Conserved Quantities
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In mathematics, a conserved quantity of a
dynamical system In mathematics, a dynamical system is a system in which a Function (mathematics), function describes the time dependence of a Point (geometry), point in an ambient space. Examples include the mathematical models that describe the swinging of a ...
is a function of the dependent variables, the value of which remains constant along each trajectory of the system. Not all systems have conserved quantities, and conserved quantities are not unique, since one can always produce another such quantity by applying a suitable function, such as adding a constant, to a conserved quantity. Since many
laws of physics Scientific laws or laws of science are statements, based on repeated experiments or observations, that describe or predict a range of natural phenomena. The term ''law'' has diverse usage in many cases (approximate, accurate, broad, or narrow) a ...
express some kind of
conservation Conservation is the preservation or efficient use of resources, or the conservation of various quantities under physical laws. Conservation may also refer to: Environment and natural resources * Nature conservation, the protection and manageme ...
, conserved quantities commonly exist in mathematical models of physical systems. For example, any
classical mechanics Classical mechanics is a physical theory describing the motion of macroscopic objects, from projectiles to parts of machinery, and astronomical objects, such as spacecraft, planets, stars, and galaxies. For objects governed by classical ...
model will have mechanical energy as a conserved quantity as long as the forces involved are conservative.


Differential equations

For a first order system of
differential equation In mathematics, a differential equation is an equation that relates one or more unknown functions and their derivatives. In applications, the functions generally represent physical quantities, the derivatives represent their rates of change, an ...
s :\frac = \mathbf f(\mathbf r, t) where bold indicates vector quantities, a scalar-valued function ''H''(r) is a conserved quantity of the system if, for all time and initial conditions in some specific domain, :\frac = 0 Note that by using the multivariate chain rule, :\frac = \nabla H \cdot \frac = \nabla H \cdot \mathbf f(\mathbf r, t) so that the definition may be written as :\nabla H \cdot \mathbf f(\mathbf r, t) = 0 which contains information specific to the system and can be helpful in finding conserved quantities, or establishing whether or not a conserved quantity exists.


Hamiltonian mechanics

For a system defined by the
Hamiltonian Hamiltonian may refer to: * Hamiltonian mechanics, a function that represents the total energy of a system * Hamiltonian (quantum mechanics), an operator corresponding to the total energy of that system ** Dyall Hamiltonian, a modified Hamiltonian ...
\mathcal, a function ''f'' of the generalized coordinates ''q'' and generalized momenta ''p'' has time evolution :\frac = \ + \frac and hence is conserved if and only if \ + \frac = 0. Here \ denotes the
Poisson bracket In mathematics and classical mechanics, the Poisson bracket is an important binary operation in Hamiltonian mechanics, playing a central role in Hamilton's equations of motion, which govern the time evolution of a Hamiltonian dynamical system. Th ...
.


Lagrangian mechanics

Suppose a system is defined by the
Lagrangian Lagrangian may refer to: Mathematics * Lagrangian function, used to solve constrained minimization problems in optimization theory; see Lagrange multiplier ** Lagrangian relaxation, the method of approximating a difficult constrained problem with ...
''L'' with generalized coordinates ''q''. If ''L'' has no explicit time dependence (so \frac=0), then the energy ''E'' defined by : E = \sum_i \left \dot q_i \frac \right- L is conserved. Furthermore, if \frac = 0, then ''q'' is said to be a cyclic coordinate and the generalized momentum ''p'' defined by : p = \frac is conserved. This may be derived by using the Euler–Lagrange equations.


See also

* Conservative system *
Lyapunov function In the theory of ordinary differential equations (ODEs), Lyapunov functions, named after Aleksandr Lyapunov, are scalar functions that may be used to prove the stability of an equilibrium of an ODE. Lyapunov functions (also called Lyapunov’s se ...
* Hamiltonian system *
Conservation law In physics, a conservation law states that a particular measurable property of an isolated physical system does not change as the system evolves over time. Exact conservation laws include conservation of energy, conservation of linear momentum, c ...
* Noether's theorem * Charge (physics) *
Invariant (physics) In theoretical physics, an invariant is an observable of a physical system which remains unchanged under some transformation. Invariance, as a broader term, also applies to the no change of form of physical laws under a transformation, and is close ...


References

{{DEFAULTSORT:Conserved Quantity Differential equations Dynamical systems