Derivative at a point

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In mathematics, the derivative of a function is a measure of how rapidly the function changes locally when its argument changes.

Formally, the derivative of the function f at a is the limit

of the difference quotient as h approaches zero, if this limit exists. If the limit exists, then f is differentiable at a.

Multivariable calculus

The extension of the concept of derivative to multivariable functions, or vector-valued functions of vector variables, may be achieved by considering the derivative as a linear approximation to a differentiable function. In the one variable case we can regard as a linear function of one variable which is a close approximation to the function at the point .

Let be a function of n variables. We say that F is differentiable at a point if there is a linear function such that

where denotes the Euclidean distance in .

The derivative , if it exists, is a linear map and hence may be represented by a matrix. The entries in the matrix are the partial derivatives of the component functions of Fj with respect to the coordinates xi. If F is differentiable at a point then the partial derivatives all exist at that point, but the converse does not hold in general.

Formal derivative

The derivative of the monomial Xn may be formally defined as and this extends to a linear map D on the polynomial ring over any ring R. Similarly we may define D on the ring of formal power series .

The map D is a derivation, that is, an R-linear map such that