当前位置：首页 > news >正文

b2b网站排名前十百度竞价推广开户费用

news 2025/6/29 4:52:21

b2b网站排名前十,百度竞价推广开户费用,西安网站建设 1,wordpress视频略缩图本文的推导过程不是用极为简便的主流方法，仅供参考。参考数学百科_双极坐标系。本文发布于csdn和知乎，除此之外不做发表。标记记 d ( F 1 , F 2 ) r d(F_1,F_2)r d(F1,F2)r d ( F 1 , P ) r 1 d(F_1,P)r_1 d(F1,P)r1 d ( F 2 , P ) …

本文的推导过程不是用极为简便的主流方法，仅供参考。
参考数学百科_双极坐标系。
双极坐标系的定义
本文发布于csdn和知乎，除此之外不做发表。

标记

记
$d(F_1,F_2)=r$
$d(F_1,P)=r_1$
$d(F_2,P)=r_2$
$\cos{\theta(r1,r_2)}=\frac{r_1^2+r_2^2-r^2}{2r_1r_2}$
$\cos{\theta_1(r_1,r_2)}=\frac{r^2 + r_1^2 - r_2^2}{2rr_1}$
$\cos{\theta_2(r_1,r_2)}=\frac{r^2 + r_2^2 - r_1^2}{2rr_2}$
$x_1(r_1,r_2)=\frac{r ^ 2 + r_1^2 - r_2^2}{2r}$
$x_2(r_1,r_2)=\frac{r^2 + r_2^2 - r_1^2}{2r}$
请注意， $x_2=x_1-r$
若无说明，则状态默认为 $r_1,r_2)$ 。
另记
$S=\frac{1}{4}\sqrt{r^2(-r^2+r_1^2+r_2^2)+r_1^2(r^2-r_1^2+r_2^2)+r_2^2(r^2+r_1^2-r_2^2)}$

思路

双极坐标系的面积元
给 $r_1$ 和 $r_2$ 增量，求出如图所示的空出面积即可。

完整的过程

注意到，
$d S$

$=\int_{x_1(r_1,r_2)}^{x_1(r_1,r_2+dr_2)} \sqrt{r_1^2-x^2}dx$
$+\int_{x_1(r_1,r_2+dr_2)}^{x_1(r_1+dr_1,r_2+dr_2)} \sqrt{(r_2+dr_2)^2-(x-r)^2}dx$
$+\int_{x_1(r_1+dr_1,r_2+dr_2)}^{x_1(r_1+dr_1,r_2)} \sqrt{(r_1+dr_1)^2-x^2}dx$
$+\int_{x_1(r_1+dr_1,r_2)}^{x_1(r_1,r_2)} \sqrt{r_2^2-(x-r)^2}dx$

$=\int_{x_1(r_1,r_2)}^{x_1(r_1,r_2+dr_2)} \sqrt{r_1^2-x^2}dx$
$+\int_{x_1(r_1,r_2+dr_2)-r}^{x_1(r_1+dr_1,r_2+dr_2)-r} \sqrt{(r_2+dr_2)^2-x^2}dx$
$+\int_{x_1(r_1+dr_1,r_2+dr_2)}^{x_1(r_1+dr_1,r_2)} \sqrt{(r_1+dr_1)^2-x^2}dx$
$+\int_{x_1(r_1+dr_1,r_2)-r}^{x_1(r_1,r_2)-r} \sqrt{r_2^2-x^2}dx$

$=\int_{x_1(r_1,r_2)}^{x_1(r_1,r_2+dr_2)} \sqrt{r_1^2-x^2}dx$
$-\int_{x_2(r_1,r_2+dr_2)}^{x_2(r_1+dr_1,r_2+dr_2)} \sqrt{(r_2+dr_2)^2-x^2}dx$
$+\int_{x_1(r_1+dr_1,r_2+dr_2)}^{x_1(r_1+dr_1,r_2)} \sqrt{(r_1+dr_1)^2-x^2}dx$
$-\int_{x_2(r_1+dr_1,r_2)}^{x_2(r_1,r_2)} \sqrt{r_2^2-x^2}dx$

$=(\int_{x_1(r_1+dr_1,r_2+dr_2)}^{x_1(r_1+dr_1,r_2)} \sqrt{(r_1+dr_1)^2-x^2}dx+\int_{x_1(r_1,r_2)}^{x_1(r_1,r_2+dr_2)} \sqrt{r_1^2-x^2}dx)$
$-(\int_{x_2(r_1+dr_1,r_2)}^{x_2(r_1,r_2)} \sqrt{r_2^2-x^2}dx+\int_{x_2(r_1,r_2+dr_2)}^{x_2(r_1+dr_1,r_2+dr_2)} \sqrt{(r_2+dr_2)^2-x^2}dx)$

$=(+\int_{x_1(r_1+dr_1,r_2+dr_2)}^{x_1(r_1+dr_1,r_2)} \sqrt{(r_1+dr_1)^2-x^2}dx$
$-\int_{x_1(r_1,r_2+dr_2)}^{x_1(r_1,r_2)} \sqrt{r_1^2-x^2}dx)$
$+(+\int_{x_2(r_1+dr_1,r_2+dr_2)}^{x_2(r_1,r_2+dr_2)} \sqrt{(r_2+dr_2)^2-x^2}dx$
$-\int_{x_2(r_1+dr_1,r_2)}^{x_2(r_1,r_2)} \sqrt{r_2^2-x^2}dx)$

$=dr_1 \cdot \frac{\partial}{\partial r_1} \cdot \int_{x_1(r_1,r_2+dr_2)}^{x_1(r_1,r_2)} \sqrt{r_1^2-x^2}dx$
$+dr_2 \cdot \frac{\partial}{\partial r_2} \cdot \int_{x_2(r_1+dr_1,r_2)}^{x_2(r_1,r_2)} \sqrt{r_2^2-x^2}dx$

这里有两个对称的项，只要算出来一个即可。

$\int_{x_1(r_1,r_2)}^{x_1(r_1,r_2+dr_2)} \sqrt{r_1^2-x^2}dx$

$=\frac{r_1^ 2}{2}(\arcsin\frac{x_1(r_1,r_2+dr_2)}{r_1}-\arcsin\frac{x_2(r_1,r_2)}{r_1})$
$+(\frac{x_1(r_1,r_2+dr_2)}{2}\sqrt{r_1^2-x_1^2(r_1,r_2+dr_2)}-\frac{x_1(r_1,r_2)}{2}\sqrt{r_1^2-x_1^2(r_1,r_2)})$

$=\frac{r_1^2}{2}($
$(\arcsin \cos \theta_1 (r_1,r_2+dr_2)-\arcsin \cos \theta_1 (r_1,r_2))$
$+\frac{1}{2} \cdot (\sin 2 \theta_1 (r_1,r_2+dr_2) - \sin 2 \theta_1(r_1,r_2))$
$)$

$=dr_2\frac{r_1^2}{2} \frac{\partial}{\partial r_2} (\arcsin \cos \theta_1 +\frac{1}{2} \cdot (\sin 2 \theta_1))$

$=dr_2\frac{r_1^2}{2}($
$\frac{\partial \arcsin \cos \theta_1 }{\partial \cos \theta_1 }\frac{\partial \cos \theta_1}{\partial r_2}$
$+\frac{1}{2}{\frac{\partial \sin 2 \theta_1 }{\partial 2 \theta_1 }\frac{\partial 2 \theta_1}{\partial \theta_1}(\frac{\partial \cos \theta_1}{\partial \theta_1})^{-1}\frac{\partial \cos \theta_1}{\partial r_2}}$
$)$

$=dr_2\frac{r_1^2}{2}($
$\frac{\partial \arcsin \cos \theta_1}{\partial \cos \theta_1 }\frac{\partial \frac{r^2 + r_1^2 - r_2^2}{2rr_1}}{\partial r_2}$
$+\frac{1}{2}{\frac{\partial \sin 2 \theta_1 }{\partial 2 \theta_1 }\frac{\partial 2 \theta_1}{\partial \theta_1}(\frac{\partial \cos \theta_1 }{\partial \theta_1})^{-1}\frac{\partial \frac{r^2 + r_1^2 - r_2^2}{2rr_1}}{\partial r_2}}$
$)$

$=dr_2\frac{r_1^2}{2}($
$\frac{1}{\sin \theta_1} \frac{ - 2r_2}{2rr_1}$
$+\frac{1}{2} \cos 2 \theta_12\frac{1}{\sin \theta_1}\frac{ - 2r_2}{2rr_1}$
$)$

$=dr_2-\frac{r_1^2}{2}\frac{r_2}{rr_1}\frac{1}{\sin \theta_1}(1+ \cos 2 \theta_1)$

$=dr_2-\frac{r_1^2}{2}\frac{r_2}{rr_1}\frac{1}{\sin \theta_1 }2\sin^2\theta_1$

$=dr_2-\frac{r_1r_2}{r}\sin\theta_1$

则

$\frac{\partial}{\partial r_1} \cdot \int_{x_1(r_1,r_2+dr_2)}^{x_1(r_1,r_2)} \sqrt{r_1^2-x^2}dx$

$=dr_2\frac{\partial}{\partial r_1} \cdot \frac{r_1r_2}{r}\sin\theta_1$

$=dr_2\frac{r_2}{r} \frac{\partial r_1\sin\theta_1}{\partial r_1}$

$=dr_2\frac{r_2}{r} (\sin\theta_1+r_1\frac{\partial \sin\theta_1}{\partial\theta_1}(\frac{\partial \cos\theta_1}{\partial \theta_1})^{-1}\frac{\partial \cos\theta_1}{\partial r_1})$

$=dr_2\frac{r_2}{r} (\sin\theta_1+r_1\frac{\partial \sin\theta_1}{\partial\theta_1}(\frac{\partial \cos\theta_1}{\partial \theta_1})^{-1}\frac{\partial \frac{r^2 + r_1^2 - r_2^2}{2rr_1}}{\partial r_1})$

$=dr_2\frac{r_2}{r} (\sin\theta_1+r_1\frac{\partial \sin\theta_1}{\partial\theta_1}(\frac{\partial \cos\theta_1}{\partial \theta_1})^{-1}\frac{(2rr_1) \cdot \frac{\partial}{\partial r_1}(r^2 + r_1^2 - r_2^2) - (r^2 + r_1^2 - r_2^2) \cdot \frac{\partial}{\partial r_1}(2rr_1)}{(2rr_1)^2}$

$=dr_2\frac{r_2}{r} (\sin\theta_1+r_1 \cos\theta_1\frac{1}{ \sin\theta_1 }\frac{r_1^2 + r_2^2 - r^2}{2rr_1^2})$

$=dr_2\frac{r_2}{r} (\sin\theta_1+\cot\theta_1\cos\theta\frac{r_2}{r})$

代入到原式。

$d S$
$=dr_1dr_2(\frac{r_2\sin\theta_1+r_1\sin\theta_2}{r}+\frac{\cos\theta}{r^2}(r_2^2\cot\theta_1+r_1^2\cot\theta_2))$
$=\frac{dr_1dr_2}{r^2}(\frac{S}{2}(\frac{r_2}{r_1}+\frac{r_1}{r_2})+\frac{r(r_1^2+r_2^2-r^2)}{4S}(r_1+r_2))$
这与学术界的结论不一致，也与之前自己推的结果不一致，但暂时不知道哪里算错了。
在之前计算过这样一个结果，可惜草稿纸找不到了。
记
$F=r^2+r_1^2+r_2^2$
$H=r^4+r_1^4+r_2^4$
有
$dS=dr_1dr_2\frac{(F-r^2)(\sqrt{F^2-2H}+F)-2(H-r4)}{2r^2r_1r_2}$