Verfügbarkeit: COMSOL5 for engineers /

COMSOL5 for engineers /:

This updated edition covers COMSOL5 which now includes a revolutionary tool, the Application Builder. This component enables users to build apps based on COMSOL models that can be run on almost any operating system (Windows, MAC, mobile/iOS, etc.). Designed for engineers from various disciplines, th...

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1. Verfasser:	Tabatabaian, Mehrzad (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Dulles, Virginia : Mercury Learning and Information, [2016]
Schlagworte:	COMSOL Multiphysics. COMSOL Multiphysics Engineering > Data processing. Engineering > Mathematical models. Engineering > Computer simulation. Physics > Data processing. Physics > Mathematical models. Physics > Computer simulation. Ingénierie > Informatique. Ingénierie > Modèles mathématiques. Ingénierie > Simulation par ordinateur. Physique > Informatique. Physique > Modèles mathématiques. Physique > Simulation par ordinateur. TECHNOLOGY & ENGINEERING > Engineering (General) TECHNOLOGY & ENGINEERING > Reference. Physics > Mathematical models Physics > Data processing Physics > Computer simulation Engineering > Mathematical models Engineering > Data processing Engineering > Computer simulation Engineering > Computer programs Electronic book.
Online-Zugang:	Volltext
Zusammenfassung:	This updated edition covers COMSOL5 which now includes a revolutionary tool, the Application Builder. This component enables users to build apps based on COMSOL models that can be run on almost any operating system (Windows, MAC, mobile/iOS, etc.). Designed for engineers from various disciplines, the book introduces multiphysics modeling techniques and examples accompanied by practical applications using COMSOL5.x. The book provides a collection of examples and modeling guidelines through which readers can build their own models. Features: expands the Finite Element Method (FEM) theory and adds more examples from the original edition; outlines the new features in COMSOL5, the graphical user interface (GUI), and how to build a COMSOL app for models; and includes apps for selected model examples-with parameterization of these models. Features new and modified, solved model examples, in addition to the models provided in the original edition. --
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781942270454 1942270453 9781680159707 1680159704 9781942270447 1942270445

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520			\|a This updated edition covers COMSOL5 which now includes a revolutionary tool, the Application Builder. This component enables users to build apps based on COMSOL models that can be run on almost any operating system (Windows, MAC, mobile/iOS, etc.). Designed for engineers from various disciplines, the book introduces multiphysics modeling techniques and examples accompanied by practical applications using COMSOL5.x. The book provides a collection of examples and modeling guidelines through which readers can build their own models. Features: expands the Finite Element Method (FEM) theory and adds more examples from the original edition; outlines the new features in COMSOL5, the graphical user interface (GUI), and how to build a COMSOL app for models; and includes apps for selected model examples-with parameterization of these models. Features new and modified, solved model examples, in addition to the models provided in the original edition. -- \|c Edited summary from book.
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505	0		\|a Ch. 1 Introduction to Finite Element Method -- Overview and Introduction -- FEM Background -- The Ritz Method -- Example 1.1 Ritz method application-displacement of a cantilever beam -- FEM Formulation -- Matrix Approach -- Example 1.2 Analysis of a 2D truss -- General Procedure for Global Matrix Assembly -- Example 1.3 Global matrix for triangular elements -- Weighted Residual Approach -- Galerkin Method -- Shape Functions -- Convergence and Stability -- Example 1.4 Heat transfer in a slender steel bar -- Exercises -- ch. 2 COMSOL 5 and Application Builder -- Overview -- COMSOL 5 Desktop Interface -- COMSOL 5 Modules -- COMSOL 5 Model and Application Libraries and Tutorials -- Application Builder and COMSOL Server[™] -- Example 2.1 Building an app for Andrew's squeezing mechanism -- General Guidelines for Building a Model with COMSOL -- ch. 3 Model Examples for Flexible Structures, Parts, and Assembly -- Example 3.1 Stress analysis for a thin plate under stationary loads -- Example 3.2 Dynamic analysis for a thin plate: Eigenvalues and modal shapes -- Example 3.3 Parametric study for a bracket assembly: 3D stress analysis -- Example 3.4 Buckling of a column with triangular cross section: Linearized buckling analysis -- Example 3.5 Static and dynamic analysis for a 2D bridge-support truss -- Example 3.6 Static and dynamic analysis for a 3D truss tower -- ch. 4 Model Examples for Internal Fluid Flows: Steady and Transient -- Example 4.1 Axisymmetric flow in a nozzle: Simplified water-jet -- Example 4.2 Swirl flow around a rotating disk: Laminar flow -- Example 4.3 Swirl flow around a rotating disk: Turbulent flow -- Example 4.4 Flow in a U-shape pipe with square cross-sectional area: Laminar flow -- Example 4.5 Double-driven cavity flow: Moving boundary conditions -- Example 4.6 Water Hammer model: Transient flow analysis -- Example 4.7 Static fluid mixer model -- ch. 5 Model Examples for Heat Transfer in Media: Steady and Transient -- Example 5.1 Heat transfer in a multilayer sphere -- Example 5.2 Heat transfer in a hexagonal fin -- Example 5.3 Transient heat transfer through a nonprismatic fin with convective cooling -- Example 5.4 Heat conduction through a multilayer wall with contact resistance -- ch. 6 Model Examples for Electrical Circuits and Generator -- Example 6.1 Modeling an RC electrical circuit -- Example 6.2 Modeling an RLC electrical circuit -- Example 6.3 Modeling a permanent magnet generator -- ch. 7 Model Examples for Complex-Multiphysics Systems -- Example 7.1 Stress analysis for an orthotropic thin plate -- Example 7.2 Thermal stress analysis and transient response of a bracket -- Example 7.3 Static fluid mixer with flexible baffles -- Example 7.4 Double pendulum motion: Multibody dynamics -- Example 7.5 Multiphysics model for thermoelectric modules -- Example 7.6 Acoustic pressure wave propagation in an automotive muffler -- Example 7.7 Viscous fluid damper with conjugate heat transfer.
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contents	Ch. 1 Introduction to Finite Element Method -- Overview and Introduction -- FEM Background -- The Ritz Method -- Example 1.1 Ritz method application-displacement of a cantilever beam -- FEM Formulation -- Matrix Approach -- Example 1.2 Analysis of a 2D truss -- General Procedure for Global Matrix Assembly -- Example 1.3 Global matrix for triangular elements -- Weighted Residual Approach -- Galerkin Method -- Shape Functions -- Convergence and Stability -- Example 1.4 Heat transfer in a slender steel bar -- Exercises -- ch. 2 COMSOL 5 and Application Builder -- Overview -- COMSOL 5 Desktop Interface -- COMSOL 5 Modules -- COMSOL 5 Model and Application Libraries and Tutorials -- Application Builder and COMSOL Server[™] -- Example 2.1 Building an app for Andrew's squeezing mechanism -- General Guidelines for Building a Model with COMSOL -- ch. 3 Model Examples for Flexible Structures, Parts, and Assembly -- Example 3.1 Stress analysis for a thin plate under stationary loads -- Example 3.2 Dynamic analysis for a thin plate: Eigenvalues and modal shapes -- Example 3.3 Parametric study for a bracket assembly: 3D stress analysis -- Example 3.4 Buckling of a column with triangular cross section: Linearized buckling analysis -- Example 3.5 Static and dynamic analysis for a 2D bridge-support truss -- Example 3.6 Static and dynamic analysis for a 3D truss tower -- ch. 4 Model Examples for Internal Fluid Flows: Steady and Transient -- Example 4.1 Axisymmetric flow in a nozzle: Simplified water-jet -- Example 4.2 Swirl flow around a rotating disk: Laminar flow -- Example 4.3 Swirl flow around a rotating disk: Turbulent flow -- Example 4.4 Flow in a U-shape pipe with square cross-sectional area: Laminar flow -- Example 4.5 Double-driven cavity flow: Moving boundary conditions -- Example 4.6 Water Hammer model: Transient flow analysis -- Example 4.7 Static fluid mixer model -- ch. 5 Model Examples for Heat Transfer in Media: Steady and Transient -- Example 5.1 Heat transfer in a multilayer sphere -- Example 5.2 Heat transfer in a hexagonal fin -- Example 5.3 Transient heat transfer through a nonprismatic fin with convective cooling -- Example 5.4 Heat conduction through a multilayer wall with contact resistance -- ch. 6 Model Examples for Electrical Circuits and Generator -- Example 6.1 Modeling an RC electrical circuit -- Example 6.2 Modeling an RLC electrical circuit -- Example 6.3 Modeling a permanent magnet generator -- ch. 7 Model Examples for Complex-Multiphysics Systems -- Example 7.1 Stress analysis for an orthotropic thin plate -- Example 7.2 Thermal stress analysis and transient response of a bracket -- Example 7.3 Static fluid mixer with flexible baffles -- Example 7.4 Double pendulum motion: Multibody dynamics -- Example 7.5 Multiphysics model for thermoelectric modules -- Example 7.6 Acoustic pressure wave propagation in an automotive muffler -- Example 7.7 Viscous fluid damper with conjugate heat transfer.
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-- COMSOL 5 Model and Application Libraries and Tutorials -- Application Builder and COMSOL Server[™] -- Example 2.1 Building an app for Andrew's squeezing mechanism -- General Guidelines for Building a Model with COMSOL -- ch. 3 Model Examples for Flexible Structures, Parts, and Assembly -- Example 3.1 Stress analysis for a thin plate under stationary loads -- Example 3.2 Dynamic analysis for a thin plate: Eigenvalues and modal shapes -- Example 3.3 Parametric study for a bracket assembly: 3D stress analysis -- Example 3.4 Buckling of a column with triangular cross section: Linearized buckling analysis -- Example 3.5 Static and dynamic analysis for a 2D bridge-support truss -- Example 3.6 Static and dynamic analysis for a 3D truss tower -- ch. 4 Model Examples for Internal Fluid Flows: Steady and Transient -- Example 4.1 Axisymmetric flow in a nozzle: Simplified water-jet -- Example 4.2 Swirl flow around a rotating disk: Laminar flow -- Example 4.3 Swirl flow around a rotating disk: 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spelling	Tabatabaian, Mehrzad, author. http://id.loc.gov/authorities/names/n2014042443 COMSOL5 for engineers / Mehrzad Tabatabaian, PhD, PEng. Dulles, Virginia : Mercury Learning and Information, [2016] ©2016 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Online resource; title from title screen (Books24x7.com, viewed November 30, 2015). This updated edition covers COMSOL5 which now includes a revolutionary tool, the Application Builder. This component enables users to build apps based on COMSOL models that can be run on almost any operating system (Windows, MAC, mobile/iOS, etc.). Designed for engineers from various disciplines, the book introduces multiphysics modeling techniques and examples accompanied by practical applications using COMSOL5.x. The book provides a collection of examples and modeling guidelines through which readers can build their own models. Features: expands the Finite Element Method (FEM) theory and adds more examples from the original edition; outlines the new features in COMSOL5, the graphical user interface (GUI), and how to build a COMSOL app for models; and includes apps for selected model examples-with parameterization of these models. Features new and modified, solved model examples, in addition to the models provided in the original edition. -- Edited summary from book. Includes bibliographical references and index. Ch. 1 Introduction to Finite Element Method -- Overview and Introduction -- FEM Background -- The Ritz Method -- Example 1.1 Ritz method application-displacement of a cantilever beam -- FEM Formulation -- Matrix Approach -- Example 1.2 Analysis of a 2D truss -- General Procedure for Global Matrix Assembly -- Example 1.3 Global matrix for triangular elements -- Weighted Residual Approach -- Galerkin Method -- Shape Functions -- Convergence and Stability -- Example 1.4 Heat transfer in a slender steel bar -- Exercises -- ch. 2 COMSOL 5 and Application Builder -- Overview -- COMSOL 5 Desktop Interface -- COMSOL 5 Modules -- COMSOL 5 Model and Application Libraries and Tutorials -- Application Builder and COMSOL Server[™] -- Example 2.1 Building an app for Andrew's squeezing mechanism -- General Guidelines for Building a Model with COMSOL -- ch. 3 Model Examples for Flexible Structures, Parts, and Assembly -- Example 3.1 Stress analysis for a thin plate under stationary loads -- Example 3.2 Dynamic analysis for a thin plate: Eigenvalues and modal shapes -- Example 3.3 Parametric study for a bracket assembly: 3D stress analysis -- Example 3.4 Buckling of a column with triangular cross section: Linearized buckling analysis -- Example 3.5 Static and dynamic analysis for a 2D bridge-support truss -- Example 3.6 Static and dynamic analysis for a 3D truss tower -- ch. 4 Model Examples for Internal Fluid Flows: Steady and Transient -- Example 4.1 Axisymmetric flow in a nozzle: Simplified water-jet -- Example 4.2 Swirl flow around a rotating disk: Laminar flow -- Example 4.3 Swirl flow around a rotating disk: Turbulent flow -- Example 4.4 Flow in a U-shape pipe with square cross-sectional area: Laminar flow -- Example 4.5 Double-driven cavity flow: Moving boundary conditions -- Example 4.6 Water Hammer model: Transient flow analysis -- Example 4.7 Static fluid mixer model -- ch. 5 Model Examples for Heat Transfer in Media: Steady and Transient -- Example 5.1 Heat transfer in a multilayer sphere -- Example 5.2 Heat transfer in a hexagonal fin -- Example 5.3 Transient heat transfer through a nonprismatic fin with convective cooling -- Example 5.4 Heat conduction through a multilayer wall with contact resistance -- ch. 6 Model Examples for Electrical Circuits and Generator -- Example 6.1 Modeling an RC electrical circuit -- Example 6.2 Modeling an RLC electrical circuit -- Example 6.3 Modeling a permanent magnet generator -- ch. 7 Model Examples for Complex-Multiphysics Systems -- Example 7.1 Stress analysis for an orthotropic thin plate -- Example 7.2 Thermal stress analysis and transient response of a bracket -- Example 7.3 Static fluid mixer with flexible baffles -- Example 7.4 Double pendulum motion: Multibody dynamics -- Example 7.5 Multiphysics model for thermoelectric modules -- Example 7.6 Acoustic pressure wave propagation in an automotive muffler -- Example 7.7 Viscous fluid damper with conjugate heat transfer. COMSOL Multiphysics. http://id.loc.gov/authorities/names/n2009055328 COMSOL Multiphysics fast Engineering Data processing. http://id.loc.gov/authorities/subjects/sh85043180 Engineering Mathematical models. Engineering Computer simulation. Physics Data processing. Physics Mathematical models. Physics Computer simulation. Ingénierie Informatique. Ingénierie Modèles mathématiques. Ingénierie Simulation par ordinateur. Physique Informatique. Physique Modèles mathématiques. Physique Simulation par ordinateur. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Physics Mathematical models fast Physics Data processing fast Physics Computer simulation fast Engineering Mathematical models fast Engineering Data processing fast Engineering Computer simulation fast Engineering Computer programs fast Electronic book. has work: COMSOL5 for engineers (Text) https://id.oclc.org/worldcat/entity/E39PCGBFbJrcvKD6m7tgGbDdDC https://id.oclc.org/worldcat/ontology/hasWork Print version: Tabatabaian, Mehrzad. COMSOL 5 for engineers. Dulles, Virginia : Mercury Learning and Information [2016] 9781942270423 (DLC) 2015944869 (OCoLC)908375637 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1809116 Volltext
spellingShingle	Tabatabaian, Mehrzad COMSOL5 for engineers / Ch. 1 Introduction to Finite Element Method -- Overview and Introduction -- FEM Background -- The Ritz Method -- Example 1.1 Ritz method application-displacement of a cantilever beam -- FEM Formulation -- Matrix Approach -- Example 1.2 Analysis of a 2D truss -- General Procedure for Global Matrix Assembly -- Example 1.3 Global matrix for triangular elements -- Weighted Residual Approach -- Galerkin Method -- Shape Functions -- Convergence and Stability -- Example 1.4 Heat transfer in a slender steel bar -- Exercises -- ch. 2 COMSOL 5 and Application Builder -- Overview -- COMSOL 5 Desktop Interface -- COMSOL 5 Modules -- COMSOL 5 Model and Application Libraries and Tutorials -- Application Builder and COMSOL Server[™] -- Example 2.1 Building an app for Andrew's squeezing mechanism -- General Guidelines for Building a Model with COMSOL -- ch. 3 Model Examples for Flexible Structures, Parts, and Assembly -- Example 3.1 Stress analysis for a thin plate under stationary loads -- Example 3.2 Dynamic analysis for a thin plate: Eigenvalues and modal shapes -- Example 3.3 Parametric study for a bracket assembly: 3D stress analysis -- Example 3.4 Buckling of a column with triangular cross section: Linearized buckling analysis -- Example 3.5 Static and dynamic analysis for a 2D bridge-support truss -- Example 3.6 Static and dynamic analysis for a 3D truss tower -- ch. 4 Model Examples for Internal Fluid Flows: Steady and Transient -- Example 4.1 Axisymmetric flow in a nozzle: Simplified water-jet -- Example 4.2 Swirl flow around a rotating disk: Laminar flow -- Example 4.3 Swirl flow around a rotating disk: Turbulent flow -- Example 4.4 Flow in a U-shape pipe with square cross-sectional area: Laminar flow -- Example 4.5 Double-driven cavity flow: Moving boundary conditions -- Example 4.6 Water Hammer model: Transient flow analysis -- Example 4.7 Static fluid mixer model -- ch. 5 Model Examples for Heat Transfer in Media: Steady and Transient -- Example 5.1 Heat transfer in a multilayer sphere -- Example 5.2 Heat transfer in a hexagonal fin -- Example 5.3 Transient heat transfer through a nonprismatic fin with convective cooling -- Example 5.4 Heat conduction through a multilayer wall with contact resistance -- ch. 6 Model Examples for Electrical Circuits and Generator -- Example 6.1 Modeling an RC electrical circuit -- Example 6.2 Modeling an RLC electrical circuit -- Example 6.3 Modeling a permanent magnet generator -- ch. 7 Model Examples for Complex-Multiphysics Systems -- Example 7.1 Stress analysis for an orthotropic thin plate -- Example 7.2 Thermal stress analysis and transient response of a bracket -- Example 7.3 Static fluid mixer with flexible baffles -- Example 7.4 Double pendulum motion: Multibody dynamics -- Example 7.5 Multiphysics model for thermoelectric modules -- Example 7.6 Acoustic pressure wave propagation in an automotive muffler -- Example 7.7 Viscous fluid damper with conjugate heat transfer. COMSOL Multiphysics. http://id.loc.gov/authorities/names/n2009055328 COMSOL Multiphysics fast Engineering Data processing. http://id.loc.gov/authorities/subjects/sh85043180 Engineering Mathematical models. Engineering Computer simulation. Physics Data processing. Physics Mathematical models. Physics Computer simulation. Ingénierie Informatique. Ingénierie Modèles mathématiques. Ingénierie Simulation par ordinateur. Physique Informatique. Physique Modèles mathématiques. Physique Simulation par ordinateur. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Physics Mathematical models fast Physics Data processing fast Physics Computer simulation fast Engineering Mathematical models fast Engineering Data processing fast Engineering Computer simulation fast Engineering Computer programs fast
subject_GND	http://id.loc.gov/authorities/names/n2009055328 http://id.loc.gov/authorities/subjects/sh85043180
title	COMSOL5 for engineers /
title_auth	COMSOL5 for engineers /
title_exact_search	COMSOL5 for engineers /
title_full	COMSOL5 for engineers / Mehrzad Tabatabaian, PhD, PEng.
title_fullStr	COMSOL5 for engineers / Mehrzad Tabatabaian, PhD, PEng.
title_full_unstemmed	COMSOL5 for engineers / Mehrzad Tabatabaian, PhD, PEng.
title_short	COMSOL5 for engineers /
title_sort	comsol5 for engineers
topic	COMSOL Multiphysics. http://id.loc.gov/authorities/names/n2009055328 COMSOL Multiphysics fast Engineering Data processing. http://id.loc.gov/authorities/subjects/sh85043180 Engineering Mathematical models. Engineering Computer simulation. Physics Data processing. Physics Mathematical models. Physics Computer simulation. Ingénierie Informatique. Ingénierie Modèles mathématiques. Ingénierie Simulation par ordinateur. Physique Informatique. Physique Modèles mathématiques. Physique Simulation par ordinateur. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Physics Mathematical models fast Physics Data processing fast Physics Computer simulation fast Engineering Mathematical models fast Engineering Data processing fast Engineering Computer simulation fast Engineering Computer programs fast
topic_facet	COMSOL Multiphysics. COMSOL Multiphysics Engineering Data processing. Engineering Mathematical models. Engineering Computer simulation. Physics Data processing. Physics Mathematical models. Physics Computer simulation. Ingénierie Informatique. Ingénierie Modèles mathématiques. Ingénierie Simulation par ordinateur. Physique Informatique. Physique Modèles mathématiques. Physique Simulation par ordinateur. TECHNOLOGY & ENGINEERING Engineering (General) TECHNOLOGY & ENGINEERING Reference. Physics Mathematical models Physics Data processing Physics Computer simulation Engineering Mathematical models Engineering Data processing Engineering Computer simulation Engineering Computer programs Electronic book.
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