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A. Lynn Stephens – Journal of Research in Science Teaching, 2024
It is widely recognized that we need to prepare students to think with data. This study investigates student interactions with digital data graphs and seeks to identify what might prompt them to shift toward using their graphs as thinking tools in the authentic activity of doing science. Drawing from video screencast data of three small groups…
Descriptors: Graphs, Data, Interaction, Electronic Learning
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Alifia Rahmasari; Heru Kuswanto – Journal of Technology and Science Education, 2023
This research aimed to reveal the effectiveness of using a Problem-Based Learning (PBL) physics pocketbook integrating augmented reality (AR) with the local wisdom of catapults in improving the mathematical and graphical representation abilities of high school students. This study is a quasi-experiment with a pretest-posttest control group design.…
Descriptors: Foreign Countries, Problem Based Learning, Physics, Science Instruction
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Correia, Ana-Paula; Koehler, Natalya; Thompson, Ann; Phye, Gary – Research in Science & Technological Education, 2019
Background: A multimedia software designed as a Computer-Assisted Scaffolding system was used to teach gas behavior on the submicroscopic level using Physics Education Technology Project (PhET) simulation. PhET is a set of interactive, research-based science and mathematics online simulations (https://phet. colorado.edu/). Purpose: The purpose was…
Descriptors: Secondary School Science, Computer Simulation, Computer Assisted Instruction, Scaffolding (Teaching Technique)
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Namgyel, Tshewang; Bharaphan, Khajornsak – Asia-Pacific Forum on Science Learning and Teaching, 2017
Photoelectric effect is regarded as one difficult topic in physics for science students because it is the abstract and multidimensional phenomenon. This study aims to develop the learning unit incorporated simulation and game with the 5E learning cycle for promoting the grade 12 science students' understanding of photoelectric effect and learning…
Descriptors: Computer Games, Computer Simulation, Grade 12, Physics
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Blikstein, Paulo; Gomes, July Silveira; Akiba, Henrique Teruo; Schneider, Bertrand – Technology, Knowledge and Learning, 2017
Technology is changing the way students interact with knowledge, and open-ended activities are one of the main types of tasks that students engage with in technology-rich environments. However, the amount of guidance needed to promote learning in these environments remains unknown. We explore this issue by focusing on the effects of step-by-step…
Descriptors: Teaching Methods, Educational Technology, Technology Uses in Education, Arousal Patterns
Johnson, Carla C., Ed.; Walton, Janet B., Ed.; Peters-Burton, Erin E., Ed. – NSTA Press, 2018
What if you could challenge your 12th graders to understand car crashes in the context of physical forces, manufacturing challenges, government safety standards, and individual rights? With this volume in the "STEM Road Map Curriculum Series," you can! "Car Crashes" outlines a journey that will steer your students toward…
Descriptors: STEM Education, High School Students, Physics, Mathematics Instruction
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Crook, Simon J.; Sharma, Manjula D.; Wilson, Rachel – Contemporary Issues in Technology and Teacher Education (CITE Journal), 2015
Using a mixed-methods approach the authors compared the associated practices of senior physics teachers (n = 7) and students (n = 53) in a 1:1 laptop environment with those of senior biology teachers (n = 10) and students (n = 125) also in a 1:1 laptop environment, in seven high schools in Sydney, NSW, Australia. They found that the physics…
Descriptors: Comparative Analysis, Physics, Biology, Science Teachers
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Quale, Andreas – Physics Education, 2012
In the teaching of physics at upper secondary school level (K10-K12), the students are generally taught to solve problems analytically, i.e. using the dynamics describing a system (typically in the form of differential equations) to compute its evolution in time, e.g. the motion of a body along a straight line or in a plane. This reduces the scope…
Descriptors: Physics, Spreadsheets, Teaching Methods, Equations (Mathematics)
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Vick, Matthew E. – Science Teacher, 2010
The University of Colorado's Physics Education Technology (PhET) website offers free, high-quality simulations of many physics experiments that can be used in the classroom. The Circuit Construction Kit, for example, allows students to safely and constructively play with circuit components while learning the mathematics behind many circuit…
Descriptors: Physics, Educational Technology, Electronics, Simulation
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Psycharis, Sarantos – Computers & Education, 2011
Contemporary instructional approaches expect students to be active producers of knowledge. This leads to the need for creation of instructional tools and tasks that can offer students opportunities for active learning. This study examines the effect of a computational experiment as an instructional tool-for Grade 12 students, using a computer…
Descriptors: Computer Simulation, Physics, Discovery Learning, Active Learning