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PARTIAL DERIVATIVE

(Redirected from Partial derivatives)
In mathematics, a 'partial derivative' of a function of several variables is its derivative with respect to one of those variables with the others held constant (as opposed to the total derivative, in which all variables are allowed to vary). Partial derivatives are useful in vector calculus and differential geometry.
The partial derivative of a function ''f'' with respect to the variable ''x'' is written as ''f''''x'' or ''∂f/∂x''. The partial-derivative symbol ''∂'' is a rounded letter, distinguished from the straight ''d'' of total-derivative notation. The notation was introduced by Legendre and gained general acceptance after its reintroduction by Jacobi.

Contents
Examples
Notation
Formal definition and properties
See also

Examples


Consider the volume ''V'' of a cone; it depends on the cone's height ''h'' and its radius ''r'' according to the formula
:V(r, h) = rac{ r^2 h pi }{3}.
The partial derivative of ''V'' with respect to ''r'' is
: rac{ partial V}{partial r} = rac{ 2r h pi }{3}.
it describes the rate with which a cone's volume changes if its radius is varied and its height is kept constant. The partial derivative with respect to ''h'' is
: rac{ partial V}{partial h} = rac{ r^2 pi }{3}
and represents the rate with which the volume changes if its height is varied and its radius is kept constant.
Equations involving an unknown function's partial derivatives are called partial differential equations and are common in physics, engineering, and other sciences and applied disciplines.

Notation


For the following examples, let ''f'' be a function in ''x'', ''y'' and ''z''.
First-order partial derivatives:
: rac{ partial f}{ partial x} = f_x = partial_x f
Second-order partial derivatives:
: rac{ partial^2 f}{ partial x^2} = f_{xx} = partial_{xx} f
Second-order mixed derivatives:
: rac{ partial^2 f}{partial x,partial y} = f_{xy} = partial_{xy} f
Higher-order partial and mixed derivatives:
: rac{ partial^{i+j+k} f}{ partial x^i, partial y^j, partial z^k } = f^{(i, j, k)}
When dealing with functions of multiple variables, some of these variables may be related to each other, and it may be necessary to specify explicitly which variables are being held constant. In fields such as statistical mechanics, the partial derivative of ''f'' with respect to ''x'', holding ''y'' and ''z'' constant, is often expressed as
:left( rac{partial f}{partial x}
ight)_{y,z}

Formal definition and properties


Like ordinary derivatives, the partial derivative is defined as a limit. Let ''U'' be an open subset of 'R'''n'' and ''f'' : ''U'' → 'R' a function. We define the partial derivative of ''f'' at the point '''a''' = (''a''1, ..., ''a''''n'') ∈ ''U'' with respect to the ''i''-th variable ''x''''i'' as
: rac{ partial }{partial x_i }f(mathbf{a}) =
lim_{h
ightarrow 0}{
f(a_1, dots , a_{i-1}, a_i+h, a_{i+1}, dots ,a_n) -
f(a_1, dots ,a_n) over h }

Even if all partial derivatives ∂''f''/∂''x''''i''(''a'') exist at a given point ''a'', the function need not be continuous there. However, if all partial derivatives exist in a neighborhood of ''a'' and are continuous there, then ''f'' is totally differentiable in that neighborhood and the total derivative is continuous. In this case, we say that ''f'' is a C1 function. We can use this fact to generalize for vector valued functions (''f'' : ''U'' → ''R'''m'') by carefully using a componentwise argument.
The partial derivative rac{partial f}{partial x} can be seen as another function defined on ''U'' and can again be partially differentiated. If all mixed second order partial derivatives are continuous at a point (or on a set), we call ''f'' a C2 function at that point (or on that set); in this case, the partial derivatives can be exchanged by Clairaut's theorem:
: rac{partial^2f}{partial x_i, partial x_j} = rac{partial^2f} {partial x_j, partial x_i}.

See also



d'Alembertian operator

Curl

Directional derivative

Divergence

Exterior derivative

Gradient

Jacobian

Laplacian

Symmetry of second derivatives

Triple product rule, also known as the cyclic chain rule.

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