[3] M. Belloni, L. Cain, and W. Christian, “Using Physlets and Open Source Physics to
                 Make Quantum Mechanics Visual and Interactive,” Transformations: Liberal Arts in the
                 Digital Age Volume 2, No. 1 (2004).

                 [4] A. Szabo and N. Hastings, Using IT in the undergraduate classroom: should we
                 replace  the blackboard with  PowerPoint?,  Computers and Education  35, 175-187,
                 2000.

                 [5] R. Beichner, “The  Impact of Video Motion Analysis on Kinematics Graph
                 Interpretation Skills,” American Journal of Physics, 64, 1272-1277 (1997).

                 [6] W. Christian and M. Belloni, Physlets: Teaching Physics with Interactive Curricular
                 Material,  Prentice  Hall,  Upper   Saddle   River,  NJ,   2001.   See   also:
                 http://webphysics.davidson.edu/applets/applets.html.

                                                                                   ®
                 [7] M. H. Dancy, W. Christian, and M. Belloni, “Teaching with  Physlets : Examples
                 From Optics,” The Physics Teacher, 40, 40-45 (2002).

                 [8] A. J. Cox, M. Belloni, W. Christian, and M. H. Dancy, “Teaching Thermodynamics
                             ®
                 with Physlets  in Introductory Physics,” Physics Education, 38, 433-440 (2003).

                                                    ®
                 [9] W. Christian and M. Belloni, Physlet  Physics: Interactive Illustrations, Explorations,
                 and Problems for Introductory Physics, Prentice Hall, Upper Saddle River, NJ, 2004.

                 [10] M. Belloni, W. Christian, and Melissa Dancy, “Teaching Special Relativity Using
                 Physlets,” The Physics Teacher, 42, 284-290 (2004).

                 [11] D. N. Blauch, “Java  Classes for Managing  Chemical Information and Solving
                 Generalized Equilibrium  Problems,”  Journal  of Chemical Information and  Computer
                 Science, 42, 143-146 (2002).

                 [12] G. Novak, E. Patterson,  A. Gavrin, and  W.  Christian,  Just-in-Time Teaching:
                 Blending Active Learning with Web Technology, Prentice Hall, Upper Saddle River, NJ,
                 1999.

                 [13] E. Mazur, Peer Instruction: A Users Manual, Prentice Hall, Upper Saddle River,
                 NJ, 1997.

                 [14] T. O’Kuma, D. Maloney, and C. Hieggelke,  Ranking Task Exercises in Physics,
                 Prentice Hall, Upper Saddle River, NJ, 2000.

                 [15] L. McDermott and  P. Schaffer and the Physics Education Group,  Tutorials in
                 Introductory Physics, Prentice Hall, Upper Saddle River, NJ, 2001.

                 [16] R. Hake, “Interactive-engagement vs. Traditional Methods: A Six-thousand-student
                 Survey of Mechanics Test Data for Introductory Physics,” American Journal of Physics,
                 66, 64 (1998).

                 [17] D. Sokoloff and R. Thornton, “Using Interactive Lecture Demonstrations to Create
                 an Active Learning Environment,” The Physics Teacher, 35, 340 (1997).

                 [18] B. Thacker, “Comparing Problem Solving Performance of Physics Students in
                 Inquiry-based and Traditional Introductory Courses,” American Journal of Physics, 62,
                 627 (1994).

                 [19] Francisco Esquembre, Ernesto Martín, Wolfgang Christian y Mario Belloni, Fislets:
                 Enseñanza de la Física con Material Interactivo, Prentice-Hall, España, 2004.