Prof. Kahtan H.A lzubaidy: New Applications
https://www.maplesoft.com/applications/author.aspx?mid=167752
en-us2018 Maplesoft, A Division of Waterloo Maple Inc.Maplesoft Document SystemTue, 20 Feb 2018 13:37:04 GMTTue, 20 Feb 2018 13:37:04 GMTNew applications published by Prof. Kahtan H.A lzubaidyhttps://www.maplesoft.com/images/Application_center_hp.jpgProf. Kahtan H.A lzubaidy: New Applications
https://www.maplesoft.com/applications/author.aspx?mid=167752
Maple in Finite Topological Spaces – Special Points
https://www.maplesoft.com/applications/view.aspx?SID=145571&ref=Feed
<p ><strong>Kahtan H.Alzubaidy, Taha Guma Elturki</strong>
<BR>
<em>Department of Mathematics, Faculty of Science, University of Benghazi</em></p>
<p ><em>E-mail: </em><a href="mailto:kahtanalzubaidy@yahoo.com"><em>kahtanalzubaidy@yahoo.com</em></a>, <a href="mailto:taha1978_2002@yahoo.com"><em>taha1978_2002@yahoo.com</em></a><strong>
<p><strong>Introduction</strong></p>
<p>The special points of a set in a topological space are limit points, closure points, interior points, boundary points, exterior points, and isolated points. Except limit points and isolated points the other special points can be computed by implementing simple formulas. For limit points we have to resort to the very definition to find them. On the other hand all special points can be derived from limit points. We have found computer procedures to compute the limit points of a set in finite space. Upon these procedures we have created other procedures to find the other special points. The software used is Maple 15. Some ready-made procedures are also used.</p>
<p>Let X be a finite topological space and A is a sub set of X. If the limit points, closure, interior, boundary, exterior and isolated points of A are denoted by LimitPoints(A), ClosurePoints(A), BoundaryPoints(A), InteriorPoints(A), ExteriorPoints(A) and IsolatedPoints(A) respectively, then we have :</p>
<p>ClosurePoints(A) = A U LimitPoints(A) .</p>
<p>BoundaryPoints(A) = ClosurePoints(A) ∩ ClosurePoints(X−A) .</p>
<p>InteriorPoints(A) = ClosurePoints(A) − BoundaryPoints(A) .</p>
<p>ExteriorPoints(A) = InteriorPoints(X − A) .</p>
<p>IsolatedPoints(A) = A − LimitPoints(A) .</p>
<p><strong>References</strong></p>
<p> [1] Dider Deses : Math-Page <br /> http : // student.vub.ac.be./~diddesen/math.html (2001).<br /> <br /> [2] <a href="http://www.maplesoft.com/applications/view.aspx?SID=4122&view=html">www.maplesoft.com/applications/view.aspx?SID=4122&view=html</a> (2001).</p><img src="https://www.maplesoft.com/applications/images/app_image_blank_lg.jpg" alt="Maple in Finite Topological Spaces – Special Points" style="max-width: 25%;" align="left"/><p ><strong>Kahtan H.Alzubaidy, Taha Guma Elturki</strong>
<BR>
<em>Department of Mathematics, Faculty of Science, University of Benghazi</em></p>
<p ><em>E-mail: </em><a href="mailto:kahtanalzubaidy@yahoo.com"><em>kahtanalzubaidy@yahoo.com</em></a>, <a href="mailto:taha1978_2002@yahoo.com"><em>taha1978_2002@yahoo.com</em></a><strong>
<p><strong>Introduction</strong></p>
<p>The special points of a set in a topological space are limit points, closure points, interior points, boundary points, exterior points, and isolated points. Except limit points and isolated points the other special points can be computed by implementing simple formulas. For limit points we have to resort to the very definition to find them. On the other hand all special points can be derived from limit points. We have found computer procedures to compute the limit points of a set in finite space. Upon these procedures we have created other procedures to find the other special points. The software used is Maple 15. Some ready-made procedures are also used.</p>
<p>Let X be a finite topological space and A is a sub set of X. If the limit points, closure, interior, boundary, exterior and isolated points of A are denoted by LimitPoints(A), ClosurePoints(A), BoundaryPoints(A), InteriorPoints(A), ExteriorPoints(A) and IsolatedPoints(A) respectively, then we have :</p>
<p>ClosurePoints(A) = A U LimitPoints(A) .</p>
<p>BoundaryPoints(A) = ClosurePoints(A) ∩ ClosurePoints(X−A) .</p>
<p>InteriorPoints(A) = ClosurePoints(A) − BoundaryPoints(A) .</p>
<p>ExteriorPoints(A) = InteriorPoints(X − A) .</p>
<p>IsolatedPoints(A) = A − LimitPoints(A) .</p>
<p><strong>References</strong></p>
<p> [1] Dider Deses : Math-Page <br /> http : // student.vub.ac.be./~diddesen/math.html (2001).<br /> <br /> [2] <a href="http://www.maplesoft.com/applications/view.aspx?SID=4122&view=html">www.maplesoft.com/applications/view.aspx?SID=4122&view=html</a> (2001).</p>https://www.maplesoft.com/applications/view.aspx?SID=145571&ref=FeedSun, 07 Apr 2013 04:00:00 ZTaha Guma el turkiTaha Guma el turki