V对应的“咳”也读作hài)。另外还有一些专用的符号单独对应。
| A | 呷 | a | 甲 | Α | 唃 | α | 角 | F | 㖤 |
|---|---|---|---|---|---|---|---|---|---|
| B | 𠮙 | b | 乙 | Β | 吭 | β | 亢 | f | 函 |
| C | 𠰳 | c | 丙 | Γ | 呧 | γ | 氐 | ϕ | 𭡝 |
| D | 叮 | d | 丁 | Δ | 
|
δ | 房 | ψ | 涵 |
| E | 𱒐 | e | 戊 | Ε | 吣 | M | 根 | ||
| F | 𠯇 | f | 己 | Ζ | 𠳿 | ζ | 尾 | π | 周[表注 1] |
| G | 𱓒 | g | 庚 | Η | 𱕍 | η | 箕 | ε | 訥(讷)[表注 2] |
| H | 㖕 | h | 辛 | Θ | 呌 | θ | 斗 | d | 彳[表注 3] |
| I | 𠰃 | i | 壬 | Ι | 吽 | ι | 牛 | ∫ | 禾[表注 4] |
| J | 𱓩 | j | 癸 | Κ | 𠯆 | κ | 女 | ||
| K | 吇 | k | 子 | Λ | 嘘 | λ | 虛 | ||
| L | 吜 | l | 丑 | Μ | 𠱓[表注 5] | μ | 危 | ||
| M | 𠻤 | m | 寅 | Ν | 㗌 | ν | 室 | ||
| N | 𠰭 | n | 卯 | Ξ | 
|
ξ | 壁 | ||
| O | 㖘 | o | 辰 | Ο | 喹 | ο | 奎 | ||
| P | 𱒄 | p | 巳 | Π | 嘍(喽) | ||||
| Q | 吘 | q | 午 | Ρ | 喟[表注 6] | ρ | 胃 | ||
| R | 味 | r | 未 | Σ | 𭈾 | σ | 昴 | ||
| S | 呻 | s | 申 | Τ | 嗶(哔) | τ | 畢(毕) | ||
| T | 唒 | t | 酉 | Υ | 嘴 | υ | 觜 | ||
| U | 㖅 | u | 戌 | Φ | 嘇(𰇼) | ||||
| V | 咳 | v | 亥 | Χ | 𠯤 | χ | 井 | ||
| W | 𭈘 | w | 物 | Ψ | 𠺌 | ||||
| X | 𱒆 | x | 天 | Ω | 
|
ω | 柳 | ||
| Y | 哋 | y | 地 | ||||||
| Z | 㕥 | z | 人 |
| LaTeX | HTML | 说明 |
|---|---|---|
| [math]\displaystyle{ \bot }[/math][表注 7] | ⊥[表注 8] | 正也,加也[表注 9] |
| [math]\displaystyle{ \top }[/math][表注 10] | ⊤[表注 11] | 負也,減也[表注 12] |
| [math]\displaystyle{ \times }[/math][表注 13] | ×[表注 14] | 相乘也 |
| [math]\displaystyle{ \div }[/math][表注 15] | ÷[表注 16] | 約也,或作[math]\displaystyle{ - }[/math] |
| [math]\displaystyle{ :::: }[/math] | :::: | 四率比例也 |
| [math]\displaystyle{ () }[/math] | () | 括諸數為一數也,名曰括弧 |
| [math]\displaystyle{ \sqrt{} }[/math][表注 17] | √ | 開方根也 |
| [math]\displaystyle{ = }[/math] | = | 等於[表注 18] |
| [math]\displaystyle{ \lt }[/math] | < | 右大於左 |
| [math]\displaystyle{ \gt }[/math] | > | 左大於右 |
| [math]\displaystyle{ 0 }[/math] | 0 | 無也 |
| [math]\displaystyle{ \infty }[/math][表注 19] | ∞ | 無窮也 |
\bot
⊥⊥⊥⊥⊥
\perp)或⟂(U+27C2,⟂)。不使用加号+(U+002B,&#plus;+)是因为易与汉字数字“十”混淆。此为“上”的古字(丄,U+4E04,丄)。
\top
⊤⊤⊤
−−)或连字暨减号-(U+002D,-)是因为易与汉字数字“一”混淆。此为“下”的古字(丅,U+4E05,丅 )。
\times
××
\div
÷÷
\sqrt{}
\infty
书中新创了大量术语,其中有很多沿用至今。
| 原文 | 译文 |
|---|---|
| Abbreviated expression | 簡式 |
| Abscissa | 橫線 |
| Acute angle | 銳角 |
| Add | 加 |
| Addition | 加法 |
| Adjacent angle | 旁角 |
| Algebra | 代數學 |
| Algebra curve | 代數曲線 |
| Altitude | 高,股,中垂線 |
| Anomaly | 奇式 |
| Answer | 答 |
| Antecedent | 前率 |
| Approximation | 迷率 |
| Arc | 弧 |
| Area | 面積 |
| Arithmetic | 數學 |
| Asymptote | 漸近線 |
| Axiom | 公論 |
| Axis | 軸,軸線 |
| Axis major | 長徑,長軸 |
| Axis minor | 短徑,短軸 |
| Axis of abscissas | 橫軸 |
| Axis of coordinates | 總橫軸 |
| Axis of ordinate | 縱軸 |
| Base | 底,勾 |
| Binominal | 二項式 |
| Binomial theorem | 合名法 |
| Biquadratic parabola | 三乘方拋物線 |
| Bisect | 平分 |
| Brackets | 括弧 |
| Center of an ellipse | 中點 |
| Chord | 通弦 |
| Circle | 平圜 |
| Circular expression | 圜式 |
| Circumference | 周 |
| Circumsoribed | 外切 |
| Coefficient | 係數 |
| Common algebra expression | 代數常式 |
| Coincide | 合 |
| Commensurable | 有等數 |
| Common | 公 |
| Complement | 餘 |
| Complementary angle | 餘角 |
| Concave | 凹 |
| Concentric | 同心 |
| Cone | 圓錐 |
| Conjugate axis | 相屬軸 |
| Conjugate diameter | 相屬徑 |
| Conjugate hyperbola | 相屬雙曲線 |
| Consequent | 後率 |
| Constant | 常數 |
| Construct | 做圖 |
| Contact | 切 |
| Converging series | 斂級數 |
| Convex | 凸 |
| Coordinates | 總橫線 |
| Corollary | 系 |
| Cosecant | 餘割 |
| Cosine | 餘弦 |
| Cotangent | 餘切 |
| Coversedsine | 餘矢 |
| Cube | 立方 |
| Cube root | 立方根 |
| Cubical parabola | 立方根拋物線 |
| Curvature | 曲率 |
| Curve | 曲線 |
| Cusp | 歧點 |
| Cycloid | 擺線 |
| Cylinder | 圜柱 |
| Decagon | 十邊形 |
| Decrease | 損 |
| Decreasing function | 損函數 |
| Definition | 界說 |
| Degree of an expression | 次 |
| Degree of angular measurement | 度 |
| Denominator | 分母,母數 |
| Dependent variable | 因變數 |
| Diagonal | 對角線 |
| Diameter | 徑 |
| Difference | 較 |
| Differential | 微分 |
| Differential calculus | 微分學 |
| Differential coefficient | 微係數 |
| Differentiate | 求微分 |
| Direction | 方向 |
| Directrix | 準線 |
| Distance | 距線 |
| Diverging lines | 漸遠線 |
| Diverging series | 發級數 |
| Divide | 約 |
| Dividend | 實 |
| Division (absolute) | 約法 |
| Division (concrete) | 除法 |
| Divisor | 法 |
| Dodecahedron | 十二面體 |
| Duplicate | 倍比例 |
| Edge of polyhedron | 稜 |
| Ellipse | 橢圓 |
| Equal | 等 |
| Equation | 方程式 |
| Equation of condition | 偶方程式 |
| Equiangular | 等角 |
| Equilateral | 等邊 |
| Equimultiple | 等倍數 |
| Evolute | 漸申線 |
| Evolution | 開方 |
| Expand | 詳 |
| Expansion | 詳式 |
| Explicit function | 陽函數 |
| Exponent | 指數 |
| Expression | 式 |
| Extreme and mean ratio | 中末比例 |
| Extremes of a proportion | 首尾二率 |
| Face | 面 |
| Factor | 乘數 |
| Figure | 行、圖 |
| Focus of a conic section | 心 |
| Formula | 法 |
| Fourth proportional | 四率 |
| Fraction | 分 |
| Fractional expression | 分式 |
| Frustum | 截圜錐 |
| Function | 函數 |
| General expression | 公式 |
| Generate | 生 |
| Generating circle | 母輪 |
| Generating point | 母點 |
| Geometry | 幾何學 |
| Given ratio | 定率 |
| Great circle | 大圈 |
| Greater | 大 |
| Hemisphere | 半球 |
| Hendecagon | 十一邊形 |
| Heptagon | 七邊形 |
| Hexagon | 六邊形 |
| Hexahedron | 六面體 |
| Homogeneous | 同類 |
| Homologous | 相當 |
| Hypoerbola | 雙曲線,雙線 |
| Hyperbolic spiral | 雙線螺旋 |
| Hypotheneuse | 弦 |
| Icosahedron | 二十面體 |
| Implicit function | 陰函數 |
| Impossible expression | 不能式 |
| Inclination | 倚度 |
| Incommensurable | 無等數 |
| Increase | 增 |
| Increasing function | 增函數 |
| Increment | 長數 |
| Indefinite | 無定 |
| Independent variable | 自變數 |
| Indeterminate | 未定 |
| Infinite | 無窮 |
| Inscribed | 內切,所容 |
| Integral | 積分 |
| Integral calculus | 積分學 |
| Integrate | 求積分 |
| Interior | 裏 |
| Intersect | 交 |
| Intersect at right angles | 正交 |
| Inverse circular expression | 反圜式 |
| Inverse proportion | 反比例 |
| Irrational | 無比例 |
| Isolated point | 特點 |
| Isosceles triangle | 二等邊三角形 |
| Join | 聯 |
| Known | 已知 |
| Law of continuity | 漸變之理 |
| Leg of an angle | 夾角邊 |
| Lemma | 例 |
| Length | 長短 |
| Less | 小 |
| Limits | 限 |
| Limited | 有限 |
| Line | 線 |
| Logarithm | 對數 |
| Logarithmic curve | 對數曲線 |
| Logarithmic spiral | 對數螺線 |
| Lowest term | 最小率 |
| Maximum | 極大 |
| Mean proportion | 中率 |
| Means | 中二率 |
| Measure | 度 |
| Meet | 遇 |
| Minimum | 極小 |
| Modulus | 對數根 |
| Monomial | 一項式 |
| Multinomial | 多項式 |
| Multiple | 倍數 |
| Multiple point | 倍點 |
| Multiplicand | 實 |
| Multiplication | 乘法 |
| Multiplier | 法 |
| Multiply | 乘 |
| Negative | 負 |
| Nonagon | 九邊形 |
| Normal | 法線 |
| Notation | 命位,紀法 |
| Number | 數 |
| Numerator | 分子,子數 |
| Oblique | 斜 |
| Obtuse | 鈍 |
| Octagon | 八邊形 |
| Octahedron | 八面體 |
| Opposite | 對 |
| Ordinate | 縱線 |
| Origin of coordinate | 原點 |
| Parabola | 拋物線 |
| Parallel | 平行 |
| Parallelogram | 平行邊形 |
| Parallelepiped | 立方體 |
| Parameter | 通徑 |
| Part | 分,段 |
| Partial differential | 偏微分 |
| Partial differential coefficient | 偏微係數 |
| Particular case | 私式 |
| Pentagon | 五邊形 |
| Perpendicular | 垂線,股 |
| Plane | 平面 |
| Point | 點 |
| Point of contact | 切點 |
| Point of inflection | 彎點 |
| Point of intersection | 交點 |
| Polar curve | 極曲線 |
| Polar distance | 極距 |
| Pole | 極 |
| Polygon | 多邊形 |
| Polyhedron | 多面體 |
| Polynomial | 多項式 |
| Positive | 正 |
| Postulate | 求 |
| Power | 方 |
| Primitive axis | 舊軸 |
| Problem | 題 |
| Produce | 引長 |
| Product | 得數 |
| Proportion | 比例 |
| Proposition | 款 |
| Quadrant | 象限 |
| Quadrilateral figure | 四邊形 |
| Quadrinomial | 四項式 |
| Quam proxime | 任近 |
| Quantity | 幾何 |
| Question | 問 |
| Quindecagon | 十五邊形 |
| Quotient | 得數 |
| Radius | 半徑 |
| Radius vector | 帶徑 |
| Ratio | 率 |
| Rational expression | 有比例式 |
| Reciprocal | 交互 |
| Rectangle | 矩形 |
| Rectangular | 正 |
| Reduce | 化 |
| Reduce to a simple form | 相消 |
| Regular | 正 |
| Relation | 連屬之理 |
| Represent | 顯 |
| Reverse | 相反 |
| Revolution | 匝 |
| Right angle | 直角 |
| Right-angled triangle | 勾股形 |
| Round | 圜 |
| Root | 根 |
| Root of equation | 滅數 |
| Scalene triangle | 不等邊三角形 |
| Scholium | 案 |
| Secant | 割線 |
| Secant (trigonometrical) | 正割 |
| Segment | 截段 |
| Semicircle | 半圜周 |
| Semicubical parabola | 半立方拋物線 |
| Semibiquadratic parabola | 半三乘方拋物線 |
| Series | 級數 |
| Sextant | 記限 |
| Side | 邊 |
| Sign | 號 |
| Similar | 相似 |
| Sine | 正弦 |
| Singular point | 獨異點 |
| Smaller | 少 |
| Solid | 體 |
| Solidity | 體積 |
| Sphere | 立圜體,球 |
| Spiral | 螺線 |
| Spiral of archimedes | 亞奇默德螺線 |
| Square | 方,正方,冪 |
| Square root | 平方根 |
| Straight line | 直線 |
| Subnormal | 次法線 |
| Subtangent | 次切線 |
| Subtract | 減 |
| Subtraction | 減法 |
| Sum | 和 |
| Supplement | 外角 |
| Supplementary chord | 餘通弦 |
| Surface | 面 |
| Surface of revolution | 曲面積 |
| Symbol of quantity | 元 |
| Table | 表 |
| Tangent | 切線 |
| Tangent (trigonometrical) | 正切 |
| Term of an expression | 項 |
| Term of ratio | 率 |
| Tetrahedron | 四面體 |
| Theorem | 術 |
| Total differential | 全微分 |
| Transcendental curve | 越曲線 |
| Transcendental expression | 越式 |
| Transcendental function | 越函數 |
| Transform | 易 |
| Transverse axis | 橫軸,橫徑 |
| Trapezoid | 二平行邊四邊形 |
| Triangle | 三角形 |
| Trident | 三齒線 |
| Trigonometry | 三角法 |
| Trinomial | 三項式 |
| Triplicate | 三倍 |
| Trisection | 三等分 |
| Unequal | 不等 |
| Unit | 一 |
| Unknown | 未知 |
| Unlimited | 無線 |
| Value | 同數 |
| Variable | 變數 |
| Variation | 變 |
| Verification | 證 |
| Versedsine | 正矢 |
| Vertex | 頂點 |
| Vertical plane | 縱面 |
在卷十的开头,可以看到那句经典名句:
微分之數有二,一曰常數,一曰變數;變數以天地人物等字代之,常數以甲乙子丑等字代之。
凡式中常數之同數俱不變。如直線之式爲[math]\displaystyle{ 地\xlongequal{\qquad}甲天\bot乙 }[/math],則線之甲與乙,俱僅有一同數任在何點永不變,而天與地之同數則每點皆變也。
凡此變數中函彼變數,則此爲彼之函數。
如直線之式爲[math]\displaystyle{ 地\xlongequal{\qquad}甲天\bot乙 }[/math],則地爲天之函數;又平圜之式爲[math]\displaystyle{ 地\xlongequal{\qquad}\sqrt{味^二\top甲^二} }[/math],味爲半徑,天爲正弦,地爲餘弦;橢圓之式爲[math]\displaystyle{ 地\xlongequal{\qquad} }[/math]呷/𠮙[math]\displaystyle{ \sqrt{二呷天\top天^二} }[/math],皆地爲天之函數也。
[取自《代微積拾級·卷十 微分一·例》]
原文如下:
ARTICLE (157.) IN the Differential Calculus, as in Analytical Geometry, there are two classes of quantities to be considered, viz., variables and constants.
Variable quantities are generally represented by the last letters of the alphabet, x, y, z, etc., and any values may be assigned to them which will satisfy the equations into which they enter.
Constant quantities are generally represented by the firstletters of the alphabet, a, b, c, etc., and these always retain the same values throughout the same investigation.
Thus, in the equation of a straight line,[math]\displaystyle{ y=ax+b }[/math], the quantities a and b have but one value for the same line, while x and y vary in value for every point of the line.
(158.) One variable is said to be a function of another variable, when the first is equal to a certain algebraic expression containing the second. Thus, in the equation of a straight line[math]\displaystyle{ y=ax+b }[/math], y is a function of x.
So, also, in the equation of a circle,[math]\displaystyle{ y=\sqrt{R^2-x^2} }[/math]; and in the equation of the ellipse,[math]\displaystyle{ y=\frac{B}{A}\sqrt{2Ax-x^2} }[/math]. (159.) When we wish merely to denote that y is dependent upon x for its value, without giving the particular expression which shows the value of x, we employ the notation[math]\displaystyle{ y=F(x) }[/math], or [math]\displaystyle{ y=f(x) }[/math], which expressions are read, y is a function of x, or x is a function of y. or[math]\displaystyle{ x=F(y) }[/math], or [math]\displaystyle{ x=f(y) }[/math],[取自Elements of Analytical Geometry and of The Differential and Integral Calculus, Differential Calculus, Section I]
“凡此变数中函彼变数,则此为彼之函数”(One variable is said to be a function of another variable, when the first is equal to a certain algebraic expression containing the second.)这句话,往往被讹传为出现在李善兰另一译作《代数学》中,其实并非如此,出处就是《代微积拾级》。
同样是卷十,可以看到微分的定义:
函數與變數之變比例俱謂之微分,用彳號記之。如 [math]\displaystyle{ 戌\xlongequal{\qquad}天^三 }[/math],則得比例 𢓍 :[math]\displaystyle{ :: 一 : 三天^二 }[/math]。𢓍
[取自《代微積拾級·卷十 微分一·論函數微分》]
原文如下:
注意,时至今日,微分号为了与量区别而记作[math]\displaystyle{ \mathrm{d} }[/math],书中的微分号仍然是斜体[math]\displaystyle{ d }[/math]。(170.) The rate of variation of a function or of any variable quantity is called its differential, and is denoted by the letter d placed before it. Thus, if[math]\displaystyle{ u=x^3 }[/math], then[math]\displaystyle{ dx:du::1:3x^2 }[/math]. The expressions dx, du are read differential of x, differential of u, and denote the rates of variation of x and u.
If we multiply together the extremes and the means of the preceding proportion, we have[math]\displaystyle{ du=3x^2dx }[/math], which signifies that the rate of increase of the function u is 3x2 times that of the variable x.
If we divide each member of the last equation by dx, we have[math]\displaystyle{ \frac{du}{dx}=3x^2 }[/math], which expresses the ratio of the rate of variation of the function to that of the independent variable, and is called the differential coefficient of u regarded as a function of x.
[取自Elements of Analytical Geometry and of The Differential and Integral Calculus, Differential Calculus, Proposition II]
在卷十七,定义了积分:
積分爲微分之還原,其法之要,在識別微分所由生之函數。如已得 天二 之微分爲 二天𢓍,則有 二天𢓍,即知所由生之函數爲 天二,而 天二 即爲積分。
已得微分所由生之函數爲積分。而積分或有常數附之,或無常數附之,既不能定,故式中恒附以常數,命爲𠰳。𠰳或有同數,或爲〇,須攷題乃知。
來本之視微分,若函數諸小較之一,諸小較并之,即成函數。故微分之左係一禾字,指欲取諸微分之積分也。如下式 禾二天𢓍[math]\displaystyle{ \xlongequal{\qquad} 天^二 \bot }[/math]𠰳。來氏說今西國天算家大率不用,而惟用此禾字,取其一覽了然也。
[取自《代微積拾級·卷十七 積分一·例》]
原文如下:
实际上,书中的积分号仅仅写作∫,没有写得像今天的[math]\displaystyle{ \int }[/math]那么长。ARTICLE (291.) THE Integral Calculus is the reverse of the Differential Calculus, its object being to determine the expression or function from which a given differential has been derived.
Thus we have found that the differential of x2 is 2xdx, therefore, if we have given 2xdx, we know that it must have been derived from x, or plus a constant term.
(292.) The function from which the given differential has been derived, is called its integral. Hence, as we are not certain whether the integral has a constant quantity or not added to it, we annex a constant quantity represented by C, the value of which is to be determined from the nature of the problem.
(293.) Leibnitz considered the differentials of functions as indefinitely small differences, and the sum of these indefinitely small differences he regarded as making up the function; hence the letter S was placed before the differential to show that the sum was to be taken. As it was frequently required to place S before a compound expression, it was elongated into the sign ∫, which, being placed before a differential, denotes that its integral is to be taken. Thus,[math]\displaystyle{ \int 2xdx = x^2+C }[/math]. This sign ∫ is still retained ever by those whu reject the philosophy of Leibnitz.
[取自Elements of Analytical Geometry and of The Differential and Integral Calculus, Integral Calculus, Section I]
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