diff --git a/subjects/math/04_积分.md b/subjects/math/04_积分.md index 53675ee..53ccda0 100644 --- a/subjects/math/04_积分.md +++ b/subjects/math/04_积分.md @@ -11,10 +11,108 @@ $$ 对于均匀矩形分割的情况,实际上只用分离出 $\frac{1}{n}$ $$ -\int_a^b f(x)dx = \lim_{n\to\infty}\sum_{i=1}^n f(a + \frac{(b-a) i}{n} ) \frac{b-a}{n} +\int_a^b f(x)dx = \lim_{n\to\infty}\sum_{i=1}^n f\left(a + \frac{(b-a) i}{n}\right) \frac{b-a}{n} $$ +--- + +### 要点 02 - $\frac{1}{a^2 + x^2}$ 型积分 + +#### 基本公式 + +$$\int \frac{dx}{a^2 + x^2} = \frac{1}{a} \arctan \frac{x}{a} + C \quad (a > 0)$$ + +**推导**(换元法):令 $x = a \tan t$,则 $dx = a \sec^2 t \, dt$ + +$$\int \frac{dx}{a^2 + x^2} = \int \frac{a \sec^2 t}{a^2 + a^2 \tan^2 t} \, dt = \int \frac{a \sec^2 t}{a^2 \sec^2 t} \, dt = \int \frac{dt}{a} = \frac{t}{a} + C = \frac{1}{a} \arctan \frac{x}{a} + C$$ + +#### 推广形式 + +$$\begin{aligned} +\int \frac{dx}{x^2 + a^2} &= \frac{1}{a} \arctan \frac{x}{a} + C \\ +\int \frac{dx}{b^2 + (x + c)^2} &= \frac{1}{b} \arctan \frac{x + c}{b} + C \\ +\int \frac{x \, dx}{a^2 + x^2} &= \frac{1}{2} \ln(a^2 + x^2) + C \\ +\int \frac{dx}{(a^2 + x^2)^2} &= \frac{x}{2a^2(a^2 + x^2)} + \frac{1}{2a^3} \arctan \frac{x}{a} + C +\end{aligned}$$ + +--- + +### 要点 03 - $\frac{1}{\sqrt{x^2 \pm a^2}}$ 型积分 + +#### 基本公式 + +$$\int \frac{dx}{\sqrt{x^2 + a^2}} = \ln\left|x + \sqrt{x^2 + a^2}\right| + C = \operatorname{arsinh} \frac{x}{a} + C$$ + +$$\int \frac{dx}{\sqrt{x^2 - a^2}} = \ln\left|x + \sqrt{x^2 - a^2}\right| + C = \operatorname{arcosh} \frac{x}{a} + C \quad (|x| > |a|)$$ + +$$\int \frac{dx}{\sqrt{a^2 - x^2}} = \arcsin \frac{x}{a} + C = -\arccos \frac{x}{a} + C \quad (|x| < |a|)$$ + +#### 推导方法 + +**$\sqrt{x^2 + a^2}$ 型**:令 $x = a \sinh t$,则 $dx = a \cosh t \, dt$,$\sqrt{x^2 + a^2} = a \cosh t$ + +$$\int \frac{dx}{\sqrt{x^2 + a^2}} = \int \frac{a \cosh t}{a \cosh t} \, dt = \int dt = t + C = \ln\left|x + \sqrt{x^2 + a^2}\right| + C$$ + +**$\sqrt{x^2 - a^2}$ 型**:令 $x = a \cosh t$($x > a$),则 $dx = a \sinh t \, dt$,$\sqrt{x^2 - a^2} = a \sinh t$ + +$$\int \frac{dx}{\sqrt{x^2 - a^2}} = \int \frac{a \sinh t}{a \sinh t} \, dt = \int dt = t + C = \ln\left|x + \sqrt{x^2 - a^2}\right| + C$$ + +**$\sqrt{a^2 - x^2}$ 型**:令 $x = a \sin t$,则 $dx = a \cos t \, dt$,$\sqrt{a^2 - x^2} = a \cos t$ + +$$\int \frac{dx}{\sqrt{a^2 - x^2}} = \int \frac{a \cos t}{a \cos t} \, dt = \int dt = t + C = \arcsin \frac{x}{a} + C$$ + +#### 等效形式 + +$$\int \frac{dx}{\sqrt{x^2 - a^2}} = \ln\left|\frac{x}{a} + \sqrt{\frac{x^2}{a^2} - 1}\right| + C$$ + +#### 推广形式 + +$$\begin{aligned} +\int \frac{dx}{\sqrt{(x + b)^2 + a^2}} &= \ln\left|x + b + \sqrt{(x + b)^2 + a^2}\right| + C \\ +\int \frac{dx}{\sqrt{(x + b)^2 - a^2}} &= \ln\left|x + b + \sqrt{(x + b)^2 - a^2}\right| + C \quad (|x + b| > |a|) \\ +\int \frac{x \, dx}{\sqrt{x^2 + a^2}} &= \sqrt{x^2 + a^2} + C \\ +\int \frac{x \, dx}{\sqrt{x^2 - a^2}} &= \sqrt{x^2 - a^2} + C \\ +\int \sqrt{x^2 + a^2} \, dx &= \frac{x}{2}\sqrt{x^2 + a^2} + \frac{a^2}{2}\ln\left|x + \sqrt{x^2 + a^2}\right| + C \\ +\int \sqrt{x^2 - a^2} \, dx &= \frac{x}{2}\sqrt{x^2 - a^2} - \frac{a^2}{2}\ln\left|x + \sqrt{x^2 - a^2}\right| + C +\end{aligned}$$ + +--- + +### 要点 04 - sec x、csc x 的积分 + +#### 基本积分公式 + +$$\int \sec x \, dx = \ln|\sec x + \tan x| + C$$ + +**推导方法**(分子分母策略): + +$$\int \sec x \, dx = \int \sec x \cdot \frac{\sec x + \tan x}{\sec x + \tan x} \, dx = \int \frac{\sec^2 x + \sec x \tan x}{\sec x + \tan x} \, dx = \ln|\sec x + \tan x| + C$$ + +--- + +$$\int \csc x \, dx = -\ln|\csc x + \cot x| + C$$ + +**推导方法**(类似地): + +$$\int \csc x \, dx = \int \csc x \cdot \frac{\csc x - \cot x}{\csc x - \cot x} \, dx = \int \frac{\csc^2 x - \csc x \cot x}{\csc x - \cot x} \, dx = -\ln|\csc x + \cot x| + C$$ + +#### 其他常用积分 + +$$\begin{aligned} +\int \sec^2 x \, dx &= \tan x + C \\ +\int \csc^2 x \, dx &= -\cot x + C \\ +\int \sec x \tan x \, dx &= \sec x + C \\ +\int \csc x \cot x \, dx &= -\csc x + C \\ +\int \sec^3 x \, dx &= \frac{1}{2}(\sec x \tan x + \ln|\sec x + \tan x|) + C \\ +\int \csc^3 x \, dx &= \frac{1}{2}(-\csc x \cot x + \ln|\csc x + \cot x|) + C +\end{aligned}$$ + +--- + ### 知识点 - 定积分的定义 - 黎曼和与积分的关系 - 均匀分割技巧 +- $\frac{1}{a^2 + x^2}$ 型积分公式 +- $\frac{1}{\sqrt{x^2 \pm a^2}}$ 型积分公式 +- sec x、csc x 的积分公式