Hamiltonian: Difference between revisions
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Carl McBride (talk | contribs) (New page: The '''Hamiltonian''' is given by :<math>H (q,p,t) = \dot{q_i}p_i -L(q,\dot{q},t)</math> where <math>q_i</math> are the generalised coordinates, <math>p_i</math> are the canonical mome...) |
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where <math>q_i</math> are the generalised coordinates, <math>p_i</math> are the canonical momentum, | where <math>q_i</math> are the generalised coordinates, <math>p_i</math> are the canonical momentum, | ||
and ''L'' is the [[Lagrangian]]. | and ''L'' is the [[Lagrangian]]. | ||
Using the Hamiltonian function, the equations of motion can be expressed in the so-called | |||
canonical form: | |||
:<math>\dot{p_i} = - \frac{\partial H}{\partial q_i}</math> | |||
and | |||
:<math>\dot{q_i} = \frac{\partial H}{\partial p_i}</math> | |||
==References== | |||
[[category: classical mechanics]] | [[category: classical mechanics]] | ||
Revision as of 12:12, 3 August 2007
The Hamiltonian is given by
where are the generalised coordinates, are the canonical momentum, and L is the Lagrangian. Using the Hamiltonian function, the equations of motion can be expressed in the so-called canonical form:
and
