Brackets and Flows
Now, what does the Lie bracket of two vector fields really measure? We’ve gone through all this time defining and manipulating a bunch of algebraic expressions, but this is supposed to be geometry! What does the bracket actually mean? It turns out that the bracket of two vector fields measures the extent to which their flows fail to commute.
We won’t work this all out today, but we’ll start with an important first step: the bracket of two vector fields vanishes if and only if their flows commute. That is, if 
![[X,Y]=0](http://s0.wp.com/latex.php?latex=%5BX%2CY%5D%3D0&bg=e6e6e6&fg=333333&s=0 "[X,Y]=0")
First we assume that the flows commute. As we just saw last time, the fact that 
![L_XY=[X,Y]](http://s0.wp.com/latex.php?latex=L_XY%3D%5BX%2CY%5D&bg=e6e6e6&fg=333333&s=0 "L_XY=[X,Y]")
Conversely, let’s assume that 
Fixing any 
![\displaystyle\begin{aligned}c_p'(s)&=\lim\limits_{\Delta s\to0}\frac{c_p(s+\Delta s)-c_p(s)}{\Delta s}\\&=\lim\limits_{\Delta s\to0}\frac{1}{\Delta s}\left[\Phi_{-(s+\Delta s)*}\circ Y\circ\Phi_{s+\Delta s}(p)-\Phi_{-s*}\circ Y\circ\Phi_s(p)\right]\\&=\lim\limits_{\Delta s\to0}\frac{1}{\Delta s}\Phi_{-s*}\left[\left[\Phi_{-\Delta s*}\circ Y\circ\Phi_{\Delta s}\right]\left(\Phi_s(p)\right)-Y\left(\Phi_s(p)\right)\right]\\&=\Phi_{-s*}\lim\limits_{\Delta s\to0}\frac{1}{\Delta s}\left[\left[\Phi_{-\Delta s*}\circ Y\circ\Phi_{\Delta s}\right](q)-Y(q)\right]\\&=\Phi_{-s*}c_q'(0)=\Phi_{-s*}0=0\end{aligned}](http://s0.wp.com/latex.php?latex=%5Cdisplaystyle%5Cbegin%7Baligned%7Dc_p%27%28s%29%26%3D%5Clim%5Climits_%7B%5CDelta+s%5Cto0%7D%5Cfrac%7Bc_p%28s%2B%5CDelta+s%29-c_p%28s%29%7D%7B%5CDelta+s%7D%5C%5C%26%3D%5Clim%5Climits_%7B%5CDelta+s%5Cto0%7D%5Cfrac%7B1%7D%7B%5CDelta+s%7D%5Cleft%5B%5CPhi_%7B-%28s%2B%5CDelta+s%29%2A%7D%5Ccirc+Y%5Ccirc%5CPhi_%7Bs%2B%5CDelta+s%7D%28p%29-%5CPhi_%7B-s%2A%7D%5Ccirc+Y%5Ccirc%5CPhi_s%28p%29%5Cright%5D%5C%5C%26%3D%5Clim%5Climits_%7B%5CDelta+s%5Cto0%7D%5Cfrac%7B1%7D%7B%5CDelta+s%7D%5CPhi_%7B-s%2A%7D%5Cleft%5B%5Cleft%5B%5CPhi_%7B-%5CDelta+s%2A%7D%5Ccirc+Y%5Ccirc%5CPhi_%7B%5CDelta+s%7D%5Cright%5D%5Cleft%28%5CPhi_s%28p%29%5Cright%29-Y%5Cleft%28%5CPhi_s%28p%29%5Cright%29%5Cright%5D%5C%5C%26%3D%5CPhi_%7B-s%2A%7D%5Clim%5Climits_%7B%5CDelta+s%5Cto0%7D%5Cfrac%7B1%7D%7B%5CDelta+s%7D%5Cleft%5B%5Cleft%5B%5CPhi_%7B-%5CDelta+s%2A%7D%5Ccirc+Y%5Ccirc%5CPhi_%7B%5CDelta+s%7D%5Cright%5D%28q%29-Y%28q%29%5Cright%5D%5C%5C%26%3D%5CPhi_%7B-s%2A%7Dc_q%27%280%29%3D%5CPhi_%7B-s%2A%7D0%3D0%5Cend%7Baligned%7D&bg=e6e6e6&fg=333333&s=0 "\displaystyle\begin{aligned}c_p'(s)&=\lim\limits_{\Delta s\to0}\frac{c_p(s+\Delta s)-c_p(s)}{\Delta s}\\&=\lim\limits_{\Delta s\to0}\frac{1}{\Delta s}\left[\Phi_{-(s+\Delta s)*}\circ Y\circ\Phi_{s+\Delta s}(p)-\Phi_{-s*}\circ Y\circ\Phi_s(p)\right]\\&=\lim\limits_{\Delta s\to0}\frac{1}{\Delta s}\Phi_{-s*}\left[\left[\Phi_{-\Delta s*}\circ Y\circ\Phi_{\Delta s}\right]\left(\Phi_s(p)\right)-Y\left(\Phi_s(p)\right)\right]\\&=\Phi_{-s*}\lim\limits_{\Delta s\to0}\frac{1}{\Delta s}\left[\left[\Phi_{-\Delta s*}\circ Y\circ\Phi_{\Delta s}\right](q)-Y(q)\right]\\&=\Phi_{-s*}c_q'(0)=\Phi_{-s*}0=0\end{aligned}")
Now this means that
As a special case, if 
![\displaystyle\left[\frac{\partial}{\partial x^i},\frac{\partial}{\partial x^j}\right]=0](http://s0.wp.com/latex.php?latex=%5Cdisplaystyle%5Cleft%5B%5Cfrac%7B%5Cpartial%7D%7B%5Cpartial+x%5Ei%7D%2C%5Cfrac%7B%5Cpartial%7D%7B%5Cpartial+x%5Ej%7D%5Cright%5D%3D0&bg=e6e6e6&fg=333333&s=0 "\displaystyle\left[\frac{\partial}{\partial x^i},\frac{\partial}{\partial x^j}\right]=0")
This corresponds to the fact that adding 
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