White Paper: New Applications
http://www.maplesoft.com/applications/category.aspx?cid=1334
en-us2016 Maplesoft, A Division of Waterloo Maple Inc.Maplesoft Document SystemFri, 29 Apr 2016 04:07:30 GMTFri, 29 Apr 2016 04:07:30 GMTNew applications in the White Paper categoryhttp://www.mapleprimes.com/images/mapleapps.gifWhite Paper: New Applications
http://www.maplesoft.com/applications/category.aspx?cid=1334
Cross Contraction Numbers
http://www.maplesoft.com/applications/view.aspx?SID=97899&ref=Feed
<p>This worksheet is concerned with the formulation of the ratio between <em>transverse </em>and <em>longitudinal </em>strains of isotropic and anisotropic materials, called <em>cross contraction numbers. </em>Some examples for practical use have been discussed in more detail, where <em>elastic, elastic-plastic, </em>and <em>plastic deformations </em>should be taken into account.</p>
<p><em>Keywords: POISSON</em>'s ratio; Isotropic and Anisotropic Materials; Elastic, Elastic-Plastic, and Plastic Deformations;</p><img src="/view.aspx?si=97899/maple_icon.jpg" alt="Cross Contraction Numbers" align="left"/><p>This worksheet is concerned with the formulation of the ratio between <em>transverse </em>and <em>longitudinal </em>strains of isotropic and anisotropic materials, called <em>cross contraction numbers. </em>Some examples for practical use have been discussed in more detail, where <em>elastic, elastic-plastic, </em>and <em>plastic deformations </em>should be taken into account.</p>
<p><em>Keywords: POISSON</em>'s ratio; Isotropic and Anisotropic Materials; Elastic, Elastic-Plastic, and Plastic Deformations;</p>97899Sun, 17 Oct 2010 04:00:00 ZProf. Josef BettenProf. Josef BettenThe “Gray Box” Approach
http://www.maplesoft.com/applications/view.aspx?SID=32963&ref=Feed
<p>The proverbial "black box" refers to computing tools where the user is shielded from the inner algorithms and interacts with the system from a purely and input and output point of view. Most modern engineering modeling and simulation software are based on this notion. The "gray box" is a term that describes the symbolic approach to engineering computation that offers distinct benefits in education and research. This paper offers an introduction to the tools and techniques of successfully deploying symbolic tools. The Maple system will be used as the software context.</p><img src="/view.aspx?si=32963/thumb.jpg" alt="The “Gray Box” Approach" align="left"/><p>The proverbial "black box" refers to computing tools where the user is shielded from the inner algorithms and interacts with the system from a purely and input and output point of view. Most modern engineering modeling and simulation software are based on this notion. The "gray box" is a term that describes the symbolic approach to engineering computation that offers distinct benefits in education and research. This paper offers an introduction to the tools and techniques of successfully deploying symbolic tools. The Maple system will be used as the software context.</p>32963Fri, 08 May 2009 04:00:00 ZMaplesoftMaplesoftMaple en classe préparatoire
http://www.maplesoft.com/applications/view.aspx?SID=4834&ref=Feed
Exercises for students (french 'grandes écoles')<img src="/view.aspx?si=4834//applications/images/app_image_blank_lg.jpg" alt="Maple en classe préparatoire" align="left"/>Exercises for students (french 'grandes écoles')4834Wed, 25 Oct 2006 00:00:00 ZClaude GuegannoClaude GuegannoSolving the Viscous Composite Cylinder Problem by Sokolov's Method
http://www.maplesoft.com/applications/view.aspx?SID=1760&ref=Feed
The paper presents some thoughts about the plane strain problem of the viscous orthotropic composite materials cylinder under internal and external pressure with respect to using the average approximating method . To compute the interior stress , from the elastic solution we use the Volterra’s principle and Sokolov’s method in the corresponding integral equation to find the viscous solution<img src="/view.aspx?si=1760/composite.jpg" alt="Solving the Viscous Composite Cylinder Problem by Sokolov's Method" align="left"/>The paper presents some thoughts about the plane strain problem of the viscous orthotropic composite materials cylinder under internal and external pressure with respect to using the average approximating method . To compute the interior stress , from the elastic solution we use the Volterra’s principle and Sokolov’s method in the corresponding integral equation to find the viscous solution1760Wed, 05 Jul 2006 00:00:00 ZDr. Co TranDr. Co TranMaple T.A. Tips and Techniques – Sharing Content
http://www.maplesoft.com/applications/view.aspx?SID=1725&ref=Feed
Sharing content is an important part of using a system like Maple T.A. effectively. Sharing content makes a wider range of questions and assignments available to all users. You can share question banks, assignments, and resources in a variety of ways, from choosing specific content to providing access to all the content in a class.<img src="/view.aspx?si=1725/Sharing.JPG" alt="Maple T.A. Tips and Techniques – Sharing Content" align="left"/>Sharing content is an important part of using a system like Maple T.A. effectively. Sharing content makes a wider range of questions and assignments available to all users. You can share question banks, assignments, and resources in a variety of ways, from choosing specific content to providing access to all the content in a class.1725Mon, 27 Mar 2006 00:00:00 ZMaplesoftMaplesoftAircraft landing gear simulation and analysis
http://www.maplesoft.com/applications/view.aspx?SID=3782&ref=Feed
A computer aided graphical synthesis was undertaken to understand the kinematics of a nose wheel landing gear mechanism such as that on the Lockheed F-16 using Working Model software. The mobility of the design was verified by computer animation. Computer modeling and finite element analysis are explored to analyze stresses developed while landing at normal sink rates. The deflections of the main spring gear are calculated and the internal stresses evaluated utilizing the finite element program Stardyne (Research Engineers, Inc.). The results of the modeling and simulation are discussed in this paper.<img src="/view.aspx?si=3782//applications/images/app_image_blank_lg.jpg" alt="Aircraft landing gear simulation and analysis" align="left"/>A computer aided graphical synthesis was undertaken to understand the kinematics of a nose wheel landing gear mechanism such as that on the Lockheed F-16 using Working Model software. The mobility of the design was verified by computer animation. Computer modeling and finite element analysis are explored to analyze stresses developed while landing at normal sink rates. The deflections of the main spring gear are calculated and the internal stresses evaluated utilizing the finite element program Stardyne (Research Engineers, Inc.). The results of the modeling and simulation are discussed in this paper.3782Tue, 19 Jun 2001 00:00:00 ZDerek MorrisonDerek MorrisonIntegrating Maple into the Math Curriculum - A Seven Step Guide for Educators, by Greg A. Moore, Orange Coast College
http://www.maplesoft.com/applications/view.aspx?SID=3794&ref=Feed
Integrating Maple into the Math Curriculum - A Seven Step Guide for Educators<img src="/view.aspx?si=3794//applications/images/app_image_blank_lg.jpg" alt="Integrating Maple into the Math Curriculum - A Seven Step Guide for Educators, by Greg A. Moore, Orange Coast College" align="left"/>Integrating Maple into the Math Curriculum - A Seven Step Guide for Educators3794Tue, 19 Jun 2001 00:00:00 ZGregory MooreGregory MooreCool knots drawn using Maple
http://www.maplesoft.com/applications/view.aspx?SID=3624&ref=Feed
Knot theory is a mathematical study of knots. It is mainly used to distinguish between different types of knots and links. There are some practical applications of knots that are discussed in more detail later. Looking at the history of Knot theory, before people used to try to twist wires or threads and try to classify different types of knots. Nowadays, this can be done on the computer. The knots shown in this page are all drawn using Maple software<img src="/view.aspx?si=3624/knots.gif" alt="Cool knots drawn using Maple" align="left"/>Knot theory is a mathematical study of knots. It is mainly used to distinguish between different types of knots and links. There are some practical applications of knots that are discussed in more detail later. Looking at the history of Knot theory, before people used to try to twist wires or threads and try to classify different types of knots. Nowadays, this can be done on the computer. The knots shown in this page are all drawn using Maple software3624Mon, 18 Jun 2001 00:00:00 ZRohit ChaudharyRohit Chaudhary