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Download full textEmre Savas; Aysel Kocakulah – Science Insights Education Frontiers, 2025
This study aims to investigate the effect of the teaching model developed for hot conceptual change on middle school 7th-grade students' understanding of the Nature of Science (NOS) aspects. In this qualitative and exploratory study, activities were carried out with 24 students of two classes in a village school in the South Marmara region using a…
Descriptors: Scientific Principles, Scientific Concepts, Concept Formation, Grade 7
Direct linkGow, Ellen; Kruse, Jerrid; Wees, Susan; Dee, Kristy; Hernandez, Leslie – Science and Children, 2023
As an introduction to sound and vibration, the authors wanted their first-grade students to plan and conduct their own investigations. In this article, the authors share a series of investigations to help students explore the relationship between sound and vibration. By planning, creating, testing, adapting, and reflecting on the outcomes of the…
Descriptors: Science Education, Acoustics, Grade 1, Elementary School Students
Minchul Kim; Sangwoo Ha – Science & Education, 2024
Although Ohm's law contains various possibilities in teaching and learning scientific inquiry, it is rare for students to experience an authentic inquiry. Thus, we designed an open-ended in-depth inquiry about Ohm's law and made students conduct it. To do this, we developed a laboratory activity for students following a standard method of Ohm's…
Descriptors: Physics, Scientific Concepts, Concept Formation, Science Instruction
Wilcox, Jesse; Reiter, Reade; Rose, Abby; Alberts, Alex; Murano, Katie – Science and Children, 2022
Although the "Next Generation Science Standards" (NGSS) have three dimensions, the crosscutting concepts are often the forgotten dimension. One reason teachers may not emphasize the crosscutting concepts might be because they are broad, domain-general constructs that can be difficult to conceptualize in a meaningful way. Yet, when taught…
Descriptors: Science Instruction, Scientific Principles, Teaching Methods, Inquiry
Murphy, Clíona; Smith, Greg; Broderick, Nicola – Research in Science Education, 2021
This paper explores the effect teachers' participation in a targeted inquiry-based/nature of science (NoS) continuing professional development programme had on Irish primary children's experiences of scientific inquiry and developing conceptions of NoS. Data were gathered from 459 children from 10 Dublin schools. The findings revealed that their…
Descriptors: Inquiry, Scientific Principles, Faculty Development, Program Effectiveness
Zohar, B. Ron; Trumper, R. – Journal of Science Education and Technology, 2020
Since the 1980s, studies have increasingly shown that traditional teaching causes a deterioration in students' conceptions of physics and of learning physics. The present study examined the influence of an intervention on high school students' conceptions of physics and of learning physics. The intervention included two components: a unique design…
Descriptors: Physics, Robotics, Science Instruction, Teaching Methods
Taniguchi, Darcy A. A.; Taniguchi, James; Ridgway, Sam; Schulz, Kathryn – Physics Teacher, 2019
The lesson presented here provides a multifaceted inquiry-based opportunity to develop a deep grasp of Archimedes' principle. It was originally developed for high school teachers as part of their training in the basic structure of the Next Generation Science Standards. There are numerous demonstrations illustrating Archimedes' principle, many of…
Descriptors: Science Instruction, Inquiry, Scientific Principles, High Schools
Lederman, J. S.; Lederman, N. G.; Bartels, S.; Jimenez, J.; Acosta, K.; Akubo, M.; Aly, S.; de Andrade, M. A. B. S.; Atanasova, M.; Blanquet, E.; Blonder, R.; Brown, P.; Cardoso, R.; Castillo-Urueta, P.; Chaipidech, P.; Concannon, J.; Dogan, O. K.; El-Deghaidy, H.; Elzorkani, A.; Ferdous, T.; Fukuda, N.; Gaigher, E.; Galvis-Solano, L.; Gao, Q.; Guo, S.; Gwekwerere, Y.; Gyllenpalm, J.; Hamed Al-Lal, S.; Han-Tosunoglu, C.; Hattingh, A.; Holliday, G.; Huang, X.; Irez, S.; Jiménez, J.; Kay, G.; Koumara, A.; Kremer, K.; Kuo, P.-C.; Lavonen, J.; Leung, J. S. C.; Liao, Z.; Librea-Carden, M. R.; Lin, S. -F.; Liu, C.; Liu, E.; Liu, S. -Y.; Mamlok-Naaman, R.; Mcdonald, C. V.; Möller, A.; Morales, M.; Mulvey, B. K.; Neumann, I.; Neurohr, A.-L.; Pan, Y.; Panjaburee, P.; Penn, M.; Plakitsi, K.; Picholle, E.; Ramnarain, U.; Raykova, Z.; Rundgren, C.-J.; Salonen, S.; Santibáñez-Gómez, D.; Schwartz, R.; Sharma, R.; Srisawasdi, N.; Takiveikata, S.; Urueta-Ortiz, T.; Vitlarov, K.; Voitle, F.; Wishart, J. – International Journal of Science Education, 2021
Understandings of the nature of scientific inquiry (NOSI), as opposed to engaging students in inquiry learning experiences, are included in science education reform documents around the world. However, little is known about what students have learned about NOSI during their pre-college school years. The purpose of this large-scale follow-up…
Descriptors: High School Students, Scientific Principles, Science Instruction, Grade 12
Jiménez-Liso, Maria Rut; López-Banet, Luisa; Dillon, Justin – Science & Education, 2020
We propose explicit and implicit approaches for the teaching of acid-base chemistry based on research into the history and nature of science (NoS). To support these instructional proposals, we identify four rationales for students to understand acid-base processes: daily life, socio-scientific, curriculum, and history of science. The extensive…
Descriptors: Chemistry, Science Instruction, Teaching Methods, Scientific Concepts
Lorsbach, Anthony W.; Meyer, Allison Antink; Arias, Anna Maria – Science & Education, 2019
This study took place in an introductory science inquiry course for preservice elementary school teachers as a supplement to lessons on critical thinking. The correspondence of Charles Darwin was used to provide historical context to nature of science concepts of the sociocultural embeddedness of science, the subjective and reflective nature of…
Descriptors: Scientific Principles, Science Instruction, Teaching Methods, Inquiry
Kampourakis, Kostas – Journal of Research in Science Teaching, 2016
Teaching about nature of science (NOS) is considered as an important goal of science education in various countries. Extensive empirical research about how some aspects of NOS can be effectively taught is also available. The most widely adopted conceptualization of NOS is based on a small number of general aspects of NOS, which fall into two…
Descriptors: Science Education, Scientific Principles, Science Instruction, Teaching Methods
Kerstiens, Geri Anne – ProQuest LLC, 2019
Recently, there have been many calls for an increase in instruction on the nature of science (NOS) in schools (i.e. NRC, 1996; NGSS Lead States, 2013). These calls recognize the importance of this topic at all levels of science education, but there is little guidance in terms of how to address it effectively in curricula. Similarly, there have…
Descriptors: Scientific Principles, Science Instruction, Chemistry, Science Laboratories
Gyllenpalm, Jakob; Christiansson, Ulf; Friggebo, Patrik – Physics Education, 2018
Laboratory work in physics has traditionally focused on the verification of facts, theories and laws. In contrast, this article describes how laboratory tasks can be used to promote students understanding about the nature of science and scientific inquiry. In the project reported here, students learn about measurement uncertainties and a…
Descriptors: Science Instruction, Physics, Science Laboratories, Scientific Concepts
Akerson, Valarie L.; Avsar Erumit, Banu; Elcan Kaynak, Naime – International Journal of Science Education, 2019
This study incorporated Nature of Science (NOS) within children's literature in a science methods course to aid preservice early childhood teachers in improving their NOS understandings and abilities to transfer NOS into formats accessible to early childhood students. Through a qualitative research design, researchers collected data including pre…
Descriptors: Science Instruction, Scientific Principles, Early Childhood Education, Preservice Teacher Education
Kireš, Marián – Center for Educational Policy Studies Journal, 2018
We have developed and verified laboratory work as guided inquiry for upper secondary level students, focusing on conceptual understanding of the physical principle that forms the basis of temperature measurement, and on improvement of selected skills. Conceptual pre-test questions initiate the students' interest and help identify input…
Descriptors: Secondary School Students, Measurement, Laboratory Equipment, Scientific Concepts
