An increasing number of studies are evidencing relationships between physical activity (PA) and the mathematical performance of early school students. This is not surprising due to the fact that children grow in all areas simultaneously and their motor and intellectual developments determine each other. Nevertheless, such an approach of combining mathematics education with physical exercises, in addition through play, which is the basis of children's activity and the preferred way of spending time, is still rare at schools. In response to this problem, "Eduball" has been created, which is an educational ball with printed letters, numbers, and other signs used for team mini-games. Surprisingly, despite the studies on general usefulness of Eduball in preschool and early-school education and the effects of physical exercise classes carried out using these balls, still little is known about their impact on mathematical development. Here, we investigate the relationships between the use of Eduball and the acquisition of mathematical knowledge and skills by children. We used a quantitative approach in the form of an experiment in natural settings in which 7-year-old students (first grade) took part (N = 25). For the purposes of this experiment, we created scenarios of physical exercise classes integrated with mathematical contents that used Eduball. Mathematical knowledge and skills were assessed by one of the commonly used tests. The results were compared with the data from the control group of traditional physical education classes (N = 22). As assumed, after a 1-year experiment, students from both groups improved their results, but we found a greater progress in terms of mathematical knowledge and skills in the experimental class compared to the control one. Eduball particularly affected competences related to such mathematical categories as: sets and their elements, multiplication and division, geometric shapes and measuring length, and measuring volume and mass. In sum, our results show that physical exercise classes that used Eduball stimulate the acquisition of mathematical competences by students and, consequently, confirm that there is a strong relation of physical and mathematical development. Therefore, there is a need to review children's educational models, as well as primary school curricula, to combine physical and cognitive activities.
Studies suggest that incorporating core academic subjects into physical education (PE) stimulates the development of both motor and cognitive skills in primary school students. For example, several experiments show that children’s participation in Eduball, i.e., a method that uses educational balls with printed letters, numbers, and other signs, improves their physical fitness while simultaneously developing their mathematical and language skills. However, the question of who should conduct such classes to make them most effective (regular classroom teachers, physical education teachers, or maybe both in cooperation?) remains unanswered. Here, we replicated a previous Eduball experiment, but now, instead of one experimental group, there were three. In the first, Eduball-classes were conducted by the classroom teacher, in the second, by the physical education teacher, and in the third, collaboratively. After one year intervention, all experimental groups significantly improved both their cognitive (mathematical, reading, and writing) and gross motor (locomotor and object control) skills, and these effects were larger than in the control group participating in traditional PE. Importantly, there were no differences in progression between the Eduball-groups. Thus, our study demonstrates that methods linking PE with cognitive tasks can be effectively used by both PE specialists and general classroom teachers.
Despite the general agreement that the interdisciplinary model of physical education (PE), based on the incorporation of core academic subjects into the PE curriculum, stimulates the holistic development of students, there is still a lack of methods for its implementation. Therefore, Eduball was created, i.e., a method that uses educational balls with printed letters, numbers, and other signs. Numerous studies have shown that children participating in activities with Eduballs can develop their physical fitness while simultaneously improving their academic performance, particularly in math and language, including some writing skills. However, little is known about the effects of Eduball on children’s graphomotor skills, which are key for the academic performance of students throughout the entire schooling process. Here, we investigate whether 6-month participation in PE with Eduball stimulates graphomotor skills in primary school students, such as drawing prehandwriting letter patterns on unlined or lined paper and rewriting text on unlined or lined paper. Our results show that the Eduball class (N = 28) significantly improved these skills compared to the control class (N = 26) participating in traditional PE. For example, students from the experimental group wrote with a lower pen pressure and better stability of the line, in contrast to those from the control group. Therefore, this study demonstrates that the Eduball method successfully supports teachers in developing graphomotor skills in children. More broadly, our findings make clear once again that there is the need to integrate physical and cognitive development in education, which can be achieved by using an interdisciplinary model of PE.
The purpose of this study was to evaluate the impact of the BRAINballs program on second graders’ gross motor skills in a primary school in Vietnam. A total of 55 students (23 boys and 32 girls) aged seven years participated in the study. The research used the method of a pedagogical experiment and parallel group technique (experimental and control group) with pre- and post-testing. The study was conducted in the school year 2019/2020. The gross motor skills performance was assessed by the Test of Gross Motor Development—2nd Edition. The BRAINballs program was conducted twice a week and combined physical activity with subject-related contents by means of a set of 100 balls with painted letters, numbers, and signs. The results showed that the experimental and control groups improved their motor skills after one school year (p < 0.001). However, the analysis of covariance demonstrated that students from the experimental group, compared to students from the control group, showed significantly better scores in both subtests: locomotor (p = 0.0000) and object control skills (p = 0.0000). The findings of this study show that the BRAINballs program had a positive effect on children’s motor performances and may help to better understand the development of basic motor skills of seven-year-old students in Vietnam.
The aim of this study is to examine the level of understanding of the principle of fair play by secondary school pupils (n = 827) from the Polish province of Wielkopolska, physical education (PE) students from Poznan University of Physical Education (n = 437), and PE teachers (n = 130). Two structured survey questionnaires were used, namely: The three-level scale known as the Fair Play Moral Dimensions Concept Scale and a Factors of Moral Influence Scale. There were observed differences between male and female students in their comprehension of the principle of fair play regarding the category of sporting activity practiced. The female teachers’ amateur training group more frequently identified the highest level of fair play (32.1% of the examined female teachers) in comparison with their male colleagues. Moreover, differences were noted between boys and girls at the secondary school level. Boys rated the influence of PE teachers and coaches higher, while girls declared that they were more influenced by media and education. For both boys and girls, parents constituted the highest-rated factor of the influence on their moral development. Students also indicated the influence of parents as the highest-rated factor. Among PE teachers, school, as a source of influence on one’s moral development, was awarded higher rates by female than by male teachers. It was observed that parents constituted the highest-rated factor of influence for PE teachers.
Open Access License:This is an open access article distributed under the terms of the Creative Commons Attribution-Non-commercial 4.0 International (http://creativecommons.org/licenses/by-nc/4.0/), which permits use, distribution, and reproduction in any medium, provided the original work is properly cited, the use is non-commercial and is otherwise in compliance with the license. abstract BackgroundThe aim of the study was to determine fundamental movement skills of elementary school first-graders and to seek whether fundamental movement skills correlate with the pupils' age and gender. Material/MethodsThe study involved students in the first grade of elementary school in Krosno. The study was conducted at the beginning of the 2015/2016 school year. A total of 98 pupils (43 girls and 55 boys) aged six and seven were tested, using the Test of Gross Motor Development-2nd Edition. ResultsThe study showed that the results of fundamental movement skills depend on the children's age and gender. Older girls achieved better results in locomotor and object control skills than six-year-old girls. The analysis revealed that boys achieved better scores than girls in the object control skills subtest. ConclusionsThe findings of this study demonstrated that the results can serve as an argument in the debate on the validity of reducing the school age in Poland. Understanding the importance of fundamental movement skills and awareness of irregularities in motor skills may help to prevent children's later school problems.
Although the neuronal mechanisms of action and cognition are related, the division of intellectual and physical lessons is standard in schools. This is surprising, because numerous studies show that integrating physical education (PE) with teaching content stimulates critical skills. For example, several experiments indicate that Eduball-based PE (i.e., lessons in a sports hall during which students play team mini-games with educational balls with printed letters, numbers, and other signs) develops mathematical and language competencies. At the same time, the Eduball method does not slow down learners’ physical development. However, we have little knowledge about the effects of such techniques on non-native language learning. Consequently, the absence of incorporating core academic subjects into PE in dual-language schools or during foreign language education is exceptionally high. Here, we replicated the Eduball experiment, but with the goal of testing this method for non-native language learning. Thus, the intervention occurred in a dual-language primary school and we evaluated second language (L2) learning. As before, we used the technique of parallel groups (experimental and control); in both groups, there were three 45-min PE classes per week. In the experimental class, two of them were held using Eduball. After a half-year experiment, children from the experimental group (one second-grade, N = 14) improved their non-native language skills significantly more than their peers from the control group (one second-grade, N = 12). These findings demonstrate that Eduball-type intervention stimulates non-native language learning in children. Hence, our report suggests that specific body training forms can support L2 learning.
Background: The aim of the study was to determine the level and changes in the level of temporal-spatial orientation in first-grade pupils from elementary schools who participated in Physical Education classes integrated with subject-related contents that used Edubal educational balls. Material/Methods: Research material comprised first-grade pupils from two classes in an elementary school in Wroclaw, Poland. The study was carried out during the second term of the 2013/2014 school year. Fifty-four pupils (26 girls and 18 boys) were diagnosed in total. The study employed the method of a pedagogical experiment that used the parallel groups technique (experimental class and control class). Results: In the first examination, pupils from the control group obtained better results compared to pupils from the experimental group (p=0.04). In the second examination, pupils from the experimental class obtained better results compared to those from the control group. However, the difference between the results obtained in both groups was not statistically significant (p = 0.87). Conclusions: The results obtained in the study lead to a conclusion that it is justified to carry out further studies in order to evaluate the level and possible changes in temporal-spatial orientation in first-grade pupils from elementary school who participate in Physical Education classes that use Edubal educational balls and to search for the relationships between the pupils’ temporal-spatial orientation and school performance.
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