双曲函数(Hyperbolic functuons)公式
在python等语言里有双曲函数库和反双曲函数库,但是并没有包含所有的双曲函数。以numpy为例子,numpy只提供了sinh、cosh、tanh、arcsinh、arccosh、arctanh六种函数,那么其余的就需要用公式计算了。
转换公式
对于函数库不能直接计算的,我整理出了计算公式:
coth x = 1 tanh x s e c h x = 1 cosh x c s c h x = 1 sinh x a r c c o t h x = a r c t a n ( 1 x ) a r c s e c h x = a r c c o s ( 1 x ) a r c c s c h x = a r c s e c ( 1 x ) \coth x = \frac1{\tanh x} \\ sech\thinspace x = \frac1{\cosh x} \\ csch\thinspace x = \frac1{\sinh x} \\ arccoth\thinspace x = arctan (\frac1x)\\ arcsech\thinspace x = arccos (\frac1x)\\ arccsch\thinspace x = arcsec(\frac1x) cothx=tanhx1sechx=coshx1cschx=sinhx1arccothx=arctan(x1)arcsechx=arccos(x1)arccschx=arcsec(x1)
导数公式
对双曲函数和反双曲函数求导的公式也非常重要,必须要背诵下来。
d d x ( sinh x ) = cosh x d d x ( cosh x ) = sinh x d d x ( tanh x ) = s e c h 2 x d d x ( coth x ) = − c s c h 2 x d d x ( s e c h x ) = − s e c h x t a n h x d d x ( c s c h x ) = − c s c h x c o t h x \frac{d}{dx}(\sinh x)=\cosh x\\ \frac{d}{dx}(\cosh x)=\sinh x\\ \frac{d}{dx}(\tanh x)=sech^2\thinspace x\\ \frac{d}{dx}(\coth x)=-csch^2\thinspace x\\ \frac{d}{dx}(sech x)= -sech\thinspace x \thinspace tanh\thinspace x\\ \frac{d}{dx}(csch x)= -csch\thinspace x \thinspace cot h\thinspace x\\ dxd(sinhx)=coshxdxd(coshx)=sinhxdxd(tanhx)=sech2xdxd(cothx)=−csch2xdxd(sechx)=−sechxtanhxdxd(cschx)=−cschxcothx
接下来是反双曲函数inverse hyperbolic functions的导数公式:
d d x ( a r c s i n h x ) = 1 x 2 + 1 d d x ( a r c c o s h x ) = 1 x 2 − 1 , x > 1 d d x ( a r c t a n h x ) = 1 1 − x 2 d d x ( a r c c o t h x ) = 1 1 − x 2 d d x ( a r c s e c h x ) = − 1 x 1 − x 2 d d x ( a r c c o s h x ) = − 1 ∣ x ∣ 1 + x 2 \frac{d}{dx}(arcsinh \thinspace x)=\frac1{\sqrt{x^2+1}}\\ \frac{d}{dx}(arccosh \thinspace x)=\frac1{\sqrt{x^2-1}},x > 1\\ \frac{d}{dx}(arctanh \thinspace x)=\frac1{{1-x^2}}\\ \frac{d}{dx}(arccoth \thinspace x)=\frac1{{1-x^2}}\\ \frac{d}{dx}(arcsech \thinspace x)=-\frac1{x\sqrt{1-x^2}}\\ \frac{d}{dx}(arccosh \thinspace x)=-\frac1{|x|\sqrt{1+x^2}}\\ dxd(arcsinhx)=x2+11dxd(arccoshx)=x2−11,x>1dxd(arctanhx)=1−x21dxd(arccothx)=1−x21dxd(arcsechx)=−x1−x21dxd(arccoshx)=−∣x∣1+x21
积分公式
上面这些求导公式,反推一下就是积分公式了,但是有些特殊的积分公式,不能直接推导出来,需要记忆:
∫ d x a 2 + x 2 = a r c s i n h ( x a ) + C , a > 0 ∫ d x x 2 − a 2 = a r c c o s h ( x a ) + C , x > a > 0 ∫ d x a 2 − x 2 = { 1 a a r c t a n h ( x a ) + C , x 2 < a 2 1 a a r c c o t h ( x a ) + C , x 2 > a 2 ∫ d x x a 2 − x 2 = − 1 a a r c s e c h ( x a ) + C , 0 < x < a ∫ d x x a 2 + x 2 = − 1 a a r c c s c h ∣ x a ∣ + C , x ≠ 0 , a > 0 \int\frac{dx}{\sqrt{a^2+x^2}}= arcsinh \thinspace (\frac{x}{a})+C,a>0\\ \int\frac{dx}{\sqrt{x^2-a^2}}= arccosh \thinspace (\frac{x}{a})+C,x>a>0\\ \int\frac{dx}{a^2-x^2}= \begin{cases} \frac1a \thinspace arctanh \thinspace (\frac{x}{a})+C,x^2<a^2\\ \frac1a \thinspace arccoth \thinspace (\frac{x}{a})+C,x^2>a^2\\ \end{cases}\\ \int\frac{dx}{x\sqrt{a^2-x^2}}=-\frac1a arcsech \thinspace (\frac{x}{a})+C,0<x<a\\ \int\frac{dx}{x\sqrt{a^2+x^2}}=-\frac1a arccsch \thinspace \lvert \frac{x}{a}\rvert+C,x \neq 0, a>0 ∫a2+x2dx=arcsinh(ax)+C,a>0∫x2−a2dx=arccosh(ax)+C,x>a>0∫a2−x2dx={a1arctanh(ax)+C,x2<a2a1arccoth(ax)+C,x2>a2∫xa2−x2dx=−a1arcsech(ax)+C,0<x<a∫xa2+x2dx=−a1arccsch∣ax∣+C,x=0,a>0
恒等式
最后,我再整理一点恒等式:
c o s h 2 x − s i n h 2 x = 1 s i n h x = 2 s i n h x c o s h x c o s h x = s i n h 2 x + c o s h 2 x c o s h 2 x = c o s h 2 x + 1 2 s i n h 2 x = c o s h 2 x − 1 2 t a n h 2 x = 1 − s e c h 2 x c o t h 2 x = 1 + c s c h 2 x cosh^2 \thinspace x -sinh^2 \thinspace x = 1\\ sinh\thinspace x = 2sinh\thinspace x \thinspace cosh\thinspace x \\ cosh\thinspace x = sinh^2\thinspace x \thinspace + cosh^2\thinspace x \\ cosh^2\thinspace x = \frac{cosh\thinspace 2x +1}2\\ sinh^2\thinspace x = \frac{cosh\thinspace 2x -1}2\\ tanh^2\thinspace x = 1-sech^2x\\ coth^2\thinspace x = 1+csch^2x\\ cosh2x−sinh2x=1sinhx=2sinhxcoshxcoshx=sinh2x+cosh2xcosh2x=2cosh2x+1sinh2x=2cosh2x−1tanh2x=1−sech2xcoth2x=1+csch2x