Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Locally connected and locally path connected spaces
Document related concepts
Transcript
Lecture notes /topology / lecturer : Zahir Dobeas AL-nafie *Locally connected and locally path connected spaces* Introduction: One of the basuic problems of topology is to determine whether tow given toplogical spaces are homeomorphic or not .there is no method for solving this problem in genral ,but technique do exist that apply in particular casis . Showing that two spaces are homeomorphic is matter of constructing of continuous mapping from one to the other having continuous inverse ,and constructing continuous functions is a problem that we have developed technique to handle. Showing that two spaces are homeomorphic is different matter .for that one must show that continuous functions with continuous inverse dose not exist ,if one can find some topological property that holds for one space but not for the other ,then the problem is solved ,the space can not be homeomorphic .the closed interval [0,1] can be homeomorphic to the open interval (0,1),for instance ,because the first space is copact but the second one is not .and the real line R can not be homeomorphic to the long line L because R has countable basis but the second one is not Def: A space X is locally path connected each point x if every neighborhood of x contains a path connected neighborhood of x, the space X is locally path connected if it is locally path connected at each of its points. *A space is locally path connected iff it has a basis of path connected subsets, and consider the table connected Locally connected Yes Yes No No Ø No No Proposition:The space X is locally path connected if and only if open subsets have open path components (open in the open), In a locally path connected space the path component are clopen . (Closed and open). Proof:Assume that X is locally connected and let U be an open subset, consider a component C of U the claim is that C is open, let x be a point in C choose a connected neighborhood V of x such that V⊂U, since V is connected and interest V, V⊂C this shows that C is open, in particular, the components (of the open set X) are open and since they form partition, also closed. Conversely Assume that open sub sets have open components, let x be a point of X and U neighborhood of x contained in U. Theorem:In a locally path connected space, the path components and the are the same. Proof:Suppose that X is locally path connected and each path component P is contained in unique component C since C is connected and P is clopen .
