Abstract
In the study, the correlations between visual mathematics literacy perceptions, reasoning skills on geometrical shapes and geometrical performances of pre-service mathematics teachers were investigated. The study participants included 384 pre-service mathematics teachers, who were attending education departments in two universities located in Eastern and Southeastern Anatolia regions in Turkey. In the study, due to time and workforce limitations, convenience sampling method was preferred, and relational screening model was adopted. The study data was collected with visual mathematics literacy perception scale, reasoning skills on geometric shapes and geometry performance tests developed by the authors. Analysis of the correlation between the variables demonstrated that there was a moderate correlation between visual mathematics literacy perception and both the reasoning skills on geometrical shapes and the geometry performance, and there was a high correlation between the reasoning skills on geometric shapes and geometry performance. Primary model path analysis demonstrated that visual mathematics literacy perception had a moderate effect on reasoning skills on geometrical shapes and geometry performance. It was also determined that reasoning skills on geometric shapes had a strong effect on geometry performance. The findings of the path analysis conducted on the sub-dimensions revealed that all sub-dimensions had a moderate positive effect on reasoning skills on geometric shapes. It was also found that visual mathematics literacy perception had a moderate positive effect on visual perception, geometry knowledge, spatial intelligence and concretization sub-dimensions and geometry performance.
Highlights
Review of the historical development of mathematics, which was described as one of the dimensions of mathematics literacy, would demonstrate that visuals contributed significantly to the emergence, development, instruction and transfer of mathematics to future generations
In the model for the sub-dimensions structured based on the variables, external variables were determined as Visual Perception (VP), Geometry Knowledge (GK), Spatial Intelligence (SI), Concretization (CON) and Pattern Formation (PF) sub-dimensions, while internal variables are determined as Reasoning Skills on Geometric Shapes (RSGS) and Geometry Performances (GP)
The present study was conducted to investigate the correlation between visual mathematics literacy perceptions of pre-service mathematics teachers and their reasoning skills on geometric shapes and geometry performance levels with the path analysis method
Summary
Review of the historical development of mathematics, which was described as one of the dimensions of mathematics literacy, would demonstrate that visuals contributed significantly to the emergence, development, instruction and transfer of mathematics to future generations. Visuality is expressed with the concept of visual literacy in scientific literature, and in mathematics it was defined as the visual mathematics literacy perception (Bekdemir & Duran, 2012). Visual mathematics literacy perception was defined by Duran and Bekdemir (2013) as the skill to perceive, express, interpret, assess and utilize the problems encountered in daily life spatially or visually and the skill to perceive, express, interpret, assess and utilize spatial or visual information mathematically. Visual mathematics literacy perception was described as the skills of an individual to understand mathematical problems encountered in daily life with two or more dimensional visuals, and to interpret the information containing these visuals using mathematical expressions based on the logical framework of the mathematics (İlhan, 2019)
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