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The object aim of this experimental study was to investigate the effect of dynamic
geometry software (GeoGebra) on Grade-12 students’ mathematical thinking and
mathematical achievement in analytic geometry. In the widespread of mathematical
thinking aspects, six aspects: Generalization, Analytical thinking, Logical thinking,
Abstract thinking, Problem solving and Representation thinking were included, while,
mathematical achievement was simply procedural knowledge. A true experimental design
(post-test equivalent group design) was used. And the four major objectives of this study
were selected as: (i) to develop the mathematical thinking model of six aspects for analytic
geometry; (ii) the criterion-test (post-test) under the constraint of this model; (iii) to find
out the effect of GeoGebra aided instructions on grade-12 students’ mathematical thinking
and mathematical achievement in the subject of analytic geometry; and (iv) to explore the
effectiveness of GeoGebra aided instructions on high and low achievers students. Before
experiment, the post-test was piloted; the item analysis along with reliability of the whole
post-test was found. For experiment, about twenty-two lessons of GeoGebra, relevant to
analytic geometry were designed in a well-constructed way. In comparison to the control
group, the experimental group was taught through GeoGebra in the well-equipped
computer lab. While, to assess the students’ responses, the criterion referenced test (posttest)
was used. After experiment, the data were collected from the post-test and were
analyzed through SPSS. The t-test, ANOVA and MANOVA tests were used to find out the
significant difference between the various groups of experimental and control groups.
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The main study findings showed that there were statistically significant
differences between the mathematical thinking and mathematical achievement scores of
the two groups. In the result, the experimental group developed significantly better in
both mathematical thinking and mathematical achievement except in mathematical
achievement for high achievers. In multiple comparison, in five aspects of mathematical
thinking: Generalization, Analytical thinking, Logical thinking, Abstract thinking and
Representation thinking out of six, the experimental group students performed
significantly better. The only aspect problem solving, the mean score of the experimental
group improved but with no statistical significance. |
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