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Showing 1 to 15 of 281 results Save | Export
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Mohamad Ikram Zakaria; Chuzairy Hanri; Sri Hastuti Noer; Mella Triana; Widyastuti – Journal of Education and Learning (EduLearn), 2025
Education 4.0 strongly promotes the development of communication, collaboration, critical thinking, and creativity (4C) skills among students. Consequently, it is crucial for mathematics teachers to integrate activities that facilitate the cultivation of these skills. However, the scarcity of resources, such as recommended instructional…
Descriptors: Skill Development, Learning Activities, Mathematics Teachers, Mathematics Instruction
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Karamustafaoglu, Orhan; Pektas, Hüseyin Miraç – Education and Information Technologies, 2023
There is a great need for applied studies at the K-12 level on how creative problem solving skills can be developed in out-of-school environments and what kind of learning activities can be used. Therefore, in this study, the effects of inquiry-based STEM (Science, Technology, Engineering and Mathematics) activities on students' STEM awareness and…
Descriptors: Creative Thinking, Problem Solving, Active Learning, Inquiry
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Baumanns, Lukas; Rott, Benjamin – Research in Mathematics Education, 2022
This article aims to develop a framework for the characterisation of problem-posing activities. The framework links three theoretical constructs from research on problem posing, problem solving, and psychology: (1) problem posing as an activity of generating new or reformulating given problems, (2) emerging tasks on the spectrum between routine…
Descriptors: Teaching Methods, Problem Solving, Mathematics Instruction, Guidelines
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Paola Julie Aguilar-Cruz; Sdenka Zobeida Salas-Pilco – Technology, Pedagogy and Education, 2025
The introduction of artificial intelligence (AI) in education is seen as a promising tool to enhance learning outcomes and provide students with engaging learning environments in developing countries such as Colombia. This case study aimed to investigate teachers' perceptions of AI in K-12 education in public schools located in the Amazonian…
Descriptors: Teacher Attitudes, Ethics, Artificial Intelligence, Computer Software
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Lee, Irene; Malyn-Smith, Joyce – Journal of Science Education and Technology, 2020
This paper describes analyses of the K-12 computational thinking (CT) integration activities collected at two NSF-funded workshops, "Developing an Interdisciplinary Framework for Integrating Computational Thinking in K-12 Science, Mathematics, Technology, and Engineering Education," held in August and November of 2017 at Education…
Descriptors: Elementary Secondary Education, Interdisciplinary Approach, STEM Education, Computation
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Joni M. Lakin; Jon Wai; Paula Olszewski-Kubilius; Susan Corwith; Danielle Rothschild; David Uttal – Grantee Submission, 2024
Spatial thinking permeates much of our lives and is an asset when solving problems involving well-structured visual information or imagining solutions in physical or digital space. However, an estimated three million US school children have spatial talents that go unrecognized because of the tools commonly used for identification of academic…
Descriptors: Spatial Ability, Thinking Skills, Problem Solving, Mathematics
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Joni M. Lakin; Jonathan Wai; Paula Olszewski-Kubilius; Susan Corwith; Danielle Rothschild; David H. Uttal – Gifted Child Today, 2024
Spatial thinking permeates much of our lives and is an asset when solving problems involving well-structured visual information or imagining solutions in physical or digital space. However, an estimated three million US school children have spatial talents that go unrecognized because of the tools commonly used for identification of academic…
Descriptors: Spatial Ability, Thinking Skills, Problem Solving, Mathematics
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Ezeamuzie, Ndudi O.; Leung, Jessica S. C.; Ting, Fridolin S. T. – Journal of Educational Computing Research, 2022
Although abstraction is widely understood to be one of the primary components of computational thinking, the roots of abstraction may be traced back to different fields. Hence, the meaning of abstraction in the context of computational thinking is often confounded, as researchers interpret abstraction through diverse lenses. To disentangle these…
Descriptors: Computer Science Education, Thinking Skills, Research Reports, Abstract Reasoning
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Evmorfia-Iro Bartzia; Michael Lodi; Marco Sbaraglia; Simon Modeste; Viviane Durand-Guerrier; Simone Martini – Informatics in Education, 2024
In this paper, we present an activity to introduce the idea of public-key cryptography and to make pre-service STEM teachers explore fundamental informatics and mathematical concepts and methods. We follow the Theory of Didactical Situations within the Didactical Engineering methodology (both widely used in mathematics education research) to…
Descriptors: Information Science Education, Mathematics Education, Problem Solving, Teaching Methods
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Jackson, Christa; Buchheister, Kelley Woolford; Taylor, Cynthia E. – Investigations in Mathematics Learning, 2023
Lesson planning is a crucial component of effective mathematics instruction. However, existing lesson planning frameworks and design models do not explicitly foreground equity and inclusion within instructional planning which are necessary in teaching every student. The What-How-Who structure frames the planning process by foregrounding who the…
Descriptors: Equal Education, Mathematics Instruction, Lesson Plans, Instructional Design
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Brady, Corey; McLean, Jeffrey; Jung, Hyunyi; Dominguez, Angeles; Baker, Courtney; Glancy, Aran – North American Chapter of the International Group for the Psychology of Mathematics Education, 2019
The Models and Modeling Working Group at PME-NA has provided a forum for discussing and collaborating on projects fundamental to research on mathematical modeling since the first PME-NA conference in 1978. We propose to convene this Working Group at PME-NA 41 with a dual purpose: (1) to build on a theme begun in Greenville, holding a focused…
Descriptors: Mathematical Models, Mathematics Instruction, Teaching Methods, Problem Solving
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Sung, Euisuk – Technology and Engineering Teacher, 2019
Computational thinking has been popularized in the last decade, particularly with the emphasis on coding education in K-12 schools. The core idea of computational thinking has a close relationship with technology and engineering education (TEE). TEE has emphasized the use of computing skills to solve problems, and integrative STEM education…
Descriptors: Skill Development, Computation, STEM Education, Engineering
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Swan, Paul – Australian Primary Mathematics Classroom, 2018
In order to solve word problems, students need to be able not just to read the words but comprehend what they mean. Paul Swan discusses three tiers of vocabulary that need to be included in the pedagogy of mathematics lessons and strategies for classroom practice.
Descriptors: Word Problems (Mathematics), Problem Solving, Mathematics Instruction, Numeracy
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Odom, Arthur Louis; Bell, Clare Valerie – Journal of Statistics Education, 2017
This article offers a description of how empirical experiences through the use of procedural knowledge can serve as the stage for the development of hypothetical concepts using the learning cycle, an inquiry teaching and learning method with a long history in science education. The learning cycle brings a unique epistemology by way of using…
Descriptors: Preservice Teachers, Preservice Teacher Education, Skill Development, Elementary Secondary Education
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Gunckel, Kristin L.; Tolbert, Sara – Journal of Research in Science Teaching, 2018
The push for STEM has raised the visibility of engineering as a discipline that all students should learn. With the release of the "Framework for K-12 Science Education" and the Next Generation Science Standards (NGSS), engineering now has an official place in the science curriculum. In both the "Framework" and the NGSS,…
Descriptors: Engineering Education, Science Instruction, Standards, Elementary Secondary Education
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