Sociomathematical Worlds: the Social World of Children's Mathematical Learning in the Middle Primary Years

<p>This thesis presents the findings of a project that explored the ways in which primary school children developed understandings about mathematics, mathematical 'learning' and 'knowing' and themselves as learners of mathematics. The research aimed to describe the children's mathematical learning environments, to explore the ways in which children made meaning about mathematics through social interactions within these environments, and to identify elements of these environments that appeared to enhance or inhibit the children's learning of mathematics. Located within the body of literature that takes a sociocultural view of teaching and learning, the study adopted the theoretical framework of symbolic interactionism because of its usefulness in explaining how, through the social interactions of everyday life, an individual constructs and reconstructs personal versions of 'reality', including a sense of identity. Through this lens, familiar objects, routine events and everyday language surrounding the teaching and learning of mathematics were examined for their significance to young learners. The concept of the sociomathematical world was created and developed to describe the mathematical environment of the child as positioned within wider social networks. The sociomathematical world of the child was seen as the world of everyday life, the arena in which the child, through regular and routine interactions with others, negotiated meanings about, and made personal sense of, mathematics. The research focussed on ten case study children - four girls and six boys - all attending different schools, and selected randomly from the primary schools in the Wellington region of New Zealand. For three years, from the beginning of their third year at school to the end of their fifth, the children were regularly interviewed and observed in their classrooms. Other key participants in their sociomathematical worlds were also interviewed, including families, teachers, principals, and classmates. Evidence of teaching and learning was also gathered from children's books and assessment records, and linked to local and global curriculum documentation. A cumulative picture was compiled of the mathematical teaching and learning environments of these ten children. Originally intended to be presented as separate biographies, the data were instead collated and reported according to the four distinctive recurring themes that emerged from the findings: the emphasis of speed in mathematics teaching and learning; identification and differentiation based on socially constructed perceptions of mathematical 'ability'; the establishment of 'doing maths' as solo written work; the presentation of mathematics as consisting of 'correct' and non-negotiable facts and procedures. These dominant approaches to teaching and learning of mathematics were found to conform to deeply entrenched traditions, in which the learner was viewed as the passive recipient of, rather than an active participant in, education in general and mathematics education in particular. It was found that these taken-for-granted pedagogical cultures were not explicitly supported by the official curriculum. Marked negative effects of these common teaching practices were commonly observed: alienation, marginalisation and impoverished learning. These impacts were experienced in varying forms and at varying times, by all the case study children, suggesting that changed views of mathematics and of mathematical teaching and learning are needed if the learning potential of all children is to be fully realised.</p>

Sociomathematical Worlds: the Social World of Children's Mathematical Learning in the Middle Primary Years

<p>This thesis presents the findings of a project that explored the ways in which primary school children developed understandings about mathematics, mathematical 'learning' and 'knowing' and themselves as learners of mathematics. The research aimed to describe the children's mathematical learning environments, to explore the ways in which children made meaning about mathematics through social interactions within these environments, and to identify elements of these environments that appeared to enhance or inhibit the children's learning of mathematics. Located within the body of literature that takes a sociocultural view of teaching and learning, the study adopted the theoretical framework of symbolic interactionism because of its usefulness in explaining how, through the social interactions of everyday life, an individual constructs and reconstructs personal versions of 'reality', including a sense of identity. Through this lens, familiar objects, routine events and everyday language surrounding the teaching and learning of mathematics were examined for their significance to young learners. The concept of the sociomathematical world was created and developed to describe the mathematical environment of the child as positioned within wider social networks. The sociomathematical world of the child was seen as the world of everyday life, the arena in which the child, through regular and routine interactions with others, negotiated meanings about, and made personal sense of, mathematics. The research focussed on ten case study children - four girls and six boys - all attending different schools, and selected randomly from the primary schools in the Wellington region of New Zealand. For three years, from the beginning of their third year at school to the end of their fifth, the children were regularly interviewed and observed in their classrooms. Other key participants in their sociomathematical worlds were also interviewed, including families, teachers, principals, and classmates. Evidence of teaching and learning was also gathered from children's books and assessment records, and linked to local and global curriculum documentation. A cumulative picture was compiled of the mathematical teaching and learning environments of these ten children. Originally intended to be presented as separate biographies, the data were instead collated and reported according to the four distinctive recurring themes that emerged from the findings: the emphasis of speed in mathematics teaching and learning; identification and differentiation based on socially constructed perceptions of mathematical 'ability'; the establishment of 'doing maths' as solo written work; the presentation of mathematics as consisting of 'correct' and non-negotiable facts and procedures. These dominant approaches to teaching and learning of mathematics were found to conform to deeply entrenched traditions, in which the learner was viewed as the passive recipient of, rather than an active participant in, education in general and mathematics education in particular. It was found that these taken-for-granted pedagogical cultures were not explicitly supported by the official curriculum. Marked negative effects of these common teaching practices were commonly observed: alienation, marginalisation and impoverished learning. These impacts were experienced in varying forms and at varying times, by all the case study children, suggesting that changed views of mathematics and of mathematical teaching and learning are needed if the learning potential of all children is to be fully realised.</p>

Integrasi Teknologi dalam Pembelajaran Matematika: Belajar dari SAMR dan MAAAD

We are now facing a growing demand of using technology in mathematics classrooms due to the unprecedented Covid-19 pandemics era. In this situation, most teachers among the globe including Indonesia have to employ remote learning practice without proper training and sufficient experience in doing so. This article aims to provide teachers and mathematics education communities, especially in Indonesia, with some research-based principles mainly from SAMR and MAAAD frameworks on how they productively incorporate technology in their mathematical teaching and learning. By doing so, we explain how we can improve our technology integration and how we analyse technology affordances. In addition, we also raise the importance of acknowledging technology limitations, along with the discussion on what to do next for improving our technology integration skills. Keywords: MAAAD, Mathematics Education, SAMR, Technology Integration.

Pengenalan Alat Peraga Dasar Matematika Kepada Siswa Sekolah Dasar (SD)

Community service is carried out by the Pamulang University lecturer team in Pamulang sub-district, South Tangerang city in an effort to increase understanding of mathematical concepts with the target of elementary school students. The activities carried out are divided into 3 stages, the first stage: first giving a pre-test to students to find out the students' initial abilities, the second stage providing mentoring and training in understanding mathematical counting concepts with the help of mathematical teaching aids, and the third stage conducting evaluations with how to give a test (post-test) to determine the results of the treatment in the second stage. The visual aids used in this activity are the nomographic aids, the visual aids weighing the car props. Each of these props provides an understanding of the mathematical counting concepts in the operations of addition, subtraction, multiplication and division. From the results of the post-test conducted an increase in students' understanding of the concepts of mathematical operations in the form of operations of addition, subtraction, multiplication and division after being given understanding with the help of mathematical teaching aids.

ASSESSMENT OF MATHEMATICS TEACHERS’ PROFESSIONAL COMPETENCE

Development of students’ mathematical skills is associated with quality teaching, which means that mathematics teachers should be able to successfully solve mathematical, teaching, and professional problems. The article aims to describe the assessment system of mathematics school teachers’ professional competence, which helps identify gaps in their training and design tailor-made retraining courses. 2,359 mathematics teachers from 13 regions of Russia participated in the research on 05–29 September 2017. Foremost, we conducted a survey and collected data about their teacher category and teacher expertise. Next, we provided a preliminary diagnostic test to enable the participants to self-assess their subject matter and teaching competencies. After that, they completed a three-part diagnostic test to assess their abilities to solve mathematical, teaching, and professional problems. Finally, the participants conducted video lessons. The three-part diagnostic test and video lessons allowed determining the professional competence level for every mathematics teacher. 24% participants showed level I of professional competence, 44% – level II, 9% – level II; 23% participants did not pass the basic level of professional competence. The results show that the mathematics teachers have difficulties in solving mathematical, teaching, or professional problems so tailor-made retraining courses are required. The developed assessment system underlies designing the courses.

REALIZATION OF A PROFESSIONAL ORIENTATION OF MATHEMATICAL TEACHING AT TECHNICAL UNIVERSITY

Рассмотрены вопросы профессиональной направленности преподавания математических дисциплин в техническом вузе, актуальность которых обусловлена внедрением новых образовательных стандартов. Проведён анализ научных публикаций по данной тематике и обобщён педагогический опыт авторов. Обоснованы преимущества использования профессионально-ориентированных математических задач в сочетании с электронными образовательными ресурсами в учебном процессе. Приведены примеры задач профессионального характера по математическим дисциплинам и установлены межпредметные связи для ряда образовательных программ, реализуемых в Новосибирском государственном техническом университете. The issues of the applied orientation of teaching mathematical disciplines at university are considered, the relevance of which is due to the introduction of new educational standards. The analysis of scientific publications on this topic is carried out and the pedagogical experience of the authors is generalized. The advantages of using professionally oriented mathematical problems in combination with electronic educational resources in the educational process are substantiated. Examples of applied problems on mathematical subjects are given and interdisciplinary connections are established for a number of educational programs implemented at Novosibirsk State Technical University.

Effects of Constructivism-Based Teacher Education Program for Supporting Infant’s Mathematical Inquiry Activity on Variables Related to Infant Teacher’s Mathematics Teaching

This study helps infant teachers practice a constructivism-based teacher education program that supports infant mathematical inquiry activities and examines improvements in mathematical teaching knowledge, mathematical teaching initiatives, mathematical interaction, constructivism belief and mathematical teaching efficacy. Twenty two experiment group infant teachers and twenty two comparison group infant teachers were chosen at two workforce educare centers. The experiment group infant teachers participated in 18 sessions of a constructivism teacher training program for 8 weeks, but the comparison group infant teachers did not take part in the program. Pretest and post-tests were implemented for the mathematical teaching knowledge, mathematical teaching initiatives, mathematical interactions, constructivism belief and mathematical teaching efficacy in the experiment group. Independent sample t-test and ANCOVA were tested using Windows SPSS statistics 21.0. The homogeneity test for the experiment and comparison group revealed significant differences. ANCOVA was carried out after the pretest score was controlled as a co-variance. Significant differences were indicated in mathematical teaching knowledge, mathematical teaching initiative, mathematical interaction, constructivism belief and mathematical teaching efficacy. The results indicated that a constructivism-based teacher education program to support infant mathematical inquiry activities influenced improvements in mathematical teaching knowledge, mathematical teaching initiative, mathematical interaction, constructivism belief and mathematical teaching efficacy. This study proved the effects of the program based on constructivism theory content for the knowledge, skills and attitude about infant teaching of mathematical initiatives and practiced a program of exploration, investigation, application and assessment for infant teachers. The results can help infant teachers teach mathematical exploration activities and help activate infant mathematical exploration activities.