From Agents to Continuous Change via Aesthetics: Learning Mechanics with Visual Agentbased Computational Modeling
Abstract
Novice learners find motion as a continuous process of change challenging to understand. In this paper, we present a pedagogical approach based on agent-based, visual programming to address this issue. Integrating Logo programming with curricular science has been shown to be challenging in previous research on educational computing. We present a new Logo-based visual programming language - ViMAP - and, a sequence of learning activities involving programming and modeling, designed specifically to support seamless integration between programming and learning kinematics. We describe relevant affordances of the ViMAP environment that supports such seamless integration. We then present ViMAP-MoMo, a curricular unit designed in ViMAP for modeling kinematics, for a wide range of students (elementary - high school). The main contribution of this paper is that we describe in detail a sequence of learning activities in three phases, discuss the underlying rationale for each phase, and where relevant, report results in the form of observational data from two studies.
Cite
@article{arxiv.1305.2883,
title = {From Agents to Continuous Change via Aesthetics: Learning Mechanics with Visual Agentbased Computational Modeling},
author = {Pratim Sengupta and Amy Voss Farris and Mason Wright},
journal= {arXiv preprint arXiv:1305.2883},
year = {2013}
}