Your search keyword '"*DIVISION"' showing total 384,204 results

1. An Analysis of Multiplicative Thinking Development in Years 3 to 6

Author

Mathematics Education Research Group of Australasia (MERGA), Lei Bao, and Max Stephens

Abstract

Research has shown that many primary students experience transition barriers between additive and multiplicative thinking. This paper analysed responses from 253 Years 3 to 6 students to a diagnostic assessment which consists of whole number multiplication and division problems involving equal groups, arrays, multiplicative comparison and Cartesian product situations. Based on the Rasch analysis, item responses were differentiated into five developmental Stages indicating a wide range of understanding and pointing to different transition barriers that students experience. The reasons for these are discussed in the paper and some advice is presented for teachers.

Published

2024

2. Middle School Mathematics Teachers' Knowledge of Integers

Author

Ahu Canogullari and Mine Isiksal-Bostan

Abstract

The current research aimed to unpack teachers' knowledge of integers by investigating how they used the number line and counter models to represent the two meanings of division (i.e., partitive and measurement). The participants were three middle school mathematics teachers working in different cities in Türkiye. Data consisted of teachers' written responses to an open-ended questionnaire consisting of four division operations and interviews conducted thereafter. Findings revealed that although two teachers could accurately model all division operations with the number line model, one teacher could neither provide a problem context nor a model displaying one of the division operations. For the counter model, only one teacher could accurately model all division operations in the questionnaire.

Published

2024

3. Mathematics Achievement in the Last Year of Primary School. Longitudinal Relationship with General Cognitive Skills and Prior Mathematics Knowledge

Author

Florencia Stelzer, Santiago Vernucci, Yesica Aydmune, Macarena del Valle, María Laura Andres, and Isabel María Introzzi

Abstract

The aim of this study was to analyze the joint, relative, and unique predictive value of students' prior knowledge of mathematics (knowledge of fractions and ability to divide natural numbers) and general cognitive ability (fluid intelligence and working memory) upon general mathematics achievement in the last year of primary school. Seventy-five students participated (M age = 11.2 years old, SD = 0.40). Hierarchical regression analysis showed that the ability to divide and fractions knowledge accounted for 41% of the variance in mathematics achievement, both acting as significant predictors. By incorporating working memory and fluid intelligence into the model, fraction knowledge showed to be no longer a significant predictor. These general cognitive skills explained an additional 8% of the variance in mathematics knowledge, both being significant predictors and contributing to mathematics achievement in a unique way. The implications of these results for mathematics teaching are discussed.

Published

2024

4. Exploring Preservice Teachers' Embodied Noticing of Students' Fraction Division

Author

Karl W. Kosko, Temitope Egbedeyi, and Enrico Gandolfi

Abstract

There is emerging evidence that professional noticing is embodied. Yet, there is still a need to better under embodied noticing at a fundamental level, especially from the preservice teachers. This study used traditional and holographic video, along with eye-tracking technology, to examine how preservice teachers' physical act of looking interacts with their professional noticing. The findings revealed that many participants focused on less sophisticated forms of mathematical noticing of students' reasoning. Additionally, results from eye-tracking data suggest that the more participants described students' conceptual reasoning, the more likely they were to focus on how recorded students used their hands to engage in the mathematics. [For the complete proceedings, see ED657822.]

Published

2023

5. Division Problems with Remainder: A Study on Strategies and Interpretations with Fourth Grade Mexican Students

Author

Pacheco-Muñoz, Ever, Nava-Lobato, Stefany, Juárez-López, José Antonio, and Ponce de León-Palacios, Manuel

Abstract

The present research focuses on analyzing how fourth-grade elementary school students (ages 9 to 10) solve and interpret the result of non-routine problems, precisely division measurement and division-partition with remainder. The methodology is qualitative, with a descriptive and interpretative approach. The information was collected using a questionnaire consisting of three problems (two of quotitive division and one of partitive division) and a clinical interview. The results showed the importance of using the division, multiplication, and addition algorithms to give a realistic answer to the problems. In the same way, it was possible to demonstrate the graphic strategy combined with counting to give a realistic answer to the problem. However, students were found to use division correctly but without an interpretation of the remainder or quotient. Likewise, they struggled to choose the correct procedure to solve the problem. These data suggest including realistic problems in mathematics classrooms to make sense of mathematical concepts in real life or the student's context. Likewise, this study provides implications on the mathematical problems that the teacher proposes in the classroom, where not only the division algorithm should be taught mechanically, nor focus on posing routine problems that lead the student to use a single heuristic resolution strategy. Essentially, the teacher is required to include real-world problems, where the student can awaken creativity to represent in different ways the understanding of a problem and, therefore, different strategies to solve it. In addition, that the student has the ability to check the result of the problem, with the conditions, situations or circumstances imposed by reality or everyday life. [This is a reprint of an article originally published in "Mathematics Teaching Research Journal" v14 n5 p159-180 Win 2022.]

Published

2023

6. Fraction Division Representation -- Experience in a Teacher Education Course Focused on the Reference Unit

Author

Gabriela Gibim, Laura Rifo, Nuria Climent, and Miguel Ribeiro

Abstract

This study focuses on the knowledge revealed and developed by Elementary Mathematics teachers, in a teacher education course related to the representation of fraction division and the flexibility of the reference unit. The teachers solved a task aimed at mobilizing (and accessing) their knowledge related to their approaches to the sense of division, representation, and reference unit regarding fraction division. The results suggest that teachers face challenges when representing and justifying fraction divisions using pictorial models, especially when the divisor is a non-unit fraction. This is based in a gap regarding the flexibility of the reference unit to which the numbers refer in their representations, as well as a challenge concerning the sense of fraction division and the different forms of representation. With this research we intend to contribute to reducing the scarcity of empirical studies in the area and the importance of this specialized teachers' knowledge to deal with this topic.

Published

2023

7. Developing the Diagnostic Test of Misconceptions of Fractions

Author

Aleyna Altan and Zehra Taspinar Sener

Abstract

This research aimed to develop a valid and reliable test to be used to detect sixth grade students' misconceptions and errors regarding the subject of fractions. A misconception diagnostic test has been developed that includes the concept of fractions, different representations of fractions, ordering and comparing fractions, equivalence of fractions, representation of fractions on the number line, and addition, subtraction, multiplication and division of fractions. Studies in the literature on misconceptions in fractions were examined and 22 misconceptions were listed. An open-ended test consisting of 23 questions was created in which students justified their answers to the questions. The developed test was applied to 215 sixth grade students studying in a public secondary school in Istanbul. The average item difficulty index of the test was calculated as 0.37. The test was found to be of average difficulty. The average discrimination index of the test was measured as 0.69. This value shows that the test items are quite successful in distinguishing between students who know and those who do not. In addition, when the discrimination values of the test items were taken into consideration separately, there was no need for item removal or item change since there were no items below 0.30. The KR-20 reliability coefficient was calculated for the first stage of the test and was calculated as 0.93. A graded classification system was used for the first part and second part of the test. To determine that the two stages work in harmony, the Cronbach Alpha reliability coefficient was calculated and found to be 0.95. These results prove that the developed test is highly valid and reliable. [This paper was published in: "EJER Congress 2023 International Eurasian Educational Research Congress Conference Proceedings," Ani Publishing, 2023, pp. 255-272.]

Published

2023

8. South African Teachers Work with Division Actions in Grade 3

Author

Corin D. Mathews

Abstract

Background: Internationally, the teaching of division has noted that the use of sharing situations with sharing actions (one-by-one distribution) is the predominant division model at the beginning of schooling. In South Africa, research suggests a sharing situation with sharing actions is also preferred in the early grades. Aim: This paper aims to look at the predominant approaches to the use of division actions that teachers offer in teaching division tasks. Setting: The study is set in three government schools in Gauteng, South Africa. Methods: In this qualitative study, the teachers were observed through video recording, and then the video recording was transcribed, and semiotics was used to make sense of their teaching. Results: The findings of this article suggest that grouping actions and group-based approaches to teaching division tasks are more prevalent than sharing through one-by-one distribution actions, even when sharing situations are used. Conclusion: This study concludes that grouping actions and group-based approaches are part of how teachers solve sharing situations. Contribution: This study concludes that in a South African context, identifying the grouping actions and group-based approaches linked to sharing situations is a more efficient way of solving sharing situations and will assist teachers in explaining division tasks more coherently.

Published

2023

9. Preservice Elementary Teachers' Understanding of Fraction Multiplication and Division in Multiple Contexts

Author

Kang, Hyun Jung

Abstract

The present study examined preservice elementary teachers' performance on the problems of multiplication and division of fractions and compared their performances and analyzed the misconceptions. An instrument including 11 fraction multiplication and division tasks was given and the task involved three contexts: making own story problem, computations, representing operation using visual model. The findings reported that among the three contexts, making a diagram was the most challenging task for both operations, and their division performance varied depending on the division problem types. The author suggests that specific emphasis with rich story problem with different whole(s) in fraction, carefully designed context with different types of division concept, and building fractional number sense can help both PSTs and students reduce misconceptions and enhance deeper understanding of fraction operations.

Published

2022

10. Examining Preservice Teachers' Embodied Noticing When Viewing Traditional and Holographic Videos of Students' Fraction Division

Author

Karl W. Kosko, Enrico Gandolfi, and Temitope Egbedeyi

Abstract

This study used traditional and holographic video, along with eye-tracking technology, to examine how preservice teachers' physical act of looking is associated with how they attend to and assess students' fraction reasoning. Findings revealed that, although viewing of holograms may have influenced more focus on students' work area, there was little observed difference in the written noticing of preservice teachers in each condition. Additionally, by examining eye-gaze data for how teachers focused rather than simply what they focused on, findings were able to distinguish between how different participants perceived students' fraction work. Results indicated that the more participants described students' conceptual reasoning, the more likely they were to focus on the mathematical work students were doing and not simply on the region they did such work.

Published

2024

11. Percentages versus Rasch Estimates: Alternative Methodological Strategies for Replication Studies in Mathematics Education

Author

Clelia Cascella, Chiara Giberti, and Andrea Maffia

Abstract

We present an external close replication of the 1985 Fischbein et al. study about intuitive models of multiplication and division. We administered two batteries of mathematics items developed in the original study, via a spiralling process, to a quota sample of 903 students attending grade 7. Compared with the analytic strategy based on the count of correct answers employed in the original research, our study goes a step further as we propose a methodological approach that guarantees measurement invariance, thus allowing for the direct comparison of different groups of students and/or items. The advantages of Rasch estimates compared to percentages of correct answers over the total are critically discussed to show why the former should be considered as more robust than the latter.

Published

2024

12. Validating Psychometric Classification of Teachers' Fraction Arithmetic Reasoning

Author

Ibrahim Burak Ölmez and Andrew Izsák

Abstract

In prior work, we fit the mixture Rasch model to item responses from a fractions survey administered to a nationwide sample of middle grades mathematics teachers in the United States. The mixture Rasch model located teachers on a continuous, unidimensional scale and fit best with 3 latent classes. We used item response data to generate initial interpretations of the reasoning characteristic of each latent class. Our results suggested increasing facility reasoning about fraction arithmetic from one class to the next. The present study contributes two further arguments for the validity of our initial interpretations. First, we administered the same survey to a new sample of future middle grades mathematics teachers before and after 20 weeks of instruction on multiplication, division, and fractions, and we found that from pretest to posttest future teachers transitioned from one latent class to another in ways consistent with increased proficiency in fraction arithmetic. Second, we interviewed 8 of the future teachers before and after the instruction and found that future teachers' reasoning during interviews was largely consistent with our original interpretation of the 3 latent classes. These results provide further support for our original interpretation of the mixture Rasch analysis, demonstrate the utility of our approach for capturing growth and change in future teachers' reasoning during teacher education coursework, and contribute innovative applications of psychometric models for surveying teachers' reasoning at scale.

Published

2024

13. The Role of Units Coordination in Preservice Elementary Teachers' Mathematical Knowledge for Teaching

Author

Erik Jacobson

Abstract

This study used units coordination as a theoretical lens to investigate how whole number and fraction reasoning may be related for preservice teachers at the conclusion of a math methods class. The study contributes quantitative evidence that units coordination provides a common foundation for both mathematical knowledge for teaching whole number addition and subtraction and for mathematical knowledge for teaching fraction multiplication and division. An analysis of PSTs' written responses to two different types of tasks (referent unit and appropriateness of proportional reasoning) revealed that some aspects of mathematical knowledge for teaching rational number and the multiplicative conceptual field are associated with units coordination (referent unit tasks), whereas others are not (appropriateness tasks). A logistic regression of PSTs' conceptions of multidigit number on their scores on these tasks provided empirical evidence that the most sophisticated conceptions of multidigit number (corresponding with having interiorized three levels of units) were associated with referent unit tasks but not associated with appropriateness of proportional reasoning tasks. Together, these findings support the claim that units coordination has promise for explaining the relationship between teachers' mathematical knowledge for teaching multidigit addition and subtraction and fraction multiplication and division. Implications for teacher education are discussed.

Published

2024

14. Diagrams Support Spontaneous Transfer across Whole Number and Fraction Concepts

Author

Pooja G. Sidney, Julie F. Shirah, Lauren Zahrn, and Clarissa A. Thompson

Abstract

In mathematics, learners often spontaneously draw on prior knowledge when learning new ideas. In this study, we examined whether the specific diagrams used to represent more familiar (i.e., whole number division) and less familiar ideas (i.e., fraction division) shape successful transfer. Undergraduates (N = 177) were randomly assigned to demonstrate fraction division in a 3 (Diagram: Number Line, Circle, None) x 3 ("Warm-up" Example: Whole Number Division, Fraction Addition, None) between-subjects design. We hypothesized that transfer from whole number division would be greatest in the number line condition. When using number lines and warming up with whole number division, students generated more accurate conceptual models of fraction division. However, both number lines and circles supported transfer from whole number concepts to fraction concepts, whereas having no diagrams did not. Diagrams may play a critical role in helping learners make use of their vast prior knowledge. [This paper was published in "Contemporary Educational Psychology."]

Published

2022

15. Identifying Preservice Teachers' Concept-Based and Procedure-Based Error Patterns in Multiplying and Dividing Decimals

Author

Joung, Eunmi and Kim, Young Rae

Abstract

The purposes of this study are to report current Preservice Teachers' (PTs) decimal abilities regarding the types of error patterns that they commit and to analyze characteristics of the errors in the problems posed for multiplication and division in decimals. We have determined common concept- and procedure-based errors made by the PTs. 37 PTs in the USA were asked to complete two decimal multiplication problems and two decimal division problems. Results indicated that four major types of error patterns could be detected: Misunderstanding of the place value, misunderstanding of mathematical equivalence, arithmetic errors, and reversing the positions of divisor and dividend. PTs were more likely to have concept- than procedure-based errors. This indicates that PTs may have limited knowledge on the definition of decimals and the meaning of mathematical equivalence, as well as a lack of understanding of place value. Consequently, we believe that the learning of the concept of decimals requires conceptual change. The concept-based errors found intersect with those of students in primary school, so this helps Teacher Education programs in ways that promote PTs' mathematical understanding of decimal operations on a conceptual basis to prevent their future students from making errors.

Published

2022

16. Division Problems with Remainder: A Study on Strategies and Interpretations with Fourth Grade Mexican Students

Author

Pacheco-Muñoz, Ever, Nava-Lobato, Stefany, Juárez-López, José Antonio, and Ponce de León-Palacios, Manuel

Abstract

The present research focuses on analyzing how fourth-grade elementary school students (ages 9 to 10) solve and interpret the result of non-routine problems, precisely division measurement and division-partition with remainder. The methodology is qualitative, with a descriptive and interpretative approach. The information was collected using a questionnaire consisting of three problems (two of quotitive division and one of partitive division) and a clinical interview. The results showed the importance of using the division, multiplication, and addition algorithms to give a realistic answer to the problems. In the same way, it was possible to demonstrate the graphic strategy combined with counting to give a realistic answer to the problem. However, students were found to use division correctly but without an interpretation of the remainder or quotient. Likewise, they struggled to choose the correct procedure to solve the problem. These data suggest including realistic problems in mathematics classrooms to make sense of mathematical concepts in real life or the student's context. Likewise, this study provides implications on the mathematical problems that the teacher proposes in the classroom, where not only the division algorithm should be taught mechanically, nor focus on posing routine problems that lead the student to use a single heuristic resolution strategy. Essentially, the teacher is required to include real-world problems, where the student can awaken creativity to represent in different ways the understanding of a problem and, therefore, different strategies to solve it. In addition, that the student has the ability to check the result of the problem, with the conditions, situations or circumstances imposed by reality or everyday life.

Published

2022

17. Impact of Educational Comics on Division Concept in Primary Schools

Author

Canbulut, Dürdane and Kiliç, Remzi

Abstract

Comics engage students in learning mathematics through their interactive nature and the relatively simple language they use. Not only that, it also helps expand students' thinking through the introduction of contextualized mathematics. This is also in line with the latest math education trend to engage students with math problems in a real-world context. As a result, there is a great potential for the use of comics as a teaching tool in primary school mathematics lessons. The current research works pointed out that comics increase the efficiency of teaching and strengthen the relationship between teacher and students. The purpose of this study is to determine the effect of educational comics-supported instruction on academic achievement of primary school students in division concept. The study used quasi-experimental design with pretest-posttest control group. The study group consists of 42 second grade pupils (21 for experimental and 21 for control group) studying in a public primary school located in Nigde, Turkey. As for data collection, academic achievement test was developed based on the learning outcomes of the mathematics curriculum. The pilot study was conducted to determine the statistics and the quality of test items. In order to ensure the validity of this test, evidences were collected and the reliability of the test calculated. The results of this study showed that the students who learn division via educational comics-supported instruction is more successful than the students who learn division via traditional instruction. Two of the reasons could be listed as (1) division is a complex and abstract concept so that traditional instruction have some difficulty in making the understanding easier, (2) educational comics strengthen the communication between student and teacher, attract attention of the students. This study is considered important in terms of emphasizing that educational comics are a preferred tool for some concepts of mathematics instruction.

Published

2022

18. An Action Research to Eliminate Mistakes in Multiplication and Division Operations through Realistic Mathematics Education

Author

Yorulmaz, Alper and Dogan, Midrabi Cihangir

Abstract

In the current study, it is aimed to determine the activities that need to be done to eliminate the mistakes made by primary school fourth grade students in multiplication and division operations and to present solution suggestions for eliminating these mistakes. The study employed action research, one of the qualitative research methods. The study group was constructed by the criterion sampling method, one of the purposive sampling methods. The study group is comprised of 10 fourth graders attending a primary school in the spring term of the 2016-2017 school year in the city of Istanbul and making similar mistakes. A student information form, clinical interview form and student worksheets were used as data collection tools in the study. Activities prepared in line with the principles of Realistic Mathematics Education (RME) were applied in order to eliminate the mistakes made by the students in the multiplication and division operations. When the mistakes made by the students in the multiplication and division operations were examined, it was revealed that the source of the mistakes was the operational, conceptual and problem situations. During the implementation of RME activities, it was determined that the mistakes of the students started to be eliminated. After the implementation, it was found that the mistakes of the students committed in the multiplication and division operations decreased. Thus, it can be said that RME is an effective application in reducing the mistakes in multiplication and division operations made by students in primary school.

Published

2022

19. The Influence of Practical Illustrations on the Meaning and Operation of Fractions in Sixth Grade Students, Kosovo-Curricula

Author

Kamberi, Saranda, Latifi, Ismet, Rexhepi, Shpetim, and Iseni, Egzona

Abstract

In this paper, we have tried to clearly explain the meaning of fractions and operations with fractions. Also, we have tried to illustrate with some examples how to apply the rules of operations with fractional numbers, giving different practical techniques through different figures, visualization methods, and concretizing problems. The paper presents with examples of the most common mistakes made by students, giving suggestions for their avoidance, as well as through a questionnaire, which considered the survey of 60 students of grade 6 of school, "Elena Gjika" City Prishtina, Kosovo, with the help of the statistical test we have concluded that practical techniques such as figures, visualizations, and video lessons have a close dependence on the meaning and operation of fractions.

Published

2022

20. Comparison of the Learning Outcomes in Online and In-Class Environments in the Divisibility Lessons

Author

Kamber Hamzic, Dina, Zubovic, Daniela, and Šceta, Lamija

Abstract

In this paper, the effects of the online learning of the mathematical area of divisibility are studied, by comparing the achievements of students who have learned this mathematical topic in the online and in-class environments. Data for this study were collected in seven schools at the beginning of the seventh grade of elementary education, with 383 participants aged 12 to 13. The test with four questions was designed according to the standards and levels set by APOSO (Agency for Pre-Primary, Primary, and Secondary Education in Bosnia and Herzegovina). Data were analyzed using a two-sample t-test and a Chi-square test. The results highlighted that there was no statistical difference in the total scores between the students who learned divisibility in the in-class environment and those who learned it in the online environment. When comparing students' achievement in each question separately, statistical difference appeared only in the question of the highest level according to APOSO. The mistakes that students made when solving divisibility problems were also part of this research.

Published

2022

21. Learning Management Based on Akita Approach on Multiplication and Division for Grade 3 Students

Author

Thiangtrong, Piyaphat, Chano, Jiraporn, and Nithideechaiwarachok, Bussayarat

Abstract

The Akita approach is the guideline in learning that responds to rapid changes in the 21st century. This research aimed to determine the effectiveness of learning management based on the Akita approach in accordance with the criteria efficiency of 75/75 and to explore the index of effectiveness of learning management pursuant to the Akita approach. Furthermore, to discover students' learning retention and to study the students' satisfaction with learning management based on the Akita approach. The participants were 34 primary school students in the northeast of Thailand, selected by cluster random sampling. Research instruments comprised of learning management plans, achievement tests, and a questionnaire. Statistics were used, including percentage, mean and standard deviation, and dependent samples t-test. The results found that, firstly, learning management plans based on the Akita approach identified students' efficiency (E1/E2) at 86.46/85.29, which was higher than the specified criteria. Secondly, the index of effectiveness of the learning management plans based on the Akita approach on multiplication and division of students was equal to 0.6835 or 68.35 percent. Thirdly, for students who studied by using Akita-based learning management plans on multiplication and division topics, the post-test scores after studying and the post-test scores after they had finished studying for two weeks appeared to reveal no difference, which showed the persistence of students in learning. Lastly, students were satisfied with studying multiplication and division by Akita-based learning management plans with high overall scores and each item at the highest ([x-bar] = 4.65-4.88) level.

Published

2022

22. The Power of One: The Importance of Flexible Understanding of an Identity Element

Author

Schiller, Lauren K., Fan, Ao, and Siegler, Robert S.

Abstract

The number one plays a special role in mathematics because it is the identity element in multiplication and division. The present findings, however, indicate that many middle school students do not demonstrate mathematical flexibility representing one as a fraction. Despite possessing explicit knowledge of fraction forms of one (e.g., 95% of students indicated that 36/36 = 1), most students did not recognize and apply knowledge of fraction forms of one to estimate numerical magnitudes, solve arithmetic problems, and evaluate arithmetic operations. Specifically, students were less accurate in locating fraction forms of one on number lines than integer forms of the same number; they also were slower and less accurate on fraction arithmetic problems that included one as a fraction (e.g., 6/6 + 1/3) than one as an integer (e.g., 1 + 1/3); and they were less accurate evaluating statements involving fraction forms of one than the integer one (e.g., lower accuracy on true or false statements such as 5/6 × 2/2 = 5/6 than 4/9 × 1 = 4/9). Analyses of three widely used textbook series revealed almost no text linking fractions in the form n/n to the integer one. Greater emphasis on flexible understanding of fractions equivalent to one in textbooks and instruction might promote greater understanding of rational number mathematics more generally

Published

2022

23. Making Visible a Teacher's Pedagogical Reasoning and Actions through the Use of Pedagogical Documentation

Author

Mathematics Education Research Group of Australasia (MERGA), Choy, Ban Heng, Dindyal, Jaguthsing, and Yeo, Joseph B. W.

Abstract

Mathematics education research has focused on developing teachers' knowledge or other visible aspects of the teaching practice. This paper contributes to conversations around making a teacher's thinking visible and enhancing a teacher's pedagogical reasoning by exploring the use of pedagogical documentation. In this paper, we describe how a teacher's pedagogical reasoning was made visible and highlight aspects of his thinking in relation to his instructional decisions during a series of lessons on division. Implications for professional learning are discussed.

Published

2022

24. Exploring Visual Representations of Multiplication and Division in Early Years South African Mathematics Textbooks

Author

Mathematics Education Research Group of Australasia (MERGA), Booysen, Tammy, and Westaway, Lise

Abstract

Early years mathematics textbooks are support material for teachers and learners as they contain visual representations which communicate and clarify mathematical concepts. In this paper, we report on the types and functions of visual representations of multiplication and division in South African early years mathematics textbooks. There seems to be a reliance on textbooks amongst teachers in South Africa as they assist in providing pedagogic content knowledge. The research from which this paper emerged was a document analysis of multiplication and division visual representations in nine textbooks (Grade 1-3). A Visual Representation Framework was used to analyse the textbooks. The findings indicated that the most dominant type of visual representations across all three textbook series and across the three grades were equal groups and the majority of visual representations had an exemplifying function.

Published

2022

25. Zero in Arithmetic Operations: A Comparison of Students with and without Learning Disabilities

Author

Güven Akdeniz, Dilsad, Yakici Topbas, Esra Selcen, and Argün, Ziya

Abstract

The aim in the current study is to examine the conceptualizations of zero in arithmetic operations among students with learning disabilities (LD) and no learning disabilities (N-LD). The similarities and differences in the understandings of students with LD and N-LD of zero in arithmetical operations will be discussed. The study is a multiple case study with a qualitative research design. Six students, 3 students with LD and 3 with N-LD aged between 10 and 12 years participated in the study. The data were collected through clinical interviews. The data were analyzed by content analysis. Students' limited understanding of zero and operations affects their interpretation of arithmetic operations with zero. The conceptualizations of students with LD and N-LD regarding specifically division by zero show similarities with the exception of their use of the knowledge about operations. It has been observed that LD students have developed a different algorithm when it comes to addition and multiplication with zero. Through this study examining the differences in the understandings of students with LD and N-LD on a specific concept in terms of underlying conceptions, it is thought to provide an insight in terms of discovering LD and a more detailed recognition of these students' mathematics.

Published

2022

26. Observed Quality of Formative Peer and Self-Assessment in Everyday Mathematics Teaching and Its Effects on Student Performance

Author

Zulliger, Sandra, Buholzer, Alois, and Ruelmann, Merle

Abstract

The positive effect of peer assessment and self-assessment strategies on learners' performance has been widely confirmed in experimental or quasi-experimental studies. However, whether peer and self-assessment within everyday mathematics teaching affect student learning and achievement, has rarely been studied. This study aimed to determine with what quality peer and self-assessment occur in everyday mathematics instruction and whether and which students benefit from it in terms of achievement and the learning process. Two lessons on division were video-recorded and rated to determine the quality of peer and self-assessment. Six hundred thirty-four students of fourth-grade primary school classes in German-speaking Switzerland participated in the study and completed a performance test on division. Multilevel analyses showed no general effect of the quality of peer or self-assessment on performance. However, high-quality self-assessment was beneficial for lower-performing students, who used a larger repertoire of calculation strategies, which helped them perform better. In conclusion, peer and self-assessment in real-life settings only have a small effect on the student performance in this Swiss study.

Published

2022

27. The Integer Test of Primary Operations: A Practical and Validated Assessment of Middle School Students' Calculations with Negative Numbers

Author

Nurnberger-Haag, Julie, Kratky, Joseph, and Karpinski, Aryn C.

Abstract

Skills and understanding of operations with negative numbers, which are typically taught in middle school, are crucial aspects of numerical competence necessary for all subsequent mathematics. To more swiftly and coherently develop the field's understanding of how to foster this critical competence, we need shared measures that allow us to compare results across studies with diverse populations and theoretical perspectives. Yet, to date no validated instrument exists to assess all four primary operations (addition, subtraction, multiplication and division). Thus, we conducted a Rasch analysis of the Integer Test of Primary Operations (ITPO) with 187 middle school students to provide a valid and reliable assessment with good person and item fit. The implications of this study are numerous for multiple stakeholders including scholars, test and textbook developers, as well as teachers. First, we validated three forms of the ITPO to foster future longitudinal studies of how integer arithmetic knowledge ismaintained or decays as well as how such knowledge might be related to success in STEM disciplines. Second, our analysis provides trustworthy insights about relative difficulty of integer problem structures because regardless of test form similar problem structures loaded together. For instance, sums of additive inverses were the easiest structure, whereas division by -1 was more difficult than multiplying or dividing by any other integer. We discuss each of these and other findings that have practical implications for learning and teaching integers. Third, for broader mathematics assessments in which minimal items can be included to measure integer knowledge, this study informs which items would serve the intended assessment purpose. Finally, we provide the three forms as an appendix in printable formats to ensure these validated tests are practical to implement for teachers as well as scholars.

Published

2022

28. Acquisition of New Arithmetic Skills Based on Prior Arithmetic Skills: A Cross-Sectional Study in Primary School from Grade 2 to Grade 5

Author

Thevenot, Catherine, Tazouti, Youssef, Billard, Catherine, Dewi, Jasinta, and Fayol, Michel

Abstract

Background: In several countries, children's math skills have been declining at an alarming rate in recent years and decades, and one of the explanations for this alarming situation is that children have difficulties in establishing the relations between arithmetical operations. Aim: In order to address this question, our goal was to determine the predictive power of previously taught operations on newly taught ones above general cognitive skills and basic numerical skills. Samples: More than one hundred children in each school level from Grades 2 to 5 from various socio-cultural environments (N = 435, 229 girls) were tested. Methods: Children were assessed on their abilities to solve the four basic arithmetic operations. They were also tested on their general cognitive abilities, including working memory, executive functions (i.e., inhibition and flexibility), visual attention and language. Finally, their basic numerical skills were measured through a matching task between symbolic and nonsymbolic numerosity representations. Additions and subtractions were presented to children from Grade 2, multiplications from Grade 3 and divisions from Grade 4. Results and Conclusions: We show that addition predicts subtraction and multiplication performance in all grades. Moreover, multiplication predicts division performance in both Grades 4 and 5. Finally, addition predicts division in Grade 4 but not in Grade 5 and subtraction and division are not related whatever the school grade. These results are examined considering the existing literature, and their implications in terms of instruction are discussed.

Published

2023

29. Natural Number Bias on Evaluations of the Effect of Multiplication and Division: The Role of the Type of Numbers

Author

Christou, Konstantinos P. and Vamvakoussi, Xenia

Abstract

Over the last years, there is a growing interest in studying students' difficulties with rational numbers from a cognitive/developmental perspective, focusing on the role of prior knowledge in students' understanding of rational numbers. The present study tests the effect of the "whole" or "natural number bias" (i.e., the tendency to count on natural number knowledge to interpret information about rational numbers and deal with rational number tasks), on students' expectations about the "size" (i.e., bigger or smaller) and the "type" (i.e., natural number or decimal) of the results of multiplication and division. Items that were congruent and incongruent with students' assumed expectations were administered to 91 seventh and eighth graders, asking them to evaluate equalities presenting multiplication and division between given and missing numbers. The results showed that besides the already well-documented effect of the size of results (i.e., "multiplication makes bigger" and "division makes smaller"), students tended to think that the numbers involved in multiplication and division should be of the same type (i.e., natural or non-natural, e.g., decimals). Both size and type of the numbers involved in the operations were significant factors affecting students' evaluations, with size being stronger than type.

Published

2023

30. Mathematics Intelligent Tutoring System for Learning Multiplication and Division of Fractions Based on Diagnostic Teaching

Author

Shih, Shu-Chuan, Chang, Chih-Chia, Kuo, Bor-Chen, and Huang, Yu-Han

Abstract

A one-on-one dialogue-based mathematics intelligent tutoring system (ITS) for learning multiplication and division of fractions was developed and evaluated in this study. This system could identify students' error types and misconceptions in real-time by using a block-based matching method. The adaptive dialogue-based instruction was supported by a response-driven tutoring model, which was constructed based on the diagnostic teaching methodology. Instructional strategies including provoking cognitive conflict, problem simplification and representational teaching were used in the tutoring model of the system. Effectiveness of the math ITS in remedial instruction was evaluated through a quasi-experimental study. The participants of the study were 66 sixth graders chosen from central Taiwan. They were divided into an experimental group of 35 and a control group of 31. One week after the pretest, the experimental group received 2-h one-on-one instruction via the math ITS, while the control group took a 2-h conventional teacher instruction with the same teaching content in the classroom. All participants took a post-test within 2 days after the remedial instruction. The results showed that the experimental group using the math ITS significantly outperformed the control group. Further analysis indicated that the math ITS had a significant effect on the lesser-performing group (the lower 75% in the pretest score). In addition, a usability and user experience survey showed that students were willing and likely to learn mathematics using the dialogue-based math ITS.

Published

2023

31. Developing Effective Fractions Instruction for Kindergarten through 8th Grade: Instructional Tips for Educators Based on the Practice Guide

Author

What Works Clearinghouse (ED)

Abstract

This document includes instructional tips on: (1) Building on students' informal understanding of sharing and proportionality to develop initial fraction concepts; (2) Helping students recognize that fractions are numbers that expand the number system beyond whole numbers, and using number lines to teach this and other fraction concepts; (3) Helping students understand why procedures for computations with fractions make sense; and (4) Helping students develop proportional reasoning skills before exposing them to cross-multiplication. It provides educators with how-to steps for carrying out these evidence-based recommendations from Institute of Education Sciences Educator's Practice Guides. The tips translate these recommendations into actions that educators can use in their classrooms. These tips are supported by research evidence that meets What Works Clearinghouse design standards and are based on a practice guide authored by a panel of experts. [For the related Practice Guide, "Developing Effective Fractions Instruction for Kindergarten through 8th Grade. IES Practice Guide. NCEE 2010-4039," see ED512043.]

Published

2021

32. The Use of Mind Maps Related to the Four Operations in Primary School Fourth-Grade Students as an Evaluation Tool

Author

Yorulmaz, Alper, Uysal, Hümeyra, and Sidekli, Sabri

Abstract

The aim of the study was to determine the concepts that primary school fourth-grade students reveal with their mind maps related to four operations (addition, subtraction, multiplication, division) and to compare the mind map and achievement test scores. In the study, a mixed method was used in which quantitative and qualitative data were collected and presented together. The study was carried out with a total of 14 students. There were eight girls and six boys, who studying in the fourth-grade of a primary school in Mentese district of Mugla, in the spring semester of the 2019-2020 academic year. In the research, mind maps created for four operations and success test were used as data collection tools. The data collection process was carried out simultaneously. In the analysis of the data, qualitative data were transformed into the quantitative analysis, and quantitative analyzes were made. Concepts in mind maps created for four operations were subjected to qualitative analysis and photos were added as evidence. As a result of the research, it was determined that the majority of the students adopted the concepts of addition, subtraction, multiplication, and division. Besides, it was revealed that there was a high-level positive relationship between the scores of the students obtained from the achievement test and the scores from the mind maps they created. The evaluation made using the mind map for primary school fourth-grade students is more advantageous than the achievement test in terms of determining the conceptual understanding.

Published

2021

33. Buginese Ethnomathematics: Barongko Cake Explorations as Mathematics Learning Resources

Author

Pathuddin, Hikmawati, Kamariah, and Nawawi, M. Ichsan

Abstract

Mathematics is still viewed as a culture-free subject. This forms a negative perception for students on mathematics. Most students assume that mathematics and culture are not related. This may occur because mathematics taught in school is not contextual and far from the reality of everyday life. Historically, mathematics has become a part of daily life. As a maritime nation, Indonesia has a diverse culture. But many teachers are not yet aware of the integration of the culture into mathematics learning. Barongko cake is one of the Buginese cultural heritages. Buginese people have unconsciously been practicing mathematics in making these cakes. Therefore, this research aims to explore activities in making Barongko cakes in the Buginese community that involves mathematical concepts. This research is a qualitative descriptive with an ethnographic approach. The data collection methods are carried out through observation, documentation, interview with an expert in making Barongko cake. This research found that Barongko making process involves mathematics in the concept of division, congruence and similarity, as well as a triangular prism, and half sphere. This cake has the potential to be used as a source of contextual mathematics learning in schools.

Published

2021

34. Division without Duress Yields High Levels of Success

Author

Isaacson, Kristi J. and Betz-Cahill, Christina

Abstract

Explore the impact technology has on mathematical identity and agency when students use mathematical action technology to engage in cycles of proof and support case-based reasoning. This article showcases a mathematics task used in a fourth-grade class that allowed students to develop their conceptual understanding of division. The authors designed this mathematical challenge to address the content standard and create a learning experience during which all students meet the following objectives: (a) make conjectures about relationships among the divisor, dividend, and quotient; and (b) explain and justify their conjectures.

Published

2023

35. Harmony and Dissonance: An Enactivist Analysis of the Struggle for Sense Making in Problem Solving

Author

Greenstein, Steven, Pomponio, Erin, and Akuom, Denish

Abstract

This work seeks to understand the emergent nature of mathematical activity mediated by learners' engagement with multiple artifacts. We explored the problem solving of two learners as they aimed to make sense of fraction division by coordinating meanings across two artifacts, one being a physical manipulative and the other a written expression of the standard algorithm. In addressing the question, "How do learners make sense of and coordinate meanings across multiple representations of mathematical ideas?" we took an enactivist perspective and used tools of semiotics to analyze the ways they navigated the dissonance that arose as they sought to achieve harmony in meanings across multiple representations of ideas. Our findings reveal the value of such tool-mediated engagement as well as the complexity of problem solving more broadly. Implications for learning mathematics with multiple artifacts are discussed. [For the complete proceedings, see ED630060.]

Published

2021

36. Formation Process of Common Divisor Concept: A Study of Realistic Mathematics Education

Author

Yilmaz, Rezan and Dündar, Merve

Abstract

Common divisor is one of the concepts that started to be learned in secondary school and forms the basis of many concepts. But students generally have difficulty in making sense of it. The purpose of this study is to investigate concept formation processes of common divisor through a case study on seven sixth grade students. To do this, we designed a learning environment based on Realistic Mathematics Education and tried to determine how students construct the concept. The data collected through group and individual study papers and semi-structured clinical interviews were analyzed with content analysis within the APOS theoretical framework. The findings showed that one student was unable to internalize the action and her thoughts depended on the contextual problem. Other students internalized all common divisors and coordinated them with prime factorization. At the end, students were able to encapsulate all the processes into object by finding the product of common prime numbers. Moreover, students were able to identify greatest common divisor among all common divisors and clarified its meaning.

Published

2021

37. Examination of Semantic Structures Used by Teacher Candidates to Transform Algebraic Expressions into Verbal Problems

Author

Bal, Ayten Pinar

Abstract

The aim of this study is to examine the semantic structures used by mathematics teacher candidates to transform algebraic expressions into verbal problems. The research is a descriptive study in the survey model, which is one of the quantitative research types. The study group of the research consists of 165 teacher candidates studying in the primary school mathematics teaching department of a state university in the south of Turkey in the 2019- 2020 academic years. 73.2% of the teacher candidates in the study group are female and 26.8% are male. Criterion sampling method, one of the purposeful sampling methods, was used in the selection of teacher candidates in the study group. While the Algebraic Expression Questionnaire Form was used as the data collection tool, the evaluation rubric of verbal problems was used in the analysis of the data. As a result of the research, it has been revealed that pre-service teachers are more successful in transforming algebraic expressions into verbal problems, but they have problems in creating problems with algebraic expressions that make up systems of equations. Again in the study, it was concluded that pre-service teachers used addition and subtraction problems more than multiplication and division problems. On the other hand, when the problems in the type of addition and subtraction are examined in the study, in the type of combining and separating; it has been concluded that the category of equal groups is mostly used in the problems of multiplication and division.

Published

2021

38. The Analysis of Grade 8 Fractions Errors Displayed by Learners Due to Deficient Mastery of Prerequisite Concepts

Author

Makhubele , Yeyisani Evans

Abstract

This paper presents an analysis of fractions errors displayed by learners due to deficient mastery of prerequisite concepts. Fractions continue to pose a critical challenge for learners. Fractions can be a tricky concept for learners although they often use the concept of sharing in their daily lives. 30 purposefully sampled learners participated in this study. The research instrument consists of fractions test whose questions were selected from various Annual National Assessment examination papers containing in addition, subtraction multiplication and division of fractional operations. The different types of errors displayed by learners were then identified, coded and categorized. The analysis showed that the main sources for errors were lack of understanding of the basic concepts, learners' prior knowledge, misconceptions and misapplication of rules. This study recommends that teachers should help their learners to develop fractions conceptual understanding. Learners need to be explicitly taught that errors are opportunities for learning, and that they are springboard of inquiry.

Published

2021

39. Instructional Explanations of Class Teachers and Primary School Mathematics Teachers about Division

Author

Korkmaz, Ebru

Abstract

This study is a qualitative research which was conducted in order to reveal the instructional explanations of class teachers and primary school mathematics teachers working in state schools about division. A semi-structured interview form with three open-ended questions about division, prepared for this purpose, was examined by the experts. The semi-structured interview form inluded three questions asking the teachers to solve the long division operations of 3385: 13 = ?, 1238: 12 =? and 102102: 12 =? using the mathematical table of digits with a descriptive language as if they were telling the primary school students the solutions. While the first two questions were suitable with the 5th grade learning outcomes, the third question was suitable with a high level learning outcome. The main purpose of asking the 3rd question was to evaluate the instructional explanation of the teachers in a problem of different difficulty. The study group consisted of 34 teachers, 16 of whom were primary school mathematics teachers and 18 of whom were class teachers, working at central primary schools in a province located in Eastern Anatolia region of Turkey. The content analysis of the data showed that not all of the teachers could interpret the operation of division regarding the concept of digit accurately, and their division was result and reasoning oriented. However, it was found that few teachers made generalizations in a similar way. It was also seen that teachers who were at problem-solving level according to Kinach's (2002b) comprehension level framework could not make sense of the logic underlying the division. In addition, the reason why zero (0) was moved to the quotient and when the divisor sought in remaining number should be completed by the teachers could not be clarified because they did not know the logic of the division.

Published

2021

40. Learning about Fractions at Home: Evidence-Based Tips for Parents and Caregivers

Author

What Works Clearinghouse (ED)

Abstract

In this set of tips, parents and caregivers will learn how to: (1) support children's understanding of fractions at home with activities on dividing objects (recommended for grades K-5); (2) support children's understanding of fractions at home with measurement activities (recommended for grades K-4); (3) support children's understanding of fractions using household measurement tools (recommended for grades 3-5); and (4) support children's understanding of fractions by thinking about how to use them in the real world (recommended for grades 4-8). This set of tips can help parents and caregivers carry out recommendations in the Institute of Education Sciences Educator's Practice Guide, "Developing Effective Fractions Instruction for Kindergarten through 8th Grade," at home. [For "Developing Effective Fractions Instruction for Kindergarten through 8th Grade. IES Practice Guide. NCEE 2010-4039," see ED512043.]

Published

2021

41. By Teaching We Learn: Comprehension and Transformation in the Teaching of Long Division

Author

Mathematics Education Research Group of Australasia (MERGA), Choy, Ban Heng, Yeo, Joseph Boon Wooi, and Dindyal, Jaguthsing

Abstract

Despite recent calls to adopt practice-embedded approaches to teacher professional learning, how teachers learn from their practice is not clear. What really matters is not the type of professional learning activities, but how teachers engage with them. In this paper, we position learning from teaching as a dialogic process involving teachers' pedagogical reasoning and actions. In particular, we present a case of an experienced teacher, Mr. Robert, who was part of a primary school's mathematics professional learning team (PLT) to describe how he learned to teach differently, and how he taught differently to learn for a series of lessons on division. The findings reiterate the complexity of teacher learning and suggest possible implications for mathematics teacher professional development.

Published

2021

42. Construction of Students' Mathematical Knowledge in the Zone of Proximal Development and Zone of Potential Construction

Author

Kusmaryono, Imam, Jupriyanto, and Kusumaningsih, Widya

Abstract

This article highlights the main ideas that underlie the differences in potential pragmatic knowledge constructs students experience when solving problems, between the zone of proximal development (ZPD) and the zone of potential construction (ZPC). This qualitative research is based on a phenomenological approach to finding the meaning of things that are fundamental and essential from the ZPD and ZPC phenomena. Researchers observed mathematics learning by a teacher on 24 fourth-grade students who were divided into groups A (high IQ) and B (low IQ). Data collection through tests, observation, and interviews. While the validity of the data is done through triangulation of methods and triangulation of sources. The results showed that students of the Upper (A) group had high IQ but small ZPD and ZPC. In contrast, students in the Lower (B) group have low IQ but large ZPD and ZPC. This result means that intelligence (IQ) is measured not only logically-mathematically but also in the verbal-linguistic and spatial-visual fields. The conclusion is that there are differences in the construction of students' knowledge in the learning zone. This difference occurs because the knowledge constructs that the students have previously had an effect on the accommodation process of the schemes that students have built while in the proximal development zone (ZPD) where scaffolding works. Meanwhile, the potential construction zone (ZPC) is not sufficient to describe the real development of students. However, it only reflects what students have accomplished.

Published

2021

43. Comparing the Minimum Celeration Line and the Beat Your Personal Best Goal-Setting Approaches during the Mathematical Practice of Students Diagnosed with Autism

Author

Vostanis, Athanasios, Padden, Ciara, McTiernan, Aoife, and Langdon, Peter E.

Abstract

This study compared two goal-setting approaches found in the Precision Teaching literature, namely the minimum celeration line and the beat your personal best during the mathematical practice of three male students diagnosed with autism, aged 8-9. An adapted alternating treatments design with a control condition was embedded in a concurrent multiple baseline across participants design. Each approach was randomly allocated to either the multiplication/division (×÷) table of 18 or 19, while no approach was allocated to the ×÷14 table that acted as a control. Instruction utilized number families and consisted of (a) untimed practice, (b) frequency-building, (c) performance criteria, (d) graphing, and (e) a token economy. Upon practice completion, an assessment of maintenance, endurance, stability, and application (MESA) was conducted. Participants improved with both conditions and maintained their performance well, while improvements with the control condition were weak. The beat your personal best approach was highlighted as slightly more effective in terms of average performance and more efficient in terms of timings needed to achieve criterion. No differences were identified in terms of learning rate (i.e., celeration) or performance on the MESA. More research is warranted to identify which goal-setting procedure is more appropriate for students in special education.

Published

2023

44. Meeting Multiplicative Thinking through Thought-Provoking Tasks

Author

Cheeseman, Jill, Downton, Ann, Ferguson, Sarah, and Roche, Anne

Abstract

Children's multiplicative thinking as the recognition of equal group structures and the enumeration of the composite units was the subject of this research. In this paper, we provide an overview of the Multiplication and Division Investigations project. The results were obtained from a small sample of Australian children (n = 21) in their first year of school (mean age 5 years 6 months) who participated in a teaching experiment of five lessons taught by their classroom teacher. The tasks introduced children to the "equal groups" aspect of multiplication. A theoretical framework of constructivist learning, together with research literature underpinning early multiplicative thinking, tasks, and children's thinking, was used to design the research. Our findings indicate that young children could imagine equal group structures and, in doing so, recognise and enumerate composite units. As the children came to these tasks without any prior formal instruction, it seemed that they had intuitive understandings of equal group structures based on their life experiences. We argue that the implications for teaching include creating learning provocations that elicit children's early ideas of multiplication, visualisation, and abstraction. The research has also shown the importance of observing children, listening to their explanations of their thinking, and using insights provided by their drawings.

Published

2023

45. Preservice Teachers' Understandings of Division and Ratios in Forming Proportional Relationships

Author

Ölmez, Ibrahim Burak

Abstract

This study aimed at investigating how preservice teachers' understandings of division and reasoning about ratios support and constrain their formation of proportional relationships in terms of quantities. Six preservice teachers from a middle-grade preparation program in the USA were selected purposefully based on their mathematics performance in a previous course. An explanatory case study with multiple cases was used to make comparisons within and across cases. Two semi-structured interviews were conducted with each pair. The results revealed that preservice teachers who did not explicitly identify different meanings for division struggled to differentiate between the two perspectives on ratios. The results also showed that those teachers had difficulty forming proportional relationships while solving the proportion tasks. These results suggest that explicit identification of the meanings for both types of division is critical to keeping the two perspectives on ratios separate, which is a key aspect for a robust understanding of proportional relationships.

Published

2023

46. Teachers' Learning of Fraction Division with Area Models

Author

Michael Leitch

Abstract

This qualitative, multiple case study provided comprehensive descriptions of the conceptual difficulties and learning experiences of in-service teachers as they improved their ability to effectively model fraction division with pictorial diagrams. Video data were collected on eight teachers as they individually progressed through a professional development (PD) program. The data were used to generate case-based descriptions and to conduct a cross-case synthesis. Ma's Knowledge Package for Understanding the Meaning of Division by Fractions and Vergnaud's Multiplicative Conceptual Field provided the conceptual framework for the PD tasks. The Knowledge in Pieces (KiP) epistemological framework provided a lens for the analysis of the participants' engagement in the tasks. Results from the analysis of interview data contributed to the literature by identifying participants' underlying conceptual resources. Some of these conceptual resources were idiosyncratic, such as conceptualizing partitive division with fractions as a type of density. Other conceptual resources and their functions were common, such as knowing that the quotient is based on scaling the divisor to a value of one yet being unable to identify it in some contexts. Additionally, distinct psychological structures emerged that might be common among learners when engaging in partitive division with fractional divisors. The participants in this study exhibited multiple models of partitive division that generalized into two distinct structures of partitive division with fractional divisors. These models generalized into part-whole models and unit-rate models. Part-whole models attended to a single referent. The referent was seen as a quantity, part of which was known; or a process, part of which was completed. Unit-rate models attended to separate referents for the dividend and divisor. This finding extends the research literature as the structures and their variants seen in the present study do not appear to have received much attention. Results of this study can be leveraged in curriculum design for teacher education on the subject of division with fractions. Results suggest that the KiP epistemological framework is a productive analytical framework for future research on learners' connections between partitive division and other mathematics topics to which it is foundational, such as rate, intensive quantity, proportion, derivatives, probability, and statistics. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published

2023

47. Students' Mathematical Understandings of Fraction Division with an Ethnomathematics/STEM Framework

Author

Grewall, Tejvir Kaur

Abstract

The purpose of this research was to investigate students' mathematical understandings of fraction division with an ethnomathematics/STEM framework. A small group teaching study (Cobb et al., 2003) was conducted using design research methodology to examine how students interacted with the curriculum. The researcher served as interventionist and collaborated with a sixth-grade classroom teacher and seven students after school over a two-week period in South Los Angeles. Data collection included pre and post interviews with students, a researcher reflection log, a notebook that students developed, and both audio and visual recordings. The data were analyzed using an interpretive framework with a social constructivist approach (Burr, 2015; Cobb et al., 2003). The results indicated that students developed an understanding of math concepts for fraction division: the more a whole is divided, the more pieces you have, and the smaller those pieces are; and that there is a proportional relationship between speed and time, relative to the concept of distance equals the product of the rate and time. Students struggled productively with developing visual representations of the fraction division they were doing, and were challenged with new parameters used for estimating, as well as with understanding their calculations. However, the students perceived both cultural contexts and ethnomodeling to have supported their understandings of fraction division within the context of the ethnomathematics/STEM framework. This teaching study was the first iteration of a larger design study, and thus the reflection and findings from this initial iteration will support the preparation for engineering the advancements necessary for the next iteration in the future. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published

2023

48. Survey of Preservice Teachers' Pedagogical Content Knowledge for Students' Multiplicative Reasoning

Author

Austin, Christine K. and Kosko, Karl W.

Abstract

Multiplication and division are vital topics in upper level elementary school. A teacher's pedagogical content knowledge (PCK) influences both instruction and students' learning. However, there is currently little research examining teachers' PCK within this domain, particularly regarding professional education of future teachers. To help address this need, the present paper presents an initial validity argument for a survey of preservice teacher's PCK for multiplication and division. [For the complete proceedings, see ED629884.]

Published

2020

49. Sixth-Grade Students' Procedural and Conceptual Understandings of Division Operation in a Real-Life Context

Author

Incikabi, Lütfi, Ayanoglu, Perihan, and Uysal, Ramazan

Abstract

This study aimed to reveal the conceptual and operational conceptions of sixth-grade students in the process of division. The focus of the study included the strategies used in the division process, the students' understanding of the division algorithm, and their ability to interpret the remainder in a real-life context. Being qualitative in nature, the current study adopted the case study methodology. The sample of the study consisted of 64 sixth-grade students studying at two middle schools in the province of Kastamonu, Turkey in the 2018-2019 academic year. The data collection tool was a test consisting of five open-ended questions presented to the students. According to the research findings, while most of the students used the division operation in problem-solving, some students used different strategies, such as multiplication, addition, subtraction, and mental calculation. The majority of the students using the division algorithm were successful in applying the steps of the division operation but had difficulty in interpreting the remainder. In this research, it was also seen that the students had difficulties regarding the use of zero as a placeholder in the division operation. The students also encountered more difficulty in the division problems requiring the use of zeros in the last digits of the quotient than using zeros in other digits of the quotient.

Published

2020

50. Causes and Effects of the Division Algorithm Applied in Ecuadorian Education

Author

José, Mendoza Velazco Derling, Francisca, Cejas Martínez Magda, Mercedes, Navarro Cejas, Mayrene, Flores Hinostroza Elizeth, and Vladimir, Vega Falcón

Abstract

The objective of this research was to analyze the causes and consequences of the systematic process of teaching and learning of the division of whole numbers, a study aimed at students and teachers of the 3rd and 4th level of basic education. For its development the qualitative paradigm was used through the modality of field research. As informants, twenty (20) students and two (2) teachers participated. All participants are enrolled in the 3rd and 4th level of the Giordano Bruno School located in the city of Quito, Ecuador. To collect the information, the observation technique and the semi-structured interview were used, and the instruments were subjected to a validity process, where the triangulation was applied. The results were analyzed to give an answer to the proposed objective of the manuscript, where the teaching-learning method applied to the students is presented as a critical-constructivist model, but in reality, a mechanic-academicist education system is used. It was evidenced that teachers shorten the logical processes of the division of whole numbers, by the time-space factor.

Published

2020