Bibliografías temáticas / Mathcad applications

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Literatura académica sobre el tema "Mathcad applications"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 16 de febrero de 2022

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Artículos de revistas sobre el tema "Mathcad applications"

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Hodge, B. K. "Mathcad Applications for Generalized One-Dimensional Compressible Flow." International Journal of Mechanical Engineering Education 39, no. 2 (2011): 139–63. http://dx.doi.org/10.7227/ijmee.39.2.5.

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Lee, Ang Wee, Nayef Mohamed Ghasem, and Mohamed Azlan Hussain. "Utilization of Mathematical Software Packages in Chemical Engineering Research." ASEAN Journal of Chemical Engineering 5, no. 2 (2005): 125. http://dx.doi.org/10.22146/ajche.50180.

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Using Fortran taken as the starting point, we are now on the sixth decade of high-level programming applications. Among the programming languages available, computer algebra systems (CAS) appear to be a good choice in chemical engineering can be applied easily. Until the emergence of CAS, the assistance from a specialized group for large-scale programming is justified. Nowadays, it is more effective for the modern chemical engineer to rely on his/her own programming ability for problem solving. In the present paper, the abilities of Polymath, Maple, Matlab, Mathcad, and Mathematica in handling differential equations are illustrated for differential-algebraic equations, large system of nonlinear differential equations, and partial differential equations. The programming of solutions with these CAS are presented, contrasted, and discussed in relation to chemical engineering problems. Keywords: Computer algebra systems (CAS),computer simulation,Mathcad, Mathematica,Mathlab and numerical methods.
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Schutte, C. J. H. "Computer Software Review. MathCAD." Journal of Chemical Information and Modeling 29, no. 2 (1989): 130–34. http://dx.doi.org/10.1021/ci00062a604.

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Liu, Lixin, Guili Liu, and Wei Zhang. "Applications of the Peng-Robinson equation of state using Mathcad." International Journal of Computational Science and Engineering 13, no. 1 (2016): 98. http://dx.doi.org/10.1504/ijcse.2016.077736.

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Zhang, Wei, Lixin Liu, and Guili Liu. "Applications of the Peng-Robinson equation of state using Mathcad." International Journal of Computational Science and Engineering 13, no. 1 (2016): 98. http://dx.doi.org/10.1504/ijcse.2016.10000020.

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Ashhepkova, Natalja. "Devising a method to analyze the current state of the manipulator workspace." Eastern-European Journal of Enterprise Technologies 1, no. 7 (109) (2021): 63–74. http://dx.doi.org/10.15587/1729-4061.2021.225121.

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This paper has proposed a program analysis method over the current state of the workspace of an anthropomorphic manipulator using the Mathcad software application package (USA). The analysis of the manipulator workspace helped solve the following sub-tasks: to calculate the limits of the grip reach, to determine the presence of "dead zones" within the manipulator workspace, to build the boundaries of the manipulator workspace. A kinematic scheme of the manipulator typically provides for at least five degrees of mobility, which is why in the three-dimensional Cartesian coordinate system the work zone boundaries represent the surfaces of a complex geometric shape. The author-devised method makes it possible to construct the projections of the boundaries of the manipulator's work zone onto the coordinate planes in the frame of reference associated with the base of the robot.
 Using Mathcad's built-in features makes it possible to effectively solve the above sub-tasks without wasting time developing specialized software. The Mathcad software application package provides for the possibility of a symbolic solution to the first problem of the kinematics of an industrial robot, that is, the program generates analytical dependences of the coordinates for special point P (pole) of the grip on the trigonometrical functions of the generalized coordinates. The resulting analytical dependences are used for kinematic and dynamic analysis of the manipulator.
 Special features in constructing mathematical models when using the Mathcad software application package have been revealed. Simulating the manipulator movement taking into consideration constraints for kinematic pairs, the drives' power, as well as friction factors, makes it possible to optimize the parameters of the manipulator kinematic scheme.
 An example of the analysis of the working space of an anthropomorphic manipulator with five degrees of mobility has been considered.
 The reported results could be used during the design, implementation, modernization, and operation of manipulators.
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NG, JAMES C. O. "Solving Nonlinear Vibration Equations with MathCAD." Computer-Aided Civil and Infrastructure Engineering 5, no. 2 (2008): 157–64. http://dx.doi.org/10.1111/j.1467-8667.1990.tb00051.x.

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Sterian, Andreea-Rodica. "Basic research for designing the erbium doped fiber amplifier in long distance cable communications." Technium: Romanian Journal of Applied Sciences and Technology 2, no. 1 (2020): 29–37. http://dx.doi.org/10.47577/technium.v2i1.39.

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The paper presents some of the author results obtained in the research on the optical fiber amplifiers and Quantum Well (QW) laser diodes used in long distance optical communications as those transoceanic and other applications. Based on the mathematical models of the Erbium Doped Fiber Amplifier (EDFA) and of the QW laser diodes, implemented in software (especially, MATHLAB and MATHCAD but also in SIMULINK and SPICE), we get the operational diagrams and parameters of the specified devices and structures. For example, the classic Runge-Kutta method hasbeen successfully used for numerical simulation of complex nonlinear dynamics in fiber optic lasers.The obtained results are important in the design and characterization of the optical fiber communication systems, as those of the optical cables used in the naval and civil engineering.
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Ochkov, V. F., A. O. Ivanova, and M. D. Alekseev. "THREE "GREEDY" ALGORITHMS." Informatics in school, no. 9 (December 20, 2018): 34–42. http://dx.doi.org/10.32517/2221-1993-2018-17-9-34-42.

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The article considers three logistic tasks (transportation problem, traveling salesman problem, pursuit problem), by the example of which the essence and features of “greedy” algorithms are shown. For the frst time, a solution was given to a transportation problem in the Mathcad Prime environment using the matrix method using units of measure. Two new applications of the traveling salesman problem have been proposed. The difference scheme for solving the pursuit problem is described.
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Hisham, Hisham. "Full Width-Half Maximum Characteristics of FBG for Petroleum Sensor Applications." Iraqi Journal for Electrical and Electronic Engineering 16, no. 1 (2020): 99–103. http://dx.doi.org/10.37917/ijeee.16.1.12.

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In this paper, we have analyzed the full width-half maximum (FWHM) response of a uniform fiber Bragg grating (FBG) for petroleum sensor applications numerically. The analysis; which is depending on parameters such as the gratings length (Lg) and the amplitude of an induced index profile (Δn) change have successfully investigated using MATHCAD software. From the numerical simulation, there is an effect of the Lg and the Δn on the FWHM response. Results show the Lg value that effect the FWHM response is ≤7 mm. In contrast, results show that there is no effect of temperature on the FWHM response. In light of the increasing demand for a wide FWHM band within the applications of optical sensor technology, the results obtained are very important, especially in the field of petroleum industry.
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Tesis sobre el tema "Mathcad applications"

1

Gerry, Donald D. "Mathcad computer applications predicting antenna parameters from antenna physical dimensions and ground characteristics." Thesis, Monterey, California. Naval Postgraduate School, 1993. http://hdl.handle.net/10945/39791.

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Approved for public release; distribution is unlimited.<br>This report provides the documentation for a set of computer applications for the evaluation of antenna parameters. The applications are written for the Mathcad personal computer software for various antenna types listed in the thesis index. Antenna dimen
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Berger, Maik. "9. SAXON SIMULATION MEETING : Präsentationen und Vorträge des 9. Anwendertreffens am 28. März 2017 an der Technischen Universität Chemnitz." Universitätsverlag der Technischen Universität Chemnitz, 2017. https://monarch.qucosa.de/id/qucosa%3A20708.

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Von der Professur Montage- und Handhabungstechnik der Fakultät für Maschinenbau der Technischen Universität Chemnitz wird seit 2009 das jährliche Simulationsanwendertreffen SAXSIM organisiert. Ausgewählte Beiträge werden in Form eines Tagungsbandes veröffentlicht. Das 9. Anwendertreffen SAXSIM fand am 28.03.2017 an der TU Chemnitz statt.:- Multiphysikalische Systemsimulation mit SimulationX / Adam Burkhard - Modellierung & Simulation des Plasmaschweißens zur Entwicklung innovativer Schweißbrenner / Dr.-Ing. habil. Khaled Alaluss - Dynamischer Partikelbruch: Modelldefinition, Kalibrierung und Anwendung / Dr.-Ing. Luca Benvenuti - Konstruktionsbegleitende Toleranzsimulation mit CETOL 6 σ unter Verwendung der GPS-Strategie DIN EN ISO 14638 und DIN EN ISO 8015 / Dipl.-Ing. (FH) Christoph Bruns - PTC CREO SIMULATE ENGINE UPDATES / Dr. Arun Chavan - CREO SIMULATE : ROADMAP / Jose Coronado - Simulationsbasierte Entwicklung und Optimierung von Werkzeugmaschinen / Dipl.-Ing. Uwe Eiselt - Validierung des Kontaktmoduls der Freeware Z88Aurora anhand analytischer Beispiele und kommerzieller FE-Systeme / Christian Glenk M.Sc. - Mehrkörpersimulation eines ebenen Koppelgetriebes mittels Matlab/ADAMS-Co-Simulation / Dipl.-Ing. Christian Gollee - Numerische Auslegung des Mehrlagenschweißens als additives Fertigungsverfahren / Dr.-Ing. Marcel Graf - Berechnung und Simulation von Kurvenschrittgetrieben / Dr.-Ing. Andreas Heine - Parameterstudien und Co-Simulation ebener Koppelgetriebe / Stefan Heinrich M.Sc. - Erfassung, Simulation und Weiterverarbeitung menschlicher Bewegungen mit DYNAMICUS / Dipl. -Math. Heike Hermsdorf - Linear Dynamic System Analyses with Creo Simulate / Dr.-Ing. Roland Jakel - Strömungssimulation zur Optimierung von Flussfeldern in PEM-Brennstoffzellen / Philipp Jendras M.Sc. - Konvergenz eines plastischen Multiphysics-Kontaktes in der Pressschweißsimulation - Herausforderungen und Lösungsansätze / Jonny Kaars M.Eng. - Kurvenabgleich zur Bestimmung eines Systemverhalten und von Materialparametern / Dipl.-Ing. Rene Kallmeyer - Die kinematische und statische Analyse eines Biglide-Getriebes mit Hilfe der Programme Mathcad und GeoGebra / Dr.-Ing. Hanfried Kerle - Möglichkeiten der TexMind Software für Generierung von textilen Strukturen für FEM Simulationen und CAD Anwendungen / Prof. Dr. Yordan Kyosev - Prozesssimulation einer Rotorflechtmaschine nach „Horn“ zur Ermittlung der Flechtfadenspannung / Robert Laue M.Sc. ; Dr.-Ing. Daniel Denninger - Bruch einer Königswelle einer 6300 t Presse / Prof. Dr-Ing. Uwe Mahn - Strukturzuverlässigkeit durch Frequenzganganalyse mit Finite-Elemente-Methode im Rahmen des Projektes DRESDYN / Dipl.-Ing. M.Eng. Anton Melnikov - Systemübergreifender Simulationsansatz zur Auslegung, Fertigung und Qualitätssicherung am Beispiel einer Bogenverzahnung / Dipl.-Ing. Jürgen Merz - Integrative Prozess- und Bauteilsimulation für kurzfaserverstärkte Spritzgießbauteile / Dr.-Ing. Sascha Müller - Computergestützte Simulationsschnittstelle - Optimierte Systementwicklung / Dipl.-Ing. Sam Nezhat - Formatabhängige hochdynamische Bewegungen mit Servoantrieben / Dipl.-Ing. Dipl.-Inform. Rainer Nolte - Integration der Diskrete Elemente Methode in die domänen-übergreifende Systemsimulation / Dipl.-Ing. Christian Richter - Mehrkörpermodellierung und Validierung einer 3 MW Windturbine / Andreas Schulze M. Sc. - Vergleich von Stützstrukturen für die additive Fertigung: Creo Parametric/Simulate 4.0 & ProTOpCI / Dipl.-Ing. (FH) Urs Simmler - MFBD-Simulation des Nadeleindringens in ein Gewebephantom am Beispiel der Stanzbiopsie / Thorsten Speicher M.Eng. ; Katharina Hauschild M.Sc. - ANSYS AIM: Der Konzeptsimulator für alle / Dipl.-Ing. Marc Vidal - Neue Schweißfunktionalität in Creo 4 mit den daraus entstehenden Vorteilen zur Simulation / Axel Waidmann - Entwicklung eines zwangläufigen Schneid- und Fixiersystems für den Einsatz in einem Tapelegekopf / Dipl.-Ing. Rainer Wallasch<br>The Chair of Assembly and Handling Technology, which belongs to the Faculty of Mechanical Engineering, has organized the annual simulation user meeting SAXSIM since 2009.  Select contributions will be published in conference proceedings.  The 9th SAXSIM user meeting took place at Technische Universität Chemnitz on March 28, 2017.:- Multiphysikalische Systemsimulation mit SimulationX / Adam Burkhard - Modellierung & Simulation des Plasmaschweißens zur Entwicklung innovativer Schweißbrenner / Dr.-Ing. habil. Khaled Alaluss - Dynamischer Partikelbruch: Modelldefinition, Kalibrierung und Anwendung / Dr.-Ing. Luca Benvenuti - Konstruktionsbegleitende Toleranzsimulation mit CETOL 6 σ unter Verwendung der GPS-Strategie DIN EN ISO 14638 und DIN EN ISO 8015 / Dipl.-Ing. (FH) Christoph Bruns - PTC CREO SIMULATE ENGINE UPDATES / Dr. Arun Chavan - CREO SIMULATE : ROADMAP / Jose Coronado - Simulationsbasierte Entwicklung und Optimierung von Werkzeugmaschinen / Dipl.-Ing. Uwe Eiselt - Validierung des Kontaktmoduls der Freeware Z88Aurora anhand analytischer Beispiele und kommerzieller FE-Systeme / Christian Glenk M.Sc. - Mehrkörpersimulation eines ebenen Koppelgetriebes mittels Matlab/ADAMS-Co-Simulation / Dipl.-Ing. Christian Gollee - Numerische Auslegung des Mehrlagenschweißens als additives Fertigungsverfahren / Dr.-Ing. Marcel Graf - Berechnung und Simulation von Kurvenschrittgetrieben / Dr.-Ing. Andreas Heine - Parameterstudien und Co-Simulation ebener Koppelgetriebe / Stefan Heinrich M.Sc. - Erfassung, Simulation und Weiterverarbeitung menschlicher Bewegungen mit DYNAMICUS / Dipl. -Math. Heike Hermsdorf - Linear Dynamic System Analyses with Creo Simulate / Dr.-Ing. Roland Jakel - Strömungssimulation zur Optimierung von Flussfeldern in PEM-Brennstoffzellen / Philipp Jendras M.Sc. - Konvergenz eines plastischen Multiphysics-Kontaktes in der Pressschweißsimulation - Herausforderungen und Lösungsansätze / Jonny Kaars M.Eng. - Kurvenabgleich zur Bestimmung eines Systemverhalten und von Materialparametern / Dipl.-Ing. Rene Kallmeyer - Die kinematische und statische Analyse eines Biglide-Getriebes mit Hilfe der Programme Mathcad und GeoGebra / Dr.-Ing. Hanfried Kerle - Möglichkeiten der TexMind Software für Generierung von textilen Strukturen für FEM Simulationen und CAD Anwendungen / Prof. Dr. Yordan Kyosev - Prozesssimulation einer Rotorflechtmaschine nach „Horn“ zur Ermittlung der Flechtfadenspannung / Robert Laue M.Sc. ; Dr.-Ing. Daniel Denninger - Bruch einer Königswelle einer 6300 t Presse / Prof. Dr-Ing. Uwe Mahn - Strukturzuverlässigkeit durch Frequenzganganalyse mit Finite-Elemente-Methode im Rahmen des Projektes DRESDYN / Dipl.-Ing. M.Eng. Anton Melnikov - Systemübergreifender Simulationsansatz zur Auslegung, Fertigung und Qualitätssicherung am Beispiel einer Bogenverzahnung / Dipl.-Ing. Jürgen Merz - Integrative Prozess- und Bauteilsimulation für kurzfaserverstärkte Spritzgießbauteile / Dr.-Ing. Sascha Müller - Computergestützte Simulationsschnittstelle - Optimierte Systementwicklung / Dipl.-Ing. Sam Nezhat - Formatabhängige hochdynamische Bewegungen mit Servoantrieben / Dipl.-Ing. Dipl.-Inform. Rainer Nolte - Integration der Diskrete Elemente Methode in die domänen-übergreifende Systemsimulation / Dipl.-Ing. Christian Richter - Mehrkörpermodellierung und Validierung einer 3 MW Windturbine / Andreas Schulze M. Sc. - Vergleich von Stützstrukturen für die additive Fertigung: Creo Parametric/Simulate 4.0 & ProTOpCI / Dipl.-Ing. (FH) Urs Simmler - MFBD-Simulation des Nadeleindringens in ein Gewebephantom am Beispiel der Stanzbiopsie / Thorsten Speicher M.Eng. ; Katharina Hauschild M.Sc. - ANSYS AIM: Der Konzeptsimulator für alle / Dipl.-Ing. Marc Vidal - Neue Schweißfunktionalität in Creo 4 mit den daraus entstehenden Vorteilen zur Simulation / Axel Waidmann - Entwicklung eines zwangläufigen Schneid- und Fixiersystems für den Einsatz in einem Tapelegekopf / Dipl.-Ing. Rainer Wallasch
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Berger, Maik. "10. SAXON SIMULATION MEETING : Präsentationen und Vorträge des 10. Anwendertreffens am 22. März 2018 an der Technischen Universität Chemnitz." Technische Universität Chemnitz, 2018. https://monarch.qucosa.de/id/qucosa%3A21380.

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Von der Professur Montage- und Handhabungstechnik der Fakultät für Maschinenbau der Technischen Universität Chemnitz wird seit 2009 das jährliche Simulationsanwendertreffen SAXSIM organisiert. Ausgewählte Beiträge werden in Form eines Tagungsbandes veröffentlicht. Das 10. Anwendertreffen SAXSIM fand am 22.03.2018 an der TU Chemnitz statt.<br>The Chair of Assembly and Handling Technology, which belongs to the Faculty of Mechanical Engineering, has organized the annual simulation user meeting SAXSIM since 2009. Select contributions will be published in conference proceedings. The 10th SAXSIM user meeting took place at Technische Universität Chemnitz on March 22, 2018.
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Berger, Maik. "11. SAXON SIMULATION MEETING : Präsentationen und Vorträge des 11. Anwendertreffens am 26. März 2019 an der Technischen Universität Chemnitz." Technische Universität Chemnitz, 2019. https://monarch.qucosa.de/id/qucosa%3A34090.

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Von der Professur Montage- und Handhabungstechnik der Fakultät für Maschinenbau der Technischen Universität Chemnitz wird seit 2009 das jährliche Simulationsanwendertreffen SAXSIM organisiert. Ausgewählte Beiträge werden in Form eines Tagungsbandes veröffentlicht. Das 11. Anwendertreffen SAXSIM fand am 26.03.2019 an der TU Chemnitz statt.<br>The Chair of Assembly and Handling Technology, which belongs to the Faculty of Mechanical Engineering, has organized the annual simulation user meeting SAXSIM since 2009. Select contributions will be published in conference proceedings. The 11th SAXSIM user meeting took place at Technische Universität Chemnitz on March 26, 2019.
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Quilitzsch, Mathias [Verfasser], and Mathias [Akademischer Betreuer] Ulbricht. "Surface selective hydrogel grafting of ultrafiltration membranes using macromolecular initiators and the application to increase fouling resistance / Mathias Quilitzsch. Betreuer: Mathias Ulbricht." Duisburg, 2016. http://d-nb.info/1098130510/34.

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Hanisch, Mathias [Verfasser]. "Synthesis and Characterization of Anisotropic Noble Metal Nanostructures for Applications in Nanotechnology / Mathias Hanisch." München : Verlag Dr. Hut, 2015. http://d-nb.info/1074063473/34.

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Preuß, Alan [Verfasser], and Mathias [Akademischer Betreuer] Noe. "Development of high-temperature superconductor cables for high direct current applications / Alan Preuß ; Betreuer: Mathias Noe." Karlsruhe : KIT Scientific Publishing, 2020. http://d-nb.info/1224048105/34.

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Xu, Xiang Verfasser], Rudolf [Akademischer Betreuer] [Mathar, and Gerd [Akademischer Betreuer] Ascheid. "Strategies for wireless network control with applications to LTE / Xiang Xu ; Rudolf Mathar, Gerd Ascheid." Aachen : Universitätsbibliothek der RWTH Aachen, 2015. http://d-nb.info/1127143697/34.

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Xu, Xiang [Verfasser], Rudolf [Akademischer Betreuer] Mathar, and Gerd [Akademischer Betreuer] Ascheid. "Strategies for wireless network control with applications to LTE / Xiang Xu ; Rudolf Mathar, Gerd Ascheid." Aachen : Universitätsbibliothek der RWTH Aachen, 2015. http://d-nb.info/1127143697/34.

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Micheel, Mathias [Verfasser], Benjamin [Gutachter] Dietzek, and Peter [Gutachter] Gilch. "Photophysical characterization of dynamically linked polymers for self-healing applications / Mathias Micheel ; Gutachter: Benjamin Dietzek, Peter Gilch." Jena : Friedrich-Schiller-Universität Jena, 2019. http://d-nb.info/1206605219/34.

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Libros sobre el tema "Mathcad applications"

1

Gerry, Donald D. Mathcad computer applications predicting antenna parameters from antenna physical dimensions and ground characteristics. Naval Postgraduate School, 1993.

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Sime, Rodney J. Physical chemistry calculations: With Excel, Visual Basic, Visual Basic for applications, Mathcad, Mathmatica. Pearson/Benjamin Cummings, 2005.

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Garrod, Brian. The Gordon-Schaefer bioeconomic fishery model: A CAL application of MathCAD. Portsmouth Polytechnic, Centre for Marine Resource Economics, 1991.

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Modeling derivatives applications in MATHLAB, C++, and Excel. FT Press, 2007.

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Efremov, German. Modeling of chemical and technological processes. INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1090526.

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In an accessible form, the textbook presents the theoretical foundations of physical and mathematical modeling; considers the modeling of mass, heat and momentum transfer processes, the relationship and analogy between them; studies the theory of similarity, its application in modeling, models of the structure of flows in apparatuses. Experimental-statistical and experimental-analytical modeling methods are also described, which include "black box" methods, planning passive, active full and fractional factor experiments, and adjusting models based on the results of the experiment. At the same time, modeling of chemical reactors, methods of optimization of chemical-technological processes, their selection, comparison and application examples are considered. Examples of modeling and optimization of processes in chemical, petrochemical and biotechnology on a computer in Excel and MathCAD environments are given. The appendices provide the basics of working in the MathCAD environment and elements of matrix algebra. Meets the requirements of the Federal state educational standards of higher education of the latest generation. It is intended for bachelors who are trained for the chemical, petrochemical, food, textile and light industries. It can be useful for specialists and undergraduates, as well as for scientists, engineers and postgraduates dealing with the problem under consideration.
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Mathcad Applications for Analytical Chemistry (Mathcad). Harcourt Brace College Publishers, 1994.

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Rowell, Jim. Mathematical modeling with MathCAD: Exploration in the calculus and points beyond (The applications library). Benjamin/Cummings Pub. Co., Inc, 1990.

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Mathematical Modeling With Mathcad: Explorations in the Calculus and Points Beyond/Book and Disk (The applications library). Addison-Wesley, 1991.

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Calculus: Modeling and Application: Mathcad. Houghton Mifflin College Div, 1995.

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Capítulos de libros sobre el tema "Mathcad applications"

1

Jaffe, Richard C. "Introduction to Applications." In Random Signals for Engineers Using MATLAB® and Mathcad®. Springer New York, 2000. http://dx.doi.org/10.1007/978-1-4612-1218-8_7.

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Scott, Joseph, Aina Niemetz, Mathias Preiner, Saeed Nejati, and Vijay Ganesh. "MachSMT: A Machine Learning-based Algorithm Selector for SMT Solvers." In Tools and Algorithms for the Construction and Analysis of Systems. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-72013-1_16.

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AbstractIn this paper, we present MachSMT, an algorithm selection tool for Satisfiability Modulo Theories (SMT) solvers. MachSMT supports the entirety of the SMT-LIB language. It employs machine learning (ML) methods to construct both empirical hardness models (EHMs) and pairwise ranking comparators (PWCs) over state-of-the-art SMT solvers. Given an SMT formula $$\mathcal {I}$$ I as input, MachSMT leverages these learnt models to output a ranking of solvers based on predicted run time on the formula $$\mathcal {I}$$ I . We evaluate MachSMT on the solvers, benchmarks, and data obtained from SMT-COMP 2019 and 2020. We observe MachSMT frequently improves on competition winners, winning $$54$$ 54 divisions outright and up to a $$198.4$$ 198.4 % improvement in PAR-2 score, notably in logics that have broad applications (e.g., BV, LIA, NRA, etc.) in verification, program analysis, and software engineering. The MachSMT tool is designed to be easily tuned and extended to any suitable solver application by users. MachSMT is not a replacement for SMT solvers by any means. Instead, it is a tool that enables users to leverage the collective strength of the diverse set of algorithms implemented as part of these sophisticated solvers.
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Baczyński, Michał. "The Equation $\mathcal{I}(\mathcal{S}(x,y),z) = \mathcal{T}(\mathcal{I}(x,z),\mathcal{I}(y,z))$ for t-representable t-conorms and t-norms Generated from Continuous, Archimedean Operations." In Fuzzy Logic and Applications. Springer International Publishing, 2013. http://dx.doi.org/10.1007/978-3-319-03200-9_14.

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Lugiez, Denis. "From Automata to Semilinear Sets: A Logical Solution for Sets $\mathcal{L}$ ( $\mathcal{C}$ , $\mathcal{P}$ )." In Implementation and Application of Automata. Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/978-3-540-30500-2_35.

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Orlov, Yury V., and Luis T. Aguilar. "Nonlinear $$\mathcal{H}_{\infty }$$ Control." In Systems & Control: Foundations & Applications. Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4939-0292-7_4.

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Baader, Franz, and Barbara Morawska. "Unification in the Description Logic $\mathcal{EL}$." In Rewriting Techniques and Applications. Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-02348-4_25.

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Abd Alrahman, Yehia, Rocco De Nicola, and Giulio Garbi. "$$\mathcal {G}o\mathcal {A}t$$: Attribute-Based Interaction in Google Go." In Leveraging Applications of Formal Methods, Verification and Validation. Distributed Systems. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-03424-5_19.

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Arov, Damir Z., and Harry Dym. "The de Branges Spaces $$\mathcal{B}\left(\mathfrak{E}\right)\;\mathrm{and}\;\mathcal{H}\left(A\right)$$." In Operator Theory: Advances and Applications. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-70262-9_3.

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Conruyt, Noel, and David Grosser. "Knowledge Management in Environmental Sciences with $$ \mathcal{I}\mathcal{K}\mathcal{B}\mathcal{S}: $$ : Application to Systematics of Corals of the Mascarene Archipelago." In Selected Contributions in Data Analysis and Classification. Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-73560-1_31.

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Ahmed, A. El-Sayed, and M. A. Bahkit. "Holomorphic $$ \mathcal{N}_K $$ and Bergman-type Spaces." In Operator Algebras, Operator Theory and Applications. Birkhäuser Basel, 2009. http://dx.doi.org/10.1007/978-3-0346-0174-0_5.

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Actas de conferencias sobre el tema "Mathcad applications"

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McClain, Stephen T. "Advanced Thermodynamics Applications Using Mathcad." In ASME 2009 International Mechanical Engineering Congress and Exposition. ASMEDC, 2009. http://dx.doi.org/10.1115/imece2009-11313.

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Mathcad thermodynamic property function sets have been developed for many engineering fluids. In past publications, which introduced the property function sets, examples were provided that demonstrated the usefulness of the functions in solving typical homework problems for either an Introduction to Thermodynamics or an Applied Thermodynamics course. The capabilities of Mathcad allow for much more complicated analyses than are typically discussed in undergraduate engineering thermodynamics courses. Specifically, Mathcad’s abilities 1) to perform calculations on multi-dimensional arrays, 2) to optimize functions using modified Newton-Raphson techniques, 3) to read text-file data sets, and 4) solve systems of non-linear equations, enables the analysis of very complex thermodynamic problems. Examples are provided to demonstrate the very robust capabilities of Mathcad using previously developed thermodynamic property function sets. The examples discussed include the optimization of a steam power cycle using two feedwater heaters, the analysis of gas turbine data acquired from a small turbojet apparatus, and the analysis of evaporator flooding on the performance of an industrial refigeration system. The analyses and figures produced in Mathcad demonstrate its effectiveness for complex thermodynamic calculations and for providing insight into the performance of complex thermodynamic systems.
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Gardner, P. "Some applications of MATHCAD and MATLAB in microwave component synthesis." In IEE Colloquium on The Use of Systems Analysis and Modelling Tools: Experiences and Applications. IEE, 1998. http://dx.doi.org/10.1049/ic:19980590.

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Mingsong, Zhang, Zhang Li, and Zhang Fajun. "The Analysis of Link Mechanism Movement Based on MathCAD." In 2010 International Forum on Information Technology and Applications (IFITA). IEEE, 2010. http://dx.doi.org/10.1109/ifita.2010.161.

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Blekhman, David, and Stephen T. McClain. "Mathematical Modeling of a Molten-Carbonate Fuel Cell Using MathCAD." In ASME 2008 6th International Conference on Fuel Cell Science, Engineering and Technology. ASMEDC, 2008. http://dx.doi.org/10.1115/fuelcell2008-65119.

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The topic of fuel cells remains novel in most of the engineering programs. While a good selection of textbooks has been introduced, the need for enlightening and achievable projects and homework problems remains strong. The application of MathCAD to a molten-carbonate fuel cell course project is presented. This work effectively brings together the authors’ efforts to offer students the cutting edge experiences in thermal sciences and fuel cell theory. It has been shown that the topic of fuel cells can naturally be introduced from the coverage of reacting systems and combustion in particular. Likewise, there has been a significant development of a uniform mathematical model of a variety of thermodynamic phenomena employing MathCAD, with a considerable increase in the difficulty level of problems that can be completed by the student. MathCAD functionality has been applied to problems in Thermodynamics, Energy Systems, Internal Combustion Engines, and now Fuel Cells. The principles of modeling the carbon-hydrogen-oxygen-nitrogen (CHON) systems have been extended to reflect the thermo- and electro-chemical processes in fuel cells, which includes the dynamically shifting Nernst potential as reactants flow through the fuel cells. Operational parameters, like fuel and oxidizer utilization, can also be evaluated. The intent of this paper is to demonstrate how MathCAD can be used to perform very powerful calculations for fuel cell applications while the intuitive solving structures and mathematical report-like worksheets created in MathCAD promote learning of fuel cell topics. The presented project model can be broken into progressive assignments or just individual homework problems in an undergraduate applied thermodynamics or fuel cell applications course.
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Zharov, A. A., M. A. Kolosov, A. V. Borisenko, A. V. Valiakina, and V. S. Makhmutova. "Mathematical modelling method of the compression process in a scroll compressor in Mathcad." In SECOND INTERNATIONAL CONFERENCE ON MATERIAL SCIENCE, SMART STRUCTURES AND APPLICATIONS: ICMSS-2019. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5140175.

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Vaiciulyte, Ingrida. "Adaptive Monte-Carlo Markov chain for multivariate statistical estimation." In International Workshop of "Stochastic Programming for Implementation and Advanced Applications". The Association of Lithuanian Serials, 2012. http://dx.doi.org/10.5200/stoprog.2012.21.

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The estimation of the multivariate skew t-distribution by the Monte-Carlo Markov Chain (MCMC) method is considered in the paper. Thus, the MCMC procedure is constructed for recurrent estimation of skew t-distribution, following the maximum likelihood method, where the Monte-Carlo sample size is regulated to ensure the convergence and to decrease the total amount of Monte-Carlo trials, required for estimation. The confidence intervals of Monte-Carlo estimators are introduced because of their asymptotic normality. The termination rule is also implemented by testing statistical hypotheses on an insignificant change of estimates in two steps of the procedure. The algorithm developed has been tested by computer simulation with test example. The test sample, following from skew t-distribution, has been simulated by computer and parameters of the skew t-distribution have been estimated by MathCAD. Next, the chi-squared criterion confirmed the hypothesis of distribution of statistics with respect to under- lying distribution function. Thus, computer simulation confirmed the applicability of the Monte-Carlo Markov chain approach with adaptively regulated sample size for estimation of parameters of the skew t- distribution with acceptable accuracy.
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Reinhardt, W., and X. Wang. "Analytical Limit Loads for Tube Sections With Circumferential Degradation." In ASME/JSME 2004 Pressure Vessels and Piping Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/pvp2004-2753.

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The fracture mechanics evaluation of tubes and pipes with circumferential degradation typically requires that the plastic limit load capacity be evaluated under a combination of axial force and bending moment loading. Most available analytical solutions are thin-wall approximations and may not work well for heavy-wall applications. The present paper derives an analytical limit load for a cylindrical pipe or tube with a partial circumferential, partial through-wall flaw and its bounding cases (through wall partial circumferential and uniform circumferential part-throughwall flaw). The solution is not in closed form, but can be easily solved with available mathematical software like MathCAD. The obtained limit loads for a steam generator tube are compared to those from simplified analytical solutions. The effect of tube supports on the limit load of a tube with non-axisymmetric flaw is discussed with a simplified model.
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Kitto, Kathleen L. "Integrating Microcomputer Applications Into Engineering Technology Programs." In ASME 1994 International Computers in Engineering Conference and Exhibition and the ASME 1994 8th Annual Database Symposium collocated with the ASME 1994 Design Technical Conferences. American Society of Mechanical Engineers, 1994. http://dx.doi.org/10.1115/cie1994-0484.

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Abstract Engineering students graduating today face a fast-paced, competitive marketplace where the push to reduce cycle times for product time-to-market, to reduce part count, part cost and assembly time and improve quality and reliability seems to increase almost daily. New Computer Aided Engineering (CAE) tools to help the engineering, design and manufacturing team accomplish these goals also seem to be introduced at a phenomenal rate. Considering the facts that CAE technology is advancing at such a rapid rate and that the global marketplace pressures are also expanding at a rapid rate, engineering educators today face the challenges of preparing their students for that global marketplace, integrating the new CAE tools and concurrent engineering into the curriculum and maintaining the integrity of the basic engineering and engineering technology programs. This paper describes the efforts in the Department of Engineering Technology at Western Washington University to integrate design, concurrent engineering and microcomputer applications into the manufacturing and plastics engineering technology programs. In their freshman year, students complete two courses in engineering graphics where solid modeling, traditional Computer Aided Design and Drafting (CAD), and sketching have largely replaced manual drafting courses In their sophomore year, all students are required to complete a microcomputer based course in CAE tools In that course, students learn basic tools such as operating systems (DOS®, Windows®, and UNIX®), spreadsheet programs (Excel®), symbolic equation solvers (Mathcad®) and technical document production (Word®) Other sophomore courses, such as Materials Science, Statics and Strength of Materials, require students to use those tools for homework and projects. In the junior year, students are introduced to applied finite element analysis (FEA) in machine design and Computer Numerical Control (CNC) machining in their CNC course In the senior year, students complete projects with all these tools and use more advanced FEA C-Mold®, a program to model injection molding processes, is also introduced and used in the senior year Students complete concurrent engineering design projects in the sophomore through senior year All the CAE tools at Western are microcomputer based (“486” based).
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Miller, Timothy F. "Graphical Spreadsheets as Convenient Tools for Turbomachinery Education." In ASME Turbo Expo 2001: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/2001-gt-0105.

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An unfortunate aspect of engineering education in general, and turbomachinery education in specific, has been the difficulty of incorporating the design aspect of instruction with the time-consuming components that make up theoretical instruction. The primary reason for this difficulty is the extremely limited time (typically three months) allocated to teach turbomachinery as a senior-level quarter or semester technical elective. It is desirable to develop an educational design tool that can be simultaneously exercised by a student to perform various design tasks and function as a means of theoretical instruction. Such a tool can permit the students both greater depth and breadth of exposure and may be subsequently used by the students in their future capacity as professional engineers. In this paper, this tool is illustrated by several applications of a commercial “graphical spreadsheet” software package (MathCAD, though others such as Mathmatica and Macsyma are appropriate as well). Some graphical spreadsheet design tools are presented, and these tools are applied to the analysis and design of a radial pump, centrifugal compressor, and radial-inflow turbine.
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10

Kihtenko, Sergey. "APPLICATION OF MATHCAD IN MODELING TASKS IN ASTRONOMY LESSONS." In CAD/EDA/SIMULATION IN MODERN ELECTRONICS 2019. Bryansk State Technical University, 2019. http://dx.doi.org/10.30987/conferencearticle_5e0282138a74d7.47345509.

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