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Thu May 30 21:23:55 UTC 2024

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courses/ADMN-6600.html
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<li>Constance M Grega</li>
</ul>
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Seats Taken: 513/700
Seats Taken: 514/700
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courses/ARTS-2230.html
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<li>Benjamin Chia-Ming Chang</li>
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Seats Taken: 23/19
Seats Taken: 22/19
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courses/ASTR-2960.html
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<li>Julian S. Georg</li>
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Seats Taken: 35/40
Seats Taken: 36/40
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courses/CHME-2050.html
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<li>Nihat Baysal</li>
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Seats Taken: 20/30
Seats Taken: 19/30
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courses/COGS-6968.html
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<li>Ron Sun</li>
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Seats Taken: 16/80
Seats Taken: 17/80
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courses/COGS-9990.html
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<li>Wayne D. Gray</li>
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Seats Taken: 6/98
Seats Taken: 7/98
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courses/CSCI-2600.html
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<li>Konstantin Kuzmin</li>
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Seats Taken: 111/200
Seats Taken: 112/200
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courses/CSCI-4210.html
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<li>David Eric Goldschmidt</li>
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Seats Taken: 259/300
Seats Taken: 258/300
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courses/CSCI-4963.html
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<li>Konstantin Kuzmin</li>
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Seats Taken: 50/50
Seats Taken: 51/50
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courses/MANE-4400.html
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</p>
<div id="cattrs-container">
<span id="credits-pill" class="attr-pill">
4 credits
3 credits
</span>
</div>
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<td class="term fall offered">
<div class="view-container detail-view-container">
<span class="term-course-info">
<a href="https://sis.rpi.edu/rss/bwckctlg.p_disp_listcrse?term_in=202409&subj_in=MANE&crse_in=4400&schd_in=">Nuclear Power Syst Engr (4c)</a>
<a href="https://sis.rpi.edu/rss/bwckctlg.p_disp_listcrse?term_in=202409&subj_in=MANE&crse_in=4400&schd_in=">Nuclear Power Syst Engr (3c)</a>
</span>
<ul class="prof-list">
<li>Shanbin Shi</li>

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courses/MANE-6660.html
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MANE-6660: Finite Elements Method
</title>
<meta property="og:title" content="MANE-6660: Finite Elements Method">
<meta property="og:description" content="Graduate-level course on the fundamental concepts and technologies underlying finite element methods for the numerical solution of continuum problems. The course emphasizes the construction of integral weak forms for elliptic partial differential equations and the construction of the elemental level matrices using multi-dimensional shape functions, element level mappings, and numerical integration. The basic convergence properties of the finite element method will be given. This course serves as preparation for students working on finite element methods.">
<meta property="og:description" content="This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.">
<link rel="stylesheet" href="../css/common.css">
<link rel="stylesheet" href="../css/coursedisplay.css">
<link rel="stylesheet" href="../css/themes.css">
@ -34,7 +34,7 @@
MANE-6660
</h2>
<p>
Graduate-level course on the fundamental concepts and technologies underlying finite element methods for the numerical solution of continuum problems. The course emphasizes the construction of integral weak forms for elliptic partial differential equations and the construction of the elemental level matrices using multi-dimensional shape functions, element level mappings, and numerical integration. The basic convergence properties of the finite element method will be given. This course serves as preparation for students working on finite element methods.
This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.
</p>
<div id="cattrs-container">
<span id="credits-pill" class="attr-pill">

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courses/MATH-4100.html
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<li>Chjan C Lim</li>
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Seats Taken: 48/80
Seats Taken: 47/80
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courses/MATH-4300.html
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<li>Belmiro Galo da Silva</li>
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Seats Taken: 52/60
Seats Taken: 51/60
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courses/PSYC-4370.html
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<li>Christopher Robert Sims</li>
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Seats Taken: 57/80
Seats Taken: 58/80
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json/searchable_catalog.json
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{
"attributes" : null,
"code" : "MANE-4400",
"credits" : "4 credits",
"credits" : "3 credits",
"description" : "Application of thermodynamics, heat transfer, and fluid flow principles to nuclear energy generation systems, including nuclear reactors, nuclear fusion devices and systems, and radiation technology. Engineering aspects of 1st and 2nd Laws of Thermodynamics will be emphasized. Characteristics and safety aspects of nuclear power equipment will be discussed.",
"name" : "Nuclear Power Syst Engr"
},
@ -31521,7 +31521,7 @@
"attributes" : null,
"code" : "MANE-6660",
"credits" : "3 credits",
"description" : "Graduate-level course on the fundamental concepts and technologies underlying finite element methods for the numerical solution of continuum problems. The course emphasizes the construction of integral weak forms for elliptic partial differential equations and the construction of the elemental level matrices using multi-dimensional shape functions, element level mappings, and numerical integration. The basic convergence properties of the finite element method will be given. This course serves as preparation for students working on finite element methods.",
"description" : "This course introduces the methods upon which finite element software is built. Methods covered include construction of weak forms, discretization of the weak forms, the local/global linkage, construction of element shape functions, element mapping and numerical integration. The course will also cover the application of finite elements methods employing software tools. This will include open-source tools for the efficient implementation of finite elements and commercial software commonly applied in industry.",
"name" : "Finite Elements Method"
},
{