In mathematics, a function is symmetrically continuous at a point x if
The usual definition of continuity implies symmetric continuity, but the converse is not true. For example, the function is symmetrically continuous at , but not continuous.
Also, symmetric differentiability implies symmetric continuity, but the converse is not true just like usual continuity does not imply differentiability.
The set of the symmetrically continuous functions, with the usual scalar multiplication can be easily shown to have the structure of a vector space over , similarly to the usually continuous functions, which form a linear subspace within it.
YouTube Encyclopedic
-
1/3Views:635 09932 9793 441 716
-
Sketching the Derivative of a Function
-
Symmetry of Graphs: Odd and Even Functions
-
Introduction to limits | Limits | Differential Calculus | Khan Academy
Transcription
References
- Thomson, Brian S. (1994). Symmetric Properties of Real Functions. Marcel Dekker. ISBN 0-8247-9230-0.