Search results
Results From The WOW.Com Content Network
A function is differentiable at an interior point a of its domain if and only if it is semi-differentiable at a and the left derivative is equal to the right derivative. An example of a semi-differentiable function, which is not differentiable, is the absolute value function () = | |, at a = 0. We find easily () =, + = If a function is semi ...
Semiderivative or Semi-derivative may refer to: One-sided derivative of semi-differentiable functions Half-derivative , an operator H {\displaystyle H} that when acting twice on a function f {\displaystyle f} gives the derivative of f {\displaystyle f} .
This approach allows the differential (as a linear map) to be developed for a variety of more sophisticated spaces, ultimately giving rise to such notions as the Fréchet or Gateaux derivative. Likewise, in differential geometry, the differential of a function at a point is a linear function of a tangent vector (an "infinitely small ...
A differentiable function. In mathematics, a differentiable function of one real variable is a function whose derivative exists at each point in its domain.In other words, the graph of a differentiable function has a non-vertical tangent line at each interior point in its domain.
The derivative function becomes a map between the tangent bundles of and . This definition is used in differential geometry. [50] Differentiation can also be defined for maps between vector space, such as Banach space, in which those generalizations are the Gateaux derivative and the Fréchet derivative. [51]
A differential equation is a relation between a collection of functions and their derivatives. An ordinary differential equation is a differential equation that relates functions of one variable to their derivatives with respect to that variable.
The word derivative sounds fancy and perhaps a little intimidating. But the key thing to know about derivatives is that they are a financial contract whose value is derived from the value of ...
Rigorously, a subderivative of a convex function : at a point in the open interval is a real number such that () for all .By the converse of the mean value theorem, the set of subderivatives at for a convex function is a nonempty closed interval [,], where and are the one-sided limits = (), = + ().