Editing Dimensional analysis (section)

=== Other fields of physics and chemistry ===
Depending on the field of physics, it may be advantageous to choose one or another extended set of dimensional symbols. In electromagnetism, for example, it may be useful to use dimensions of T, L, M and Q, where Q represents the dimension of [[electric charge]].  In [[thermodynamics]], the base set of dimensions is often extended to include a dimension for temperature, Θ.  In chemistry, the [[amount of substance]] (the number of molecules divided by the [[Avogadro constant]], ≈ {{val|6.02|e=23|u=mol-1}}) is also defined as a base dimension, N.
In the interaction of [[relativistic plasma]] with strong laser pulses, a dimensionless [[relativistic similarity parameter]], connected with the symmetry properties of the collisionless [[Vlasov equation]], is constructed from the plasma-, electron- and critical-densities in addition to the electromagnetic vector potential. The choice of the dimensions or even the number of dimensions to be used in different fields of physics is to some extent arbitrary, but consistency in use and ease of communications are common and necessary features.