Definition:Poisson Bracket

Definition
Let $A = \map A {x, \family {y_i}_{1 \mathop \le i \mathop \le n}, \family {p_i}_{1 \mathop \le i \mathop \le n} }$ and $B = \map B {x, \family {y_i}_{1 \mathop \le i \mathop \le n}, \family {p_i}_{1 \mathop \le i \mathop \le n} }$ be real functions, dependent on canonical variables.

The Poisson Bracket of functions $A$ and $B$ is defined as:


 * $\displaystyle \sqbrk {A, B} := \sum_{i \mathop = 1}^n \paren {\frac {\partial A} {\partial y_i} \frac {\partial B} {\partial p_i} - \frac {\partial B} {\partial y_i} \frac {\partial A} {\partial p_i} }$

where the notation $\dfrac {\partial A} {\partial y_i}$ denotes partial differentiation.