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Design of a windows software for elastic field simulation: Application to visualization and animation of a rectangular piece in a projection with a load on the end

  • J. M. Martínez-Jiménez
  • P. Martínez-Jiménez
  • F. Zafra-López
  • E. Casado-Revuelta
Multimedia and Hypermedia in CAL
Part of the Lecture Notes in Computer Science book series (LNCS, volume 1108)

Abstract

In this work the design of a new software is presented whose aim is the tutorized and simulated study of the behaviour of a rectangular piece in a projection with a load on the end, as a prototype of the typical studies within the field of the theory of Elasticity. This application is targeted to the teaching of Engineering at University level.

The program which has been designed introduces features such as integration and interactivity, which allow the user to design in an attractive and enjoyable manner, the physical conditions of the elastic system to be studied.

The design also includes all the tasks of interest in just one program.

As a result, new environments have been designed using the windows method, and multimedia resources and animation have been introduced in order to illustrate the subject being studied.

Keywords

Simulation Tutorial Hypertext Elastic Fields Civil Engineering 

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Bibliography

  1. 1).
    Jonassen, D. H. (1991) “Objectivism versus constructivism. Do we need a new philosophical paradigm”, ETR & D, 39, 5–14.Google Scholar
  2. 2).
    Hernández, M. A.; Guerra, J.; Zamarro, J. M.; Martín, E. y Esguembre, F. “Desarrollo de unidades Didácticas en Física mediante el ordenador”. 5∘ Encuentro Ibérico para la enseñanza de la Física. Universidad de Santiago de Compostela, 77–78, B2–38 (1995).Google Scholar
  3. 3).
    P. Donelly, CIP 7, 647 (1993); CIP 8, 672 (1994).Google Scholar
  4. 4).
    Zamarro, J. M.; Hartel, H.; Martín, E.; Esguembre, F.; Hernádez, A. y Guerra, J. “Colos: Grupo europeo para el uso de la telemática en el proceso de aprendizaje”. 5∘ Encuentro Ibérico para la enseñanza de la Física. Universidad de Santiago de Compostela, 75–76, B–37 (1995).Google Scholar
  5. 5).
    ANSYS (Engineering Analysis System), ROBOT, CYPE,. etc.Google Scholar
  6. 6).
    Martínez-Jiménez, P.; Pedrós, G.; Posadillo, R. y León, J.. “Física simulada por ordenador”. Ed. Servicio de Publicaciones de la Universidad de Córdoba, España (1993).Google Scholar
  7. 7).
    Casado, E. “Interactive Simulation Laboratories for Mechanics Courses”. CAM 94, Physics Meeting, Cancum, Mexico, 1994.Google Scholar
  8. 8).
    Martínez-Jiménez, P.; León-Álvarez, J. y Pontes-Pedrajas, A.. “Simulación mediante ordenador de movimientos bidimensionales en medios resistentes”. Enseñanza de las Ciencias, 8, 157 (1990).Google Scholar
  9. 9).
    Martínez-Jiménez, P.; Casado, E.; Martínez-Jiménez, J. M.; González-Caballero, M. D.; Cuevas-Rubiño, M. y Zafra-López, F. “Integrator and Interactive Software Development of Physical Phenomena Simulation for Science and Technological University Education: INSIMU PROJECT”. Submitted to Computer in Physics.Google Scholar
  10. 10).
    Casado-Revuelta, E.; Martínez-Jiménez, P. et al. “Design of an Environment for Physical Phenomena Simulation: Application to visualization and animation of Electrostatic Field and Potential”. 28th Annual Simulation Symposium, Phoenix, Arizona, U.S.A., April 9–13, 1995. Proceeding IEEE.Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1996

Authors and Affiliations

  • J. M. Martínez-Jiménez
    • 1
    • 2
  • P. Martínez-Jiménez
    • 1
  • F. Zafra-López
    • 1
    • 2
  • E. Casado-Revuelta
    • 1
  1. 1.Dept. of Applied Physics, Radiology and Physical MedicineE. U. PolitécnicaCórdobaSpain
  2. 2.Mechanics of Continuous Medium DepartmentE. U. PolitécnicaCórdobaSpain

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