Citas bibligráficas
Antezana, A., (2024). Génesis instrumental vinculado al uso de GeoGebra en el estudio de sucesiones geométricas por estudiantes universitarios [Pontificia Universidad Católica del Perú]. http://hdl.handle.net/20.500.12404/27159
Antezana, A., Génesis instrumental vinculado al uso de GeoGebra en el estudio de sucesiones geométricas por estudiantes universitarios []. PE: Pontificia Universidad Católica del Perú; 2024. http://hdl.handle.net/20.500.12404/27159
@mastersthesis{renati/529045,
title = "Génesis instrumental vinculado al uso de GeoGebra en el estudio de sucesiones geométricas por estudiantes universitarios",
author = "Antezana Elorrieta, Angel Estuard",
publisher = "Pontificia Universidad Católica del Perú",
year = "2024"
}
The review of the literature focused on the notion of geometric sequence allows us to identify the predominance of the algebraic field when approaching this notion, thereby relegating the use of digital technologies in the teaching-learning process of students that could possibly generate more complete learning. It is, in this sense, that this research is carried out, which aims to analyse how the process of instrumental genesis linked to the use of GeoGebra is produced when developing an activity on geometric sequences with university students. For the analysis, aspects of the Instrumental Approach are taken into account as theoretical support and a qualitative methodology is used, which allows us to analyse and describe the mathematical knowledge mobilised by the student when solving a task, mediated by a dynamic representation environment such as GeoGebra, as well as to interpret the actions performed by the student with this software. As part of the methodological process, a set of phases is considered, ranging from the statement of the problem to the conclusions of the study, and recommendations for future research are also provided. It can be affirmed, from the results of the activity sequence, that the research subject used a set of GeoGebra tools that allowed him to mobilise different mathematical notions, such as polygons, areas, midpoints, functions, among others, enhancing the properties of the software and transforming it into an instrument to characterise the notion of geometric succession. The study concludes the importance of the use of the dynamic geometry environment such as GeoGebra, as a complement to the algorithmic and analytical processes of Mathematics Education, providing a more complete learning by connecting the different representations of the concept studied simultaneously.
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