1,196 results
Search Results
2. Proof and proving in school and university mathematics education research: a systematic review.
- Author
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Stylianides, Gabriel J., Stylianides, Andreas J., and Moutsios-Rentzos, Andreas
- Subjects
EDUCATION research ,MATHEMATICS education ,STUDENT engagement ,MATHEMATICS - Abstract
This systematic review aims to provide a complementary to existing synopses of the state-of-the-art of mathematics education research on proof and proving in both school and university mathematics. As an organizing framework, we used Cohen et al.'s triadic conceptualization of instruction, which draws attention not only to the main actors of the didactical process (i.e., the Teacher and Students) and the Content around which the actors' work is organized (herein, content related to proof and proving), but also to the relationships among the actors and the content. Out of the 103 papers we reviewed, almost half fell in the Student-Content category, which is consistent with the existence of a substantial number of frameworks, methods, and research findings related to students' engagement with proof and proving. About a quarter of the papers fell in the Student–Teacher-Content category, which reflects an emphasis on viewing instructional practice in proof and proving in a holistic, systemic way. Only few papers fell in the categories that did not include Content in them, namely, the categories of Student, Teacher, and Student–Teacher; this suggests mathematics education research on proof and proving has a strong disciplinary identity, which potentially differentiates it from other mathematics education research strands. About a fifth of the papers were oriented towards 'breaking ground' through making an explicit theoretical and/or methodological contribution (Student–Teacher-Content and Content were the main categories where such contributions appeared), whilst the majority of the papers were focused on 'building ground' through elaborating or employing existing methodological and/or theoretical approaches. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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- View/download PDF
3. A Tool for Comparing Mathematics Tasks from Paper-Based and Digital Environments.
- Author
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Lemmo, Alice
- Subjects
TASK analysis ,TASKS ,MATHEMATICS ,EDUCATIONAL evaluation ,PROBLEM solving - Abstract
Comparative studies on paper and pencil– and computer-based tests principally focus on statistical analysis of students' performances. In educational assessment, comparing students' performance (in terms of right or wrong results) does not imply a comparison of problem-solving processes followed by students. In this paper, we present a theoretical tool for task analysis that allows us to highlight how students' problem-solving processes could change in switching from paper to computer format and how these changes could be affected by the use of one environment rather than another. In particular, the aim of our study lies in identifying a set of indexes to highlight possible consequences that specific changes in task formulation have, in terms of task comparability. Therefore, we propose an example of the use of the tool for comparing paper-based and computer-based tasks. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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4. Adult education in mathematics and numeracy: a scoping review of recent research.
- Author
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Gal, Iddo
- Subjects
ADULT education ,MATHEMATICS education ,NUMERACY ,EVIDENCE gaps ,MATHEMATICS ,EMPIRICAL research - Abstract
The paper responds to the need for understanding trends and gaps in extant research related to adult education in mathematics and numeracy, given changing skill demands and skill gaps regarding adults, and related policy, theorizing, and practice trends. This paper presents the results of a scoping review of recent empirical research related to adult education in mathematics and numeracy, published in 22 selected journals from 2019 to 2022, including 15 journals in adult education and seven in mathematics education. The results show that only 39 relevant empirical studies were found among over 2300 research papers reviewed, and that few of those focus on practice-related of adult education in mathematics and numeracy. The results provide quantitative evidence suggesting that the field of adult numeracy education is under-researched, and help to identify gaps in empirical research involving adult numeracy, including on emerging topics such as on modeling and critical interpretation. The results also point to research opportunities that can strengthen theorizing and practice in both mathematics education and adult numeracy education. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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5. Nexus 20/21, Relationships Between Architecture and Mathematics: Part II.
- Author
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Leopold, Cornelie and Ostwald, Michael J.
- Subjects
SPACE perception - Abstract
This letter from the editors introduces Vol. 24(3) of the Nexus Network Journal, which is the second special issue of selected papers from the Nexus 20/21 conference. The papers in this issue are categorised into four themes: (i) spatial distortion and perception, (ii) computational design methods, (iii) design concepts in historical examples and (iv) stereotomy, vaults and domes. In addition, papers in the Didactics section of the journal are dedicated to research about pedagogical advances which connect architecture and mathematics. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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6. Mathematics teaching and teacher education against marginalisation, or towards equity, diversity and inclusion.
- Author
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Abtahi, Yasmine and Planas, Núria
- Subjects
MATHEMATICS teachers ,MATHEMATICS education ,TEACHER education ,EDUCATION research ,MATHEMATICS ,CURRICULUM - Abstract
The interrogation of often unintended practices of marginalisation has gained focus in research on mathematics teaching and mathematics teacher education throughout the last decades. In this introductory survey paper, work against marginalisation in these contexts of mathematics education is viewed in terms of work towards equity, diversity and inclusion. Based on this interpretation, we present a framework on awareness and practice of equity, diversity and inclusion in mathematics teaching and mathematics teacher education research. We then use this framework and a survey method of mapping review to identify and comment on a selection of studies. As a result, we illustrate three research moves towards equity, diversity and inclusion, in the form of interconnected themes: (1) Widening the understanding of the mathematics and the mathematics education curricula (2) Improving the practice and discussion of mathematics teaching (3) Unpacking ideologies in mathematics teaching and mathematics teacher education. We finally examine the themes and the special issue papers together to foreground commonalities regarding awareness of discriminatory discourses and practices of creating and distributing opportunities for all groups, including those historically and currently marginalised. Despite the important increase of equity-driven principles of awareness, we conclude that mathematics education research on teaching and on teacher education needs more examples of practices whose development has been proved to challenge marginalisation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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7. The Regular and the Rule in Architecture.
- Author
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Ostwald, Michael J.
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MATHEMATICS - Abstract
This letter from the editor presents Vol. 25(2) of the Nexus Network Journal. This issue has two connected themes, the first is about the role of regular modules, patterns, or proportions in architecture, and the second, the ways rules or systems underpin architectural form. The papers in this issue address either regularity, rules, or in most cases, both, because spatial and formal patterns are typically derived from rules. Collectively, the eleven research contributions in this issue have topics that span chronologically from the thirteenth century to the present day, and geographically from Asia to Africa and Europe. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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8. A literature review on the empirical studies of the integration of mathematics and computational thinking.
- Author
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Lv, Lin, Zhong, Baichang, and Liu, Xiaofan
- Subjects
LITERATURE reviews ,MATHEMATICS ,EDUCATION ,PRIMARY schools ,SAMPLE size (Statistics) - Abstract
In K-12 education, Computational Thinking (CT) has been a trendy issue in mathematics education, but the approach and results of CT + Math are not yet clear enough. This paper systematically reviewed 22 SSCI journal papers from three perspectives: the current status, outcomes, and implications of mathematics and CT integration. Results indicate that: (1) The empirical studies were more inclined to be carried out in primary school; (2) The sample size inversely proportional to the duration, the same as the duration and the learning phase; (3) the integration of mathematics and CT were gradually emerging in kindergartens, while the empirical studies in junior and senior high schools still needs to be improved; (4) The experimental type prioritizes case studies and lacks mixed research; (5) Most research designs employ a variety of measuring instruments but limited in multimodal data; (6) Through the teaching model of plug-in programming, the integration of mathematics and CT was centred on the field of geometry and number operations; and (7) The CT skills involved are mainly Problem decomposition, Pattern recognition, Abstraction, Algorithm design and Debugging. The limitations and future directions are also discussed in this paper. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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9. Culturally crafted Lesson Study to improve teachers' professional development in mathematics: a case study in Italian secondary school.
- Author
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Capone, Roberto, Adesso, Maria Giuseppina, Manolino, Carola, Minisola, Riccardo, and Robutti, Ornella
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TEACHER development ,CAREER development ,IN-service training of teachers ,SECONDARY schools ,MATHEMATICS teachers ,MATHEMATICS - Abstract
This paper describes a Lesson Study in which in-service mathematics secondary-school teachers, collaborating with researchers, involve grade 10 students in tessellation problems. The data are collected by an experiment carried out in the context of the "Liceo Matematico" project, with three volunteer teachers. The experiment goal was to craft a collaborative design of the research lesson between teachers and researchers. The research aim of the paper is to examine the use of Lesson Study in the institutional and cultural context of Italian secondary school with the use of Cultural Transposition as a theoretical framework. The research is qualitative with idiographic aims, based on video research. The educational aim of the research is to provide a solid basis for a revamped in-service teacher education first in the context of the project, then in curricular context. Semiotic mediation is used to provide, within Lesson Study, the conceptual framework for teachers and researchers collaborative design of the research lesson. The results show that Lesson Study, as a foreign practice, is an opportunity for teachers to confront their teaching practices, to enrich their professional development, resulting in more awareness on their didactical action in and outside the classroom. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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10. Implementing a pedagogical cycle to support data modelling and statistical reasoning in years 1 and 2 through the Interdisciplinary Mathematics and Science (IMS) project.
- Author
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Mulligan, Joanne, Tytler, Russell, Prain, Vaughan, and Kirk, Melinda
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DATA modeling ,STATISTICAL models ,STATISTICS ,TEACHER role ,MODEL-based reasoning ,SIX Sigma ,MATHEMATICS - Abstract
This paper illustrates how years 1 and 2 students were guided to engage in data modelling and statistical reasoning through interdisciplinary mathematics and science investigations drawn from an Australian 3-year longitudinal study: Interdisciplinary Mathematics and Science Learning (https://imslearning.org/). The project developed learning sequences for 12 inquiry-based investigations involving 35 teachers and cohorts of between 25 and 70 students across years 1 through 6. The research used a design-based methodology to develop, implement, and refine a 4-stage pedagogical cycle based on students' problem posing, data generation, organisation, interpretation, and reasoning about data. Across the stages of the IMS cycle, students generated increasingly sophisticated representations of data and made decisions about whether these supported their explanations, claims about, and solutions to scientific problems. The teacher's role in supporting students' statistical reasoning was analysed across two learning sequences: Ecology in year 1 and Paper Helicopters in year 2 involving the same cohort of students. An explicit focus on data modelling and meta-representational practices enabled the year 1 students to form statistical ideas, such as distribution, sampling, and aggregation, and to construct a range of data representations. In year 2, students engaged in tasks that focused on ordering and aggregating data, measures of central tendency, inferential reasoning, and, in some cases, informal ideas of variability. The study explores how a representation-focused interdisciplinary pedagogy can support the development of data modelling and statistical thinking from an early age. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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11. On general sums involving the floor function with applications to k-free numbers.
- Author
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Zhang, Wei
- Subjects
NUMBER theory ,SPECIAL functions ,EXPONENTIAL sums ,MATHEMATICS ,ARITHMETIC functions - Abstract
In this paper, we consider sums related to the floor function. We improve previous results for some special arithmetic functions considered by O. Bordellès [On certain sums of number theory, Int. J. Number Theory, 18(9):2053– 2074, 2022], J. Stucky [The fractional sum of small arithmetic functions, J. Number Theory, 238:731–739, 2022], and J. Wu [Note on a paper by Bordellès, Dai, Heyman, Pan and Shparlinski, Period. Math. Hung., 80(1):95–102, 2020]. It is worth emphasizing that we use much simpler methods to give much better results than previous. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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12. Guest editorial: Special issue on Mathematics of Zero-Knowledge.
- Author
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Galbraith, Steven, Gennaro, Rosario, Ràfols, Carla, and Steinfeld, Ron
- Subjects
MATHEMATICS ,ELLIPTIC curves ,CODING theory ,LINEAR systems ,OPEN-ended questions ,PUBLIC key cryptography - Abstract
The paper lists the main open questions left in the area both theoretically and practically, mainly related with the inherent tension between communication efficiency and quality of assumptions in proof systems. This special issue of Designs, Codes and Cryptography on the topic Mathematics of Zero-Knowledge aims at encouraging mathematicians and computer scientists with a strong interest in Mathematics to contribute to the burgeoning topic of zero-knowledge proofs. [Extracted from the article]
- Published
- 2023
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13. Refined Asymptotic Expansions of Solutions to Fractional Diffusion Equations.
- Author
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Ishige, Kazuhiro and Kawakami, Tatsuki
- Subjects
BURGERS' equation ,HEAT equation ,CAUCHY problem ,MATHEMATICS - Abstract
In this paper, as an improvement of the paper (Ishige et al. in SIAM J Math Anal 49:2167–2190, 2017), we obtain the higher order asymptotic expansions of the large time behavior of the solution to the Cauchy problem for inhomogeneous fractional diffusion equations and nonlinear fractional diffusion equations. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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14. Polynomial stability of transmission system for coupled Kirchhoff plates.
- Author
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Wang, Dingkun, Hao, Jianghao, and Zhang, Yajing
- Subjects
POLYNOMIALS ,ELASTICITY ,EXPONENTS ,MATHEMATICS ,EQUATIONS - Abstract
In this paper, we study the asymptotic behavior of transmission system for coupled Kirchhoff plates, where one equation is conserved and the other has dissipative property, and the dissipation mechanism is given by fractional damping (- Δ) 2 θ v t with θ ∈ [ 1 2 , 1 ] . By using the semigroup method and the multiplier technique, we obtain the exact polynomial decay rates, and find that the polynomial decay rate of the system is determined by the inertia/elasticity ratios and the fractional damping order. Specifically, when the inertia/elasticity ratios are not equal and θ ∈ [ 1 2 , 3 4 ] , the polynomial decay rate of the system is t - 1 / (10 - 4 θ) . When the inertia/elasticity ratios are not equal and θ ∈ [ 3 4 , 1 ] , the polynomial decay rate of the system is t - 1 / (4 + 4 θ) . When the inertia/elasticity ratios are equal, the polynomial decay rate of the system is t - 1 / (4 + 4 θ) . Furthermore it has been proven that the obtained decay rates are all optimal. The obtained results extend the results of Oquendo and Suárez (Z Angew Math Phys 70(3):88, 2019) for the case of fractional damping exponent 2 θ from [0, 1] to [1, 2]. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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15. On some new arithmetic properties of certain restricted color partition functions.
- Author
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Dasappa, Ranganatha, Channabasavayya, and Keerthana, Gedela Kavya
- Subjects
PARTITION functions ,ARITHMETIC ,MATHEMATICS ,GEOMETRIC congruences ,COLOR ,WITNESSES ,EISENSTEIN series - Abstract
Very recently, Pushpa and Vasuki (Arab. J. Math. 11, 355–378, 2022) have proved Eisenstein series identities of level 5 of weight 2 due to Ramanujan and some new Eisenstein identities for level 7 by the elementary way. In their paper, they introduced seven restricted color partition functions, namely P ∗ (n) , M (n) , T ∗ (n) , L (n) , K (n) , A (n) , and B(n), and proved a few congruence properties of these functions. The main aim of this paper is to obtain several new infinite families of congruences modulo 2 a · 5 ℓ for P ∗ (n) , modulo 2 3 for M(n) and T ∗ (n) , where a = 3 , 4 and ℓ ≥ 1 . For instance, we prove that for n ≥ 0 , P ∗ (5 ℓ (4 n + 3) + 5 ℓ - 1) ≡ 0 (mod 2 3 · 5 ℓ). In addition, we prove witness identities for the following congruences due to Pushpa and Vasuki: M (5 n + 4) ≡ 0 (mod 5) , T ∗ (5 n + 3) ≡ 0 (mod 5). [ABSTRACT FROM AUTHOR]
- Published
- 2024
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16. Quantum rectangular MinRank attack on multi-layer UOV signature schemes.
- Author
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Cho, Seong-Min and Seo, Seung-Hyun
- Subjects
QUBITS ,RAINBOWS ,PUBLIC key cryptography ,QUANTUM computers ,DIGITAL signatures ,MATHEMATICS ,ALGORITHMS - Abstract
Recent rank-based attacks have reduced the security of Rainbow, which is one of the multi-layer UOV signatures, below the NIST security requirements by speeding up iterative kernel-finding operations using classical mathematics techniques. If quantum algorithms are applied to perform these iterative operations, the rank-based attacks may be more threatening to multi-layer UOV, including Rainbow. In this paper, we propose a quantum rectangular MinRank attack called the Q-rMinRank attack, the first quantum approach to key recovery attacks on multi-layer UOV signatures. Our attack is a general model applicable to multi-layer UOV signature schemes, and in this paper, we provide examples of its application to Rainbow and the Korean TTA standard, HiMQ. We design two quantum oracle circuits to find the kernel in consideration of the depth-width trade-off of quantum circuits. One is to reduce the width of the quantum circuits using qubits as a minimum, and the other is to reduce the depth using parallelization instead of using a lot of qubits. By designing quantum circuits to find kernels with fewer quantum resources and complexity by adding mathematical techniques, we achieve quadratic speedup for the MinRank attack to recover the private keys of multi-layer UOV signatures. We also estimate quantum resources for the designed quantum circuits and analyze quantum complexity based on them. The width-optimized circuit recovers the private keys of Rainbow parameter set V with only 1089 logical qubits. The depth-optimized circuit recovers the private keys of Rainbow parameter set V with a quantum complexity of 2 174 , which is lower than the complexity of 2 221 recovering the secret key of AES-192, which provides the same security level as parameter set III. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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17. A survey on uncertain graph and uncertain network optimization.
- Author
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Peng, Jin, Zhang, Bo, Chen, Lin, and Li, Hui
- Subjects
WEB databases ,SCIENCE databases ,PUBLISHED articles ,MATHEMATICS - Abstract
Uncertainty theory, founded in 2007, has become a branch of mathematics to model uncertainty rather than randomness. As an indispensable part of uncertainty theory, uncertain graph and uncertain network optimization has received the wide attention of many scholars. Naturally, a series of original research achievements have been obtained on uncertain graph and uncertain network optimization. This paper aims to present a state-of-the-art review on the recent advance in uncertain graph and uncertain network optimization. Furthermore, it hopes to predict the possible future research directions. Based on Web of Science database, this paper retrieves 144 related papers from 2011 to 2021 to analyze the features of published articles. More precisely, we analyze the annual number of publications, key topics and sub-fields, journals, and most-cited articles. In addition, the main results and models for uncertain graph and uncertain network optimization are summarized. Furthermore, the limitations of existing literature and the possible development trend are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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18. Twenty years of research on technology in mathematics education at CERME: a literature review based on a data science approach.
- Author
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Herfort, Jonas Dreyøe, Tamborg, Andreas Lindenskov, Meier, Florian, Allsopp, Benjamin Brink, and Misfeldt, Morten
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TECHNOLOGY ,MATHEMATICS ,DATA science ,HIGHER education ,ADULTS - Abstract
Mathematics education is like many scientific disciplines witnessing an increase in scientific output. Examining and reviewing every paper in an area in detail are time-consuming, making comprehensive reviews a challenging task. Unsupervised machine learning algorithms like topic models have become increasingly popular in recent years. Their ability to summarize large amounts of unstructured text into coherent themes or topics allows researchers in any field to keep an overview of state of the art by creating automated literature reviews. In this article, we apply topic modeling in the context of mathematics education and showcase the use of this data science approach for creating literature reviews by training a model of all papers (n = 336) that have been presented in Thematic Working Groups related to technology in the first eleven Congresses of the European Society for Research in Mathematics Education (CERME). We guide the reader through the stepwise process of training a model and give recommendations for best practices and decisions that are decisive for the success of such an approach to a literature review. We find that research in this period revolved around 25 distinct topics that can be grouped into four clusters: digital tools, teachers and their resources, technology experimentation, and a diverse cluster with a strong focus on student activity. Finally, a temporal analysis of these topics reveals a correlation between technology trends and research focus, allowing for reflection on future research in the field. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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19. What mathematicians learn from attending other mathematicians' lectures.
- Author
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Weber, Keith and Fukawa-Connelly, Timothy
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LECTURES & lecturing ,MATHEMATICS ,MATHEMATICIANS ,FUTURES studies ,RESEARCH - Abstract
Mathematicians frequently attend their peers' lectures to learn new mathematical content. The goal of this paper is to investigate what mathematicians learned from the lectures. Our research took place at a 2-week workshop on inner model theory, a topic of set theory, which was largely comprised of a series of lectures. We asked the six workshop organizers and seven conference attendees what could be learned from the lectures in the workshop, and from mathematics lectures in general. A key finding was that participants felt the motivation and road maps that were provided by the lecturers could facilitate the attendees' future individual studying of the material. We conclude by discussing how our findings inform the development of theory on how individuals can learn from lectures and suggest interesting directions for future research. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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20. Poincaré's works leading to the Poincaré conjecture.
- Author
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Ji, Lizhen and Wang, Chang
- Subjects
LOGICAL prediction ,MATHEMATICS ,COMMUNITIES ,ALGEBRA ,TOPOLOGY - Abstract
In the last decade, the Poincaré conjecture has probably been the most famous statement among all the contributions of Poincaré to the mathematics community. There have been many papers and books that describe various attempts and the final works of Perelman leading to a positive solution to the conjecture, but the evolution of Poincaré's works leading to this conjecture has not been carefully discussed or described, and some other historical aspects about it have not been addressed either. For example, one question is how it fits into the overall work of Poincaré in topology, and what are some other related questions that he had raised. Since Poincaré did not state the Poincaré conjecture as a conjecture but rather raised it as a question, one natural question is why he did this. In order to address these issues, in this paper, we examine Poincaré's works in topology in the framework of classifying manifolds through numerical and algebraic invariants. Consequently, we also provide a full history of the formulation of the Poincaré conjecture which is richer than what is usually described and accepted and hence gain a better understanding of overall works of Poincaré in topology. In addition, this analysis clarifies a puzzling question on the relation between Poincaré's stated motivations for topology and the Poincaré conjecture. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
21. Interpreting young children's multiplicative strategies through their drawn representations.
- Author
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Cartwright, Katherin
- Subjects
CHILDREN'S drawings ,MATHEMATICAL sequences ,TEACHERS ,MATHEMATICS education ,MATHEMATICS - Abstract
The exploration of children's drawings as mathematical representations is a current focus in early years mathematics education research. This paper presents a qualitative analysis of 72 kindergarten to Grade 3 (5 to 8 years old) children's drawings produced during problem-solving tasks centred on multiplicative strategies. Existing frameworks for the developmental sequence of mathematical drawings and the progression of children's strategies for multiplicative situations were an interpretive lens through which to analyse the drawings. Children used pictographic and iconic drawing types to represent the "story" in the problem and the multiplicative strategies employed to solve the tasks. Exploration of the children's drawings suggested that as children's drawings become more structural, schematic in nature, it may be easier for children to show their understanding of the structural elements of multiplicative relationships. Results revealed that structural elements of multiplicative relationships were more easily seen in iconic representations; however, both pictographic and iconic drawings were useful to observe counting, additive, and multiplicative strategies when mathematical elements of the problem were visible. Additional representations attached to the drawings (e.g. numerical) were needed to confirm children's strategies when their drawings lacked structure. These findings have implications for how young children's drawings are interpreted by classroom teachers. The interpretation of these drawings suggested that some children may not yet realise how their drawings in mathematics need to shift from illustrations of the problem's story context to representing mathematical ideas and processes — which requires intentional teaching of the purpose of drawings for mathematical contexts. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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22. Mean convergence theorems for arrays of dependent random variables with applications to dependent bootstrap and non-homogeneous Markov chains.
- Author
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Vǎn Thành, Lê
- Subjects
MARKOV processes ,RANDOM variables ,DEPENDENT variables ,LAW of large numbers ,MATHEMATICS - Abstract
This paper provides sets of sufficient conditions for mean convergence theorems for arrays of dependent random variables. We expand and improve a number of particular cases in the literature including Theorem 2.1 in Sung (Appl Math Lett 26(1):18–24, 2013), Theorems 3.1–3.3 in Wu and Guan (J Math Anal Appl 377(2):613–623, 2011), and Theorem 3 in Lita da Silva (Results Math 74(1):1–11, 2019), among others. The proof is different from those in the aforementioned papers and the main results can be applied to obtain mean convergence results for arrays of functions of non-homogeneous Markov chains and dependent bootstrap. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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23. Airy Ideals, Transvections, and W(sp2N)-Algebras.
- Author
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Bouchard, Vincent, Creutzig, Thomas, and Joshi, Aniket
- Subjects
IDEALS (Algebra) ,ALGEBRA ,STRUCTURAL analysis (Engineering) ,MATHEMATICS - Abstract
In the first part of the paper, we propose a different viewpoint on the theory of higher Airy structures (or Airy ideals), which may shed light on its origin. We define Airy ideals in the ħ -adic completion of the Rees Weyl algebra and show that Airy ideals are defined exactly such that they are always related to the canonical left ideal generated by derivatives by automorphisms of the Rees Weyl algebra of a simple type, which we call transvections. The standard existence and uniqueness result in the theory of Airy structures then follow immediately. In the second part of the paper, we construct Airy ideals generated by the nonnegative modes of the strong generators of the principal W -algebra of sp 2 N at level - N - 1 / 2 , following the approach developed in Borot et al. (Mem Am Math Soc, 2021). This provides an example of an Airy ideal in the Heisenberg algebra that requires realizing the zero modes as derivatives instead of variables, which leads to an interesting interpretation for the resulting partition function. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
24. Research on curriculum resources in mathematics education: a survey of the field.
- Author
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Rezat, Sebastian
- Subjects
MATHEMATICS education ,MATHEMATICS textbooks ,RESEARCH questions ,CURRICULUM planning ,CURRICULUM ,MATHEMATICS - Abstract
This survey describes the structure of the field of research on curriculum resources in mathematics education in the period from 2018 till 2023. Based on the procedures of a systematic review relevant literature was identified using Web of Science as a database. The included literature was analyzed and categorized according to the type of curriculum resource and the area of study. Seven areas of studies were identified: studies on the role of curriculum resources, content analysis, user studies, studies on the effects of curriculum resources, studies on curriculum resource design, curriculum resources as data, and reviews. The areas were further subdivided into different subcategories based on the research questions of the included papers. The findings show that research on mathematics textbooks is still predominant in the field. The most popular areas of research are content analysis, user studies, studies on design, and studies on effects. Emerging areas are research on students' use of curriculum resources and the employment of user data from digital curriculum resources as data basis in mathematics education research. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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25. Teacher noticing in mathematics education: a review of recent developments.
- Author
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Weyers, Jonas, König, Johannes, Scheiner, Thorsten, Santagata, Rossella, and Kaiser, Gabriele
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MATHEMATICS education ,MATHEMATICS teachers ,LITERATURE reviews ,MATHEMATICS ,EDUCATION research ,QUALITATIVE research - Abstract
The teacher noticing construct is widely recognized in teacher competence and education research, particularly in the field of mathematics education. This paper surveys recent research on mathematics teacher noticing published between July 2019 and 2022, following an earlier literature review on teacher noticing across different disciplines. The study presented here analyzed 118 English-language articles published in peer-reviewed journals, focusing on conceptualizations, research methods, and relationships with other constructs, including teacher knowledge and beliefs. The findings suggest that the cognitive-psychological perspective on noticing, which emphasizes a set of cognitive processes, remains the predominant conceptualization. Recent research on noticing is characterized by a high proportion of studies based on small samples and qualitative research methods. While several studies have demonstrated the interrelatedness of noticing and professional knowledge, the relationship between noticing and beliefs and between noticing and instructional quality has rarely been addressed. Based on these findings, we highlight noteworthy contributions and critical shortcomings, and suggest directions for future research. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
26. Recent developments in using digital technology in mathematics education.
- Author
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Engelbrecht, Johann and Borba, Marcelo C.
- Subjects
TECHNOLOGY education ,DIGITAL technology ,MATHEMATICS education ,ARTIFICIAL intelligence ,COMPUTER systems ,MATHEMATICS - Abstract
In this paper we review selected significant developments in the use of digital technology in the teaching and learning of mathematics over the last five years. We focus on a number of important topics in this field, including the evolvement of STEAM and critical making as well as the process of redefining learning spaces in the transformation of the mathematics classroom. We also address the increasing use of computer algebra systems and dynamic geometry packages; and the issue of student collaboration online, especially using learning environments and social media. We briefly touch on artificial intelligence systems, including hyper-personalisation of learning, multimodality and videos. We include a brief discussion on the impact of COVID-19 on mathematics education, and lastly on the more theoretical perspective of the epistemology of digital technology and the construct of humans-with-media. We conclude the discussion with some possible concerns and mentioning some possible new topics for research in the field. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
27. Improving mathematics teaching via digital platforms? Implementation processes seen through the lens of instrumental genesis.
- Author
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Tamborg, Andreas Lindenskov
- Subjects
DIGITAL technology ,MATHEMATICS teachers ,MATHEMATICS - Abstract
In this paper, I report the results of a study of a large-scale implementation of an evidence-based, objective-oriented approach to teaching via digital platforms among mathematics teachers in Denmark. The aim of the study was to investigate how these platforms affect the work of mathematics teachers and how emergent problems in this process can be addressed from an implementation perspective. This objective was achieved by applying concepts from the theory of instrumental genesis to analyze ethnographical data of teachers' platform usage and data from participatory workshops. The results of the study indicate that the design of platforms is likely to conflict with the needs of mathematics teachers and thus I argue for the need of addressing such issues by supporting teachers in enacting innovations rather than by redesigning them. Furthermore, in the paper I suggest that future workshop is an adequate format to support such enactments. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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28. Constructing Vision, Surface, and Form in Architecture.
- Author
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Ostwald, Michael J.
- Subjects
GEOMETRICAL constructions ,GEOMETRIC modeling ,COMMERCIAL art ,TWENTIETH century ,MATHEMATICS - Abstract
This letter from the editor introduces Vol. 25(3) of the Nexus Network Journal: Architecture and Mathematics. The research in this issue addresses three interconnected themes, the first of which is the use of projective geometry to model vision or light. The second is about the geometric tiling and construction of surfaces and the final theme, which is also the most extensive, involves the geometric and parametric generation of architectural forms. The twelve research contributions in this issue examine architectural cases from the third century (BCE) to the twentieth century (CE) and building types from commercial and domestic designs to Christian and Islamic religious structures. The issue concludes with a conference report on Bridges Aalto 2022. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
29. Designing Maker initiatives for educational inclusion.
- Author
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Leonard, Simon N., Repetto, Manuela, Kennedy, JohnPaul, Tudini, Enza, and Fowler, Samuel
- Subjects
SOCIOECONOMICS ,MATHEMATICS ,STUDENT attitudes ,METROPOLITAN areas ,DIGITAL technology - Abstract
The "Maker" movement is a cultural as well as educational phenomenon that has the potential to offer significant opportunities to students in conditions of social, economic and cultural disadvantage. The research reported in this paper, however, suggests that the simple provision of "Maker Spaces" for such activity is simplistic and not sufficient to realise this potential. The research involved a mixed methods study of a cohort of year 7 students (n = 26) in an Australian school located in a socio-economically disadvantaged outer-metropolitan region. The cohort undertook a range of Maker activities at a new "creativity centre" built at the school. Results indicate that the activities had positive impact on student attitudes towards science, technology, engineering and mathematics (STEM) overall, but that the impact was highly specific across attitudinal constructs. A strong ranging effect was also evident, suggesting that the impact of the experience was highly dependent on students' initial attitudes. Reflecting on these results, the paper also offers a reference framework that may help keep equity in mind when designing different kinds of Maker experience. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
30. Equity in mathematics education.
- Author
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Vithal, Renuka, Brodie, Karin, and Subbaye, Reshma
- Subjects
MATHEMATICS education ,EDUCATION research methodology ,MATHEMATICS ,DEVELOPING countries ,GENDER inequality ,RESEARCHER positionality - Abstract
This paper reviews research on equity in mathematics education (excluding gender equity) for the period 2017–2022. From the publications identified, five themes were distilled: conceptualizations and framing of equity in mathematics education; research methodologies and researcher positionalities; equity-focused practices, pedagogies and teacher education; equitable mathematics curriculum content, access and pathways; and equity in mathematics education at system levels, nationally and internationally. The review concludes by engaging some of the critique and suggests future directions for research. The research demonstrates that there is growing voice and visibility of equity-focused studies in mathematics education and that conceptualizations of equity have broadened and deepened through an increasing diversity of studies in this area. At the same time, the review also shows the dominance of the Global North in shaping equity discourses and the paucity of research on equity in mathematics education from the Global South. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
31. The Novelty Effect on Assessment Interventions: a Qualitative Replication Study of Oral Performance Assessment in Undergraduate Mathematics.
- Author
-
Iannone, Paola and Vondrová, Naďa
- Subjects
PSYCHOLOGY of students ,QUALITATIVE research ,MATHEMATICS ,PERFORMANCE theory ,ORAL communication ,UNDERGRADUATES - Abstract
This paper reports on a qualitative replication study investigating the impact of the novelty effect on findings from interventions about the assessment of mathematics at university. The replication study used the same data collection tools of a previous study on oral assessment of mathematics, but data were collected in a context where oral assessment is the norm. We aimed to find whether the results of the two studies were comparable and whether there was plausible evidence of an impact of novelty effect on the findings of the original study. The findings of the current study appear to be comparable to those of the original study. Students associate oral assessment with the assessment of conceptual understanding and written assessment with the assessment of procedures; they report being more anxious about the oral assessment, but they perceive oral assessment as a better learning experience than closed book exams. However, in a culture where oral assessment is the norm, we found students engaging with learning also following considerations of the difficulties of other modules taken in the same period of their degree. Finally, in this culture, oral communication of mathematics is also much valued. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
32. Building bridges: a review and synthesis of research on teaching knowledge for undergraduate instruction in science, engineering, and mathematics.
- Author
-
Andrews, Tessa C., Speer, Natasha M., and Shultz, Ginger V.
- Subjects
PEDAGOGICAL content knowledge ,STEM education ,UNDERGRADUATE education ,MATHEMATICS ,EDUCATION research - Abstract
Here, we systematically review research on teaching knowledge in the context of undergraduate STEM education, with particular attention to what this research reveals about knowledge that is important for evidence-based teaching. Evidence-based teaching can improve student outcomes in undergraduate STEM education. However, the enactment of promising evidence-based teaching strategies depends greatly on the instructor and potentially on the teaching knowledge they are able to deploy. The review includes an overview of prevalent teaching knowledge theory, including pedagogical content knowledge, mathematical knowledge for teaching, and pedagogical knowledge. We compare and contrast teaching knowledge theory and terminology across STEM disciplines in order to build bridges for researchers across disciplines. Our search for peer-reviewed investigations of teaching knowledge in undergraduate science, engineering and mathematics yielded 45 papers. We examined the theoretical frameworks used in each study and analyzed study approaches, comparing across disciplines. Importantly, we also synthesized findings from research conducted in the context of evidence-based teaching. Overall, teaching knowledge research is sparse and siloed by discipline, and we call for collaborative work and better bridge-building across STEM disciplines. Though disciplinary divergences are common in discipline-based education research, the effect is magnified in this research area because the theoretical frameworks are themselves siloed by discipline. Investigations of declarative knowledge were common, and we call for increased attention to knowledge used in the practice of teaching. Finally, there are not many studies examining teaching knowledge in the context of evidence-based teaching, but the existing work suggests that components of pedagogical content knowledge, pedagogical knowledge, and content knowledge influence the implementation of evidence-based teaching. We describe implications for future teaching knowledge research. We also call on those who develop and test evidence-based strategies and curriculum to consider, from the beginning, the teaching knowledge needed for effective implementation. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
33. Spreading Speed and Profile for the Lotka–Volterra Competition Model with Two Free Boundaries.
- Author
-
Wang, Zhiguo, Qin, Qian, and Wu, Jianhua
- Subjects
MATHEMATICS ,HABITATS ,SPECIES - Abstract
This paper is concerned with the spreading behavior of a two-species strong-weak competition system with two free boundaries. The model may describe how a strong competing species invades into the habitat of a native weak competing species. The asymptotic spreading speed of invading fronts has been determined by making use of semi-wave systems in Du et al. (J Math Pures Appl 107:253–287, 2017). Here we give a sharp estimate for the asymptotic spreading speed of invading fronts. Moreover, we prove that the solution of the free boundary problem evolves eventually into a semi-wave solution when the spreading happens, while the solution of the free boundary problem exponentially converges to a semi-trivial solution of such system when the vanishing happens. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
34. KAM Tori for the System of Coupled Quantum Harmonic Oscillators with Reversible Perturbations.
- Author
-
Lou, Zhaowei and Wu, Jian
- Subjects
HARMONIC oscillators ,VECTOR fields ,PERTURBATION theory ,QUANTUM theory ,MATHEMATICS - Abstract
In the present paper, we establish an infinite dimensional Kolmogorov–Arnold–Moser (KAM) theorem for reversible systems with double normal frequencies. Applying it, we prove the existence of quasi-periodic solutions for one dimensional coupled nonlinear quantum harmonic oscillators (QHO) with a natural reversible structure. To compensate the lack of smoothing effect of perturbation, we introduce a class of vector fields with polynomial decay which extends the works of Grébert and Thomann (Commun Math Phys 307(2):383–427, 2011) for Hamiltonian QHO. To deal with the reversible, coupled perturbations in the equations, we also introduce a new class of generating vector fields during the KAM iteration. Moreover, the quasi-periodic solutions we obtain may not be linearly stable. This is obviously different from the result in Grébert and Thomann (2011) for Hamiltonian QHO. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
35. Research Arising: The Nexus Conference 2023.
- Author
-
Spallone, Roberta
- Subjects
CONFERENCES & conventions ,MATHEMATICS - Abstract
Nexus Network Journal guest editor Roberta Spallone introduces papers selected from the Nexus Conference 2023 in Turin for detailed review, expansion and development. These papers identify close links between architecture, mathematics, and specific areas of interest related to historical periods, architectural cultures, typological elements, and analysis tools. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
36. A tale of two shuffle algebras.
- Author
-
Neguț, Andrei
- Subjects
ALGEBRA ,MATHEMATICS - Abstract
As a quantum affinization, the quantum toroidal algebra U q , q ¯ (gl ¨ n) is defined in terms of its "left" and "right" halves, which both admit shuffle algebra presentations (Enriquez in Transform Groups 5(2):111–120, 2000; Feigin and Odesskii in Am Math Soc Transl Ser 2:185, 1998). In the present paper, we take an orthogonal viewpoint, and give shuffle algebra presentations for the "top" and "bottom" halves instead, starting from the evaluation representation U q (gl ˙ n) ↷ C n (z) and its usual R-matrix R (z) ∈ End (C n ⊗ C n) (z) (see Faddeev et al. in Leningrad Math J 1:193–226, 1990). An upshot of this construction is a new topological coproduct on U q , q ¯ (gl ¨ n) which extends the Drinfeld–Jimbo coproduct on the horizontal subalgebra U q (gl ˙ n) ⊂ U q , q ¯ (gl ¨ n) . [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
37. Two classes of spectral three-term derivative-free method for solving nonlinear equations with application.
- Author
-
Ibrahim, Abdulkarim Hassan, Alshahrani, Mohammed, and Al-Homidan, Suliman
- Subjects
CONJUGATE gradient methods ,NONLINEAR equations ,COST functions ,LIPSCHITZ continuity ,MATHEMATICS - Abstract
Solving large-scale systems of nonlinear equations (SoNE) is a central task in mathematics that traverses different areas of applications. There are several derivative-free methods for finding SoNE solutions. However, most of the methods contributed to find SoNE solutions involve a monotone cost function. Methods dealing with pseudomonotone cost function remain rare. In this paper, we introduce two classes of derivative-free spectral three-term methods to solve large-scale continuous pseudomonotone SoNE. We combine the projection method of Solodov and Svaiter with the structure of the recently developed spectral three-term conjugate gradient method for unconstrained optimization by Amini and Faramarzi. We prove that the proposed methods possess sufficient descent property, trust region property, and global convergence without relying on Lipschitz continuity. Numerical experiments show that the proposed methods are efficient and competitive with existing methods. Finally, the proposed methods have been successfully applied to recover a sparse signal from incomplete and contaminated sampling measurements, yielding promising results. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
38. Mathematics intelligent tutoring systems with handwritten input: a scoping review.
- Author
-
Rodrigues, Luiz, Pereira, Filipe Dwan, Marinho, Marcelo, Macario, Valmir, Bittencourt, Ig Ibert, Isotani, Seiji, Dermeval, Diego, and Mello, Rafael
- Subjects
INTELLIGENT tutoring systems ,MATHEMATICS education ,TEACHING methods ,EDUCATIONAL equalization ,TEACHER effectiveness - Abstract
Intelligent Tutoring Systems (ITS) have been widely used to enhance math learning, wherein teacher's involvement is prominent to achieve their full potential. Usually, ITSs depend on direct interaction between the students and a computer. Recently, researchers started exploring handwritten input (e.g., from paper sheets) aiming to provide equitable access to ITSs' benefits. However, research on math ITSs ability to handle handwritten input is limited and, to our best knowledge, no study has summarized its state of the art. This article fulfills that gap with a scoping review of handwritten recognition methods, characteristics, and applications of math ITSs compatible with handwritten input. Based on a search of 11 databases, we found eight primary studies that met our criteria. Mainly, we found that all ITSs depend on receiving handwritten input from a touchscreen interface, in contrast to recognizing solutions developed on paper. We also found that most ITSs focus on similar audiences (e.g., English speakers students), subjects (e.g., algebraic questions), and applications (e.g., in-class to understand student perceptions). Thus, towards enabling equitable access to ITSs, we propose ITS Unplugged (i.e., ITSs that i) run on low-cost, resource-restricted devices with little to no internet connection and ii) receive as well as return information in the format target users usually use) and contribute a research agenda concerning challenges of developing such ITSs. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
39. Confirming Mathematical Conjectures by Analogy.
- Author
-
Nappo, Francesco, Cangiotti, Nicolò, and Sisti, Caterina
- Subjects
MATHEMATICAL domains ,ANALOGY ,LOGICAL prediction ,MATHEMATICAL forms ,MATHEMATICIANS ,MATHEMATICS - Abstract
Analogy has received attention as a form of inductive reasoning in the empirical sciences. Its role in mathematics has, instead, received less consideration. This paper provides a novel account of how an analogy with a more familiar mathematical domain can contribute to the confirmation of a mathematical conjecture. By reference to case-studies, we propose a distinction between an incremental and a non-incremental form of confirmation by mathematical analogy. We offer an account of the former within the popular framework of Bayesian confirmation theory. As for the non-incremental notion, we defend its role in rationally informing the prior credences of mathematicians in those circumstances in which no new mathematical evidence is introduced. The resulting framework captures many important aspects of the use of analogical inference in the domain of pure mathematics. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
40. Relating chains of instrumental orchestrations to teacher decision-making.
- Author
-
Ratnayake, Iresha Gayani, Adler, Jill, and Thomas, Mike
- Subjects
DIGITAL technology ,MATHEMATICS teachers ,TEACHERS ,DECISION making ,MATHEMATICS - Abstract
The use of digital technology has the potential to support students' understanding in the mathematics classroom with the teacher playing a vital role. However, teaching with digital technology is not trivial, especially for teachers who are new to this. In this paper, we present an analysis of the enactment of a function lesson of a Sri Lankan mathematics teacher who used digital technology for the first time in her teaching. We combined the instrumental orchestration and ROG (resources, orientations and goals) frameworks into a conceptual framework to analyse her teaching. In particular, we used instrumental orchestration to identify how the teacher orchestrated the resources in her technology-rich classroom. This was combined with ROG theory to understand the reasons underpinning the decisions involved in moving from one orchestration to another. We demonstrate that this teacher showed diverse orchestrations and use the ROG framework to present these in the sequences in which they were used, formed into chains of orchestrations linked by goals. We propose that her didactical performance is a function of orchestration types over in-the-moment decision-making. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
41. Constructing coherency levels to understand connections among the noticing skills of pre-service mathematics teachers.
- Author
-
Rotem, Sigal H. and Ayalon, Michal
- Subjects
STUDENT teachers ,MATHEMATICS teachers ,TEACHER education ,MATHEMATICS ,TEACHERS - Abstract
This study aims to analyze possible connections among the noticing skills of pre-service mathematics teachers, and specifically the skills of attending to students' thinking, interpreting students' mathematical understanding, and proposing teaching alternatives. We characterized these connections in terms of coherency, i.e., the extent to which pre-service teachers take into account (a) an identified critical event—including its mathematics and context—when interpreting students' statements, (b) their own interpretation of students' statements when interpreting the teacher's response, and (c) their own interpretation of students' statements when proposing alternative teaching strategies. The construct of coherency evolved during our attempts to analyze pre-service teachers' interpretations of the critical events they identified while observing mathematics lessons as part of their preparation program. In this paper, we elucidate the construct of coherency and its different levels and demonstrate how this construct relies upon and expands existing ideas from the literature on noticing. We propose a framework for identifying different coherency levels and the different patterns identified when using the framework to noticing among the pre-service teachers. Some of these patterns are supported by previous research, while others were unanticipated. We explore possible explanations for the emergence of these unanticipated patterns. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
42. Common best proximity point theorems in Hausdorff topological spaces.
- Author
-
Sreelakshmi Unni, A. and Pragadeeswarar, V.
- Subjects
HAUSDORFF spaces ,MATHEMATICS ,TOPOLOGICAL spaces - Abstract
In the present paper, we have obtained common best proximity point theorems of nonself maps in Hausdorff topological space. Further, our results extend the results due to Gerald F. Jungck, thereby proving a generalized version of Kirk's theorem (J. London Math. 1(1):107–111, 1969). [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
43. Solving Two-Trust-Region Subproblems Using Semidefinite Optimization with Eigenvector Branching.
- Author
-
Anstreicher, Kurt M.
- Subjects
SEMIDEFINITE programming ,NONCONVEX programming ,EIGENVECTORS ,QUADRATIC programming ,MATHEMATICS - Abstract
Semidefinite programming (SDP) problems typically utilize a constraint of the form X ⪰ x x T to obtain a convex relaxation of the condition X = x x T , where x ∈ R n . In this paper, we consider a new hyperplane branching method for SDP based on using an eigenvector of X - x x T . This branching technique is related to previous work of Saxeena et al. (Math Prog Ser B 124:383–411, 2010, https://doi.org/10.1007/s10107-010-0371-9) who used such an eigenvector to derive a disjunctive cut. We obtain excellent computational results applying the new branching technique to difficult instances of the two-trust-region subproblem. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
44. On Reverse, Recurrent, Periodic, Admissible, Reversible, Dissipative, and Equilibrium Processes.
- Author
-
Podio-Guidugli, Paolo
- Subjects
EQUILIBRIUM ,THERMODYNAMICS ,MATHEMATICS - Abstract
Reference (Ericksen in Q. J. Mech. Appl. Math. 45:545–554, 1992), a short and dense paper by J.L. Ericksen, is taken as a primary source of terms frequently used in continuum thermodynamics, in an attempt to make their significance as precise as possible. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
45. High-order linearly implicit exponential integrators conserving quadratic invariants with application to scalar auxiliary variable approach.
- Author
-
Sato, Shun
- Subjects
MATHEMATICAL analysis ,MATRIX multiplications ,ORDINARY differential equations ,QUADRATIC forms ,MATHEMATICS ,NUMERICAL integration - Abstract
This paper proposes a framework for constructing high-order linearly implicit exponential integrators that conserve a quadratic invariant. This is then applied to the scalar auxiliary variable (SAV) approach. Quadratic invariants are significant objects that are present in various physical equations and also in computationally efficient conservative schemes for general invariants. For instance, the SAV approach converts the invariant into a quadratic form by introducing scalar auxiliary variables, which have been intensively studied in recent years. In this vein, Sato et al. (Appl. Numer. Math. 187, 71-88 2023) proposed high-order linearly implicit schemes that conserve a quadratic invariant. In this study, it is shown that their method can be effectively merged with the Lawson transformation, a technique commonly utilized in the construction of exponential integrators. It is also demonstrated that combining the constructed exponential integrators and the SAV approach yields schemes that are computationally less expensive. Specifically, the main part of the computational cost is the product of several matrix exponentials and vectors, which are parallelizable. Moreover, we conduct some mathematical analyses on the proposed schemes. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. Telescopers for differential forms with one parameter.
- Author
-
Chen, Shaoshi, Feng, Ruyong, Li, Ziming, Singer, Michael F., and Watt, Stephen M.
- Subjects
DIFFERENTIAL forms ,GALOIS theory ,DEFINITE integrals ,MIRROR symmetry ,MATHEMATICS - Abstract
Telescopers for a function are linear differential (resp. difference) operators annihilating the definite integral (resp. definite sum) of this function. They play a key role in Wilf–Zeilberger theory and algorithms for computing them have been extensively studied in the past 30 years. In this paper, we introduce the notion of telescopers for differential forms with D-finite function coefficients. These telescopers appear in several areas of mathematics, for instance parametrized differential Galois theory and mirror symmetry. We give a sufficient and necessary condition for the existence of telescopers for a differential form and describe a method to compute them if they exist. Algorithms for verifying this condition are also given. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
47. Implementation-related research in mathematics education: the search for identity.
- Author
-
Koichu, Boris, Aguilar, Mario Sánchez, and Misfeldt, Morten
- Subjects
MATHEMATICS education ,EDUCATION research ,RESEARCH implementation ,MATHEMATICS - Abstract
Implementation has always been a paramount concern of mathematics education, but only recently has the conceptualizing and theorizing work on implementation as a phenomenon begun in our field. In this survey paper, we conduct a hermeneutic review of mathematics education research identified as related to the implementation problematics. The first cycle of the review is based on examples of studies published in mathematics education journals during the last 40 years. It is organized according to five reasons for developing implementation research. The second cycle concerns 15 papers included in this special issue and is organized by four themes, as follows: objects of implementation, stakeholders in implementation, implementation vs. scaling up, and implementability of mathematics education research. The paper is concluded with a refined glossary of implementation-related terms and suggestions for future research. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
48. The Unreasonable Effectiveness of Mathematics: From Hamming to Wigner and Back Again.
- Author
-
Islami, Arezoo
- Abstract
In a paper titled, “The Unreasonable Effectiveness of Mathematics”, published 20 years after Wigner’s seminal paper, the mathematician Richard W. Hamming discussed what he took to be Wigner’s problem of Unreasonable Effectiveness and offered some partial explanations for this phenomenon. Whether Hamming succeeds in his explanations as answers to Wigner’s puzzle is addressed by other scholars in recent years (Azeri 2020) I, on the other hand, raise a more fundamental question: does Hamming succeed in raising the same question as Wigner? The answer is no. My goal is to show that Hamming’s reading misses Wigner’s highly original formulation of the problem.Through a close and contextual reading of Wigner’s work, as I will show, we are led in new directions in addressing and solving the applicability problem. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
49. Exact sequences for dual Toeplitz algebras on hypertori.
- Author
-
Benaissa, Lakhdar and Guediri, Hocine
- Subjects
HARDY spaces ,ALGEBRA ,C*-algebras ,TOEPLITZ operators ,CALCULUS ,MATHEMATICS - Abstract
In this paper, we construct a symbol calculus yielding short exact sequences for the dual Toeplitz algebra generated by all bounded dual Toeplitz operators on the Hardy space associated with the polydisk D n in the unitary space C n , that have been introduced and well studied in our earlier paper (Benaissa and Guediri in Taiwan J Math 19: 31–49, 2015), as well as for the C*-subalgebra generated by dual Toeplitz operators with symbols continuous on the associated hypertorus T n . [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
50. When mathematics has spirit: Aki Chike Win.
- Author
-
Robinson, Loretta, West, Karen, Daoust, Melissa, Sylliboy, Simon, Lafferty, Anita, Wiseman, Dawn, Lunney Borden, Lisa, Ghostkeeper, Elmer, Glanfield, Florence, Ribbonleg, Monica, and Bernard, Kyla
- Subjects
MATHEMATICS ,CREE (North American people) ,MATHEMATICS examinations, questions, etc. ,SPACE - Abstract
This paper is an examination of the way mathematics, and STEM, arises through stories of teaching and learning on, with, and alongside Land. It emerges from research, undertaken in different Nations (Cree, Dene, Métis, Mi'kmaw, Naskapi, Canada), that considers what locally meaningful K-12 STEM teaching and learning might look like in Indigenous contexts. The paper reflects our research process. Each story is followed by a conversation that surfaces elements of how mathematics, language, learning, and different ways of knowing, being, and doing circulate together and emerge in relation to Land and all relations living within it. We frame the work in ethical relationality to open a space where Indigenous and Western knowledges might co-exist, attending to ongoing tensions in the work between ways of knowing, being, and doing of different people and peoples/nations, between perspectives and experiences of indigenous and non-indigenous participants, between languages, while still creating spaces where we might move closer together through iterative processes of collective learning. This exploration provides insight into how and when we might remember that mathematics has spirit, how quantity and pattern live in various contexts, when numbers might be inadequate for a context, and how all these ideas can meaningfully inform mathematics teaching and learning via relationships between language, mathematics and learners. We seek a mathematics that resists abstraction as extraction and instead lives and enspirits teaching and learning through relationships. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
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