Numerical methods and analysis for linear and nonlinear PDEs with applications from heat conduction, wave propagation, solid and fluid mechanics, and other areas. Basic concepts of stability and convergence (such as Lax equivalence theorem, CFL condition, GKS stability theory, energy methods). Methods for parabolic problems (finite differences, method of lines, ADI, operator splitting), methods for hyperbolic problems (vector systems and characteristics, dissipation and dispersion, shock capturing and tracking schemes), methods for elliptic problems (finite difference and finite volume methods).
Spring | Summer | Fall | ||
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(Session 1) | (Session 2) | |||
2023 |
Numerical Solutions Of P (4c)
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2022 |
Numerical Solutions Of P (4c)
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2021 |
Numerical Solutions Of P (4c)
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2020 |
Numerical Solutions Of P (4c)
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2019 |
Numerical Solutions Of P (4c)
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2018 |
Numerical Solutions Of P (4c)
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2017 | ||||
2016 | ||||
2015 |
Numerical Solutions Of P (4c)
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2014 | ||||
2013 |
Numerical Solutions Of P (4c)
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2012 | ||||
2011 |
Numerical Solutions Of P (4c)
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2010 | ||||
2009 |
Numerical Solutions Of P (4c)
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2008 | ||||
2007 |
Numerical Solutions Of P (4c)
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2006 | ||||
2005 |
Numerical Solutions Of Part. (4c)
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2004 | ||||
2003 |
Numerical Solutions Of P (4c)
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2002 | ||||
2001 |
Numerical Solutions Of P (4c)
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2000 | ||||
1999 |
Num Solutions Of Pdes (4c)
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1998 |