SCHOL
The goal of SCHOL was to enhance the undergraduate math curriculum by introducing mathematical software into undergraduate courses in a meaningful way. The project began in 1992 with the introduction of Mathematica into the sophomore level Ordinary Differential Equations course. Since then, the project has resulted in supplementary textbooks, which enrich the sophomore ODE course by using one of Mathematica, Maple, or MATLAB. These were published by John Wiley and Sons, Inc. SCHOL has also produced general purpose Mathematica and MATLAB primers, published by Cambridge University Press.
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References in zbMATH (referenced in 13 articles )
Showing results 1 to 13 of 13.
Sorted by year (- Konguetsof, A.: A hybrid method with phase-lag and derivatives equal to zero for the numerical integration of the Schrödinger equation (2011)
- Konguetsof, A.: Two-step high order hybrid explicit method for the numerical solution of the Schrödinger equation (2010)
- Konguetsof, A.: A new two-step hybrid method for the numerical solution of the Schrödinger equation (2010)
- Simos, T.E.: Exponentially and trigonometrically fitted methods for the solution of the Schrödinger equation (2010)
- Anastassi, Z.A.; Vlachos, D.S.; Simos, T.E.: A family of Runge-Kutta methods with zero phase-lag and derivatives for the numerical solution of the Schrödinger equation and related problems (2009)
- Anastassi, Z.A.; Vlachos, D.S.; Simos, T.E.: A new methodology for the development of numerical methods for the numerical solution of the Schrödinger equation (2009)
- Anastassi, Z.A.; Vlachos, D.S.; Simos, T.E.: A new methodology for the construction of numerical methods for the approximate solution of the Schrödinger equation (2009)
- Panopoulos, G.A.; Anastassi, Z.A.; Simos, T.E.: Two optimized symmetric eight-step implicit methods for initial-value problems with oscillating solutions (2009)
- Simos, T.E.: A new Numerov-type method for the numerical solution of the Schrödinger equation (2009)
- Vlachos, D.S.; Anastassi, Z.A.; Simos, T.E.: High order phase fitted multistep integrators for the Schrödinger equation with improved frequency tolerance (2009)
- Vlachos, D.S.; Anastassi, Z.A.; Simos, T.E.: High order multistep methods with improved phase-lag characteristics for the integration of the Schrödinger equation (2009)
- Komjáth, P.: An uncountably chromatic triple system (2008)
- Lispman, Ronald L.; Osborn, John E.; Rosenberg, Jonathan M.: The SCHOL project at the university of Maryland: using mathematical software in the teaching of sophomore differential equations (2008)