Inexact differential

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In thermodynamics, an inexact differential or imperfect differential is any quantity, particularly heat Q and work W, that are not state functions, in that their values depend on how the process is carried out.[1] The symbol Image:Inexact_differential_symbol.PNG, or δ (in the modern sense), which originated from the work of German mathematician Carl Gottfried Neumann in his 1875 Vorlesungen uber die mechanische Theorie der Warme, indicates that Q and W are path dependent.[1] In terms of infinitesimal quantities, the first law of thermodynamics is thus expressed as:

\mathrm{d}U=\delta Q-\delta W\,

where δQ and δW are "inexact", i.e. path-dependent, and dU is "exact", i.e. path-independent.

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In general, an inexact differential, as contrasted with an exact differential, of a function f is denoted: \delta f\,

\int_{a}^{b} df \ne F(b) - F(a); as is true of point functions. In fact, F(b) and F(a), in general, are not defined.

An inexact differential is one whose integral is path dependent. This may be expressed mathematically for a function of two variables as \ \mbox{If}\ df = P(x,y) dx \; + Q(x,y) dy,\ \mbox{then}\ \frac{\partial P}{\partial y} \ \ne \ \frac{\partial Q}{\partial x}.

A differential dQ that is not exact is said to be integrable when there is a function 1/τ such that the new differential dQ/τ is exact. The function 1/τ is called the integrating factor, τ being the integrating denominator.

Differentials which are not exact are often denoted with a δ rather than a d. For example, in thermodynamics, δQ and δW denote infinitesimal amounts of heat energy and work, respectively.

As an example, the use of the inexact differential in thermodynamics is a way to mathematically quantify functions that are not state functions and thus path dependent. In thermodynamic calculations, the use of the symbol ΔQ is a mistake, since heat is not a state function having initial and final values. It would, however, be correct to use lower case δQ in the inexact differential expression for heat. The offending Δ belongs further down in the Thermodynamics section in the equation :q = U - w \ , which should be :q = \Delta U - w \ (Baierlein, p. 10, equation 1.11, though he denotes internal energy by E in place of U.[2] Continuing with the same instance of ΔQ, for example, removing the Δ, the equation

Q = \int_{T_0}^{T_f}C_p\,dT \,\!

is true for constant pressure.

  1. ^ a b Laider, Keith, J. (1993). The World of Physical Chemistry. Oxford University Press. ISBN 0-19-855919-4. 
  2. ^ Baierlein, Ralph (2003). Thermal Physics. Cambridge University Press. ISBN 0-521-65838-1. 

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