Search results for "Physics Education Research"

showing 6 items of 6 documents

Eye-Movement Study of Mechanics Problem Solving Using Multimodal Options

2020

We used an eye-tracking method to investigate students’ approaches to solving a physics task using various representations. Eight upper-secondary school students from Finland took part in the study. We found that students who preferred either the text or graph representations watched the options differently, but they used both representations to be sure of their solution. Transitions between text and graph alternatives were different for students preferring either text or graph representations. Interviews revealed typical misconceptions about the concept of force. Implications for physics instruction are presented. peerReviewed

oppiminenHuman–computer interactionphysics education research concepts in physicsteaching and learning physicsComputingMilieux_COMPUTERSANDEDUCATIONGraph (abstract data type)Eye movementfysiikkafysiikanopettajatopetus
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Instruction-based clinical eye-tracking study on the visual interpretation of divergence : how do students look at vector field plots?

2018

Relating mathematical concepts to graphical representations is a challenging task for students. In this paper, we introduce two visual strategies to qualitatively interpret the divergence of graphical vector field representations. One strategy is based on the graphical interpretation of partial derivatives, while the other is based on the flux concept. We test the effectiveness of both strategies in an instruction-based eye-tracking study with N = 41 physics majors. We found that students’ performance improved when both strategies were introduced (74% correct) instead of only one strategy (64% correct), and students performed best when they were free to choose between the two strategies (88…

QC1-999graafinen esitysUndergraduate StudentsPhysics Education ResearchGeneral Physics and AstronomyResearch MethodologyContext (language use)LernenAssessmentMachine learningcomputer.software_genre01 natural sciencesEducationVisual processingsilmänliikkeetddc:370Concept learning0103 physical sciencesvektorit (matematiikka)ddc:530ta516Wissensrepräsentation010306 general physicsDivergence (statistics)graphical representationsvisual processingeye-trackingLC8-6691studentsopiskelijatbusiness.industryPhysicsMultimethodology05 social sciencesConcepts & Principles050301 educationKognitives LernenSpecial aspects of educationSaccadic maskingPhysikdidaktikEye trackingPartial derivativeArtificial intelligencebusinessvector fields0503 educationcomputer
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Does using a visual-representation tool foster students’ ability to identify forces and construct free-body diagrams?

2013

Earlier research has shown that after physics instruction, many students have difficulties with the force concept, and with constructing free-body diagrams (FBDs). It has been suggested that treating forces as interactions could help students to identify forces as well as to construct the correct FBDs. While there is evidence that identifying interactions helps students in quantitative problem solving, there is no previous research investigating the effect of a visual-representation tool—an interaction diagram (ID)—on students’ ability to identify forces, and to construct the correct FBDs.We present an empirical study conducted in 11 Finnish high schools on students (n ¼ 335, aged 16) takin…

voiman käsiteNewtonin laitQC1-999General Physics and Astronomy01 natural sciencesEducationEmpirical research0103 physical sciencesMathematics educationta516voima010306 general physicsRepresentation (mathematics)Science instructionLC8-6691Interaction overview diagramPhysics4. Education05 social sciences050301 educationinteraction diagramPhysics education researchFree body diagramSpecial aspects of educationvuorovaikutuskaavioConstruct (philosophy)Psychology0503 educationfysiikan opetuksen tutkimusPhysical Review Special Topics - Physics Education Research
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Pedagogical approaches to surface phenomena in liquids: Investigation-based laboratory and modelling activities to improve students’ learning

2023

Paperclips can float on water, mercury drops do not spread on solid surfaces, and fluids can flow against gravity in capillary tubes. Surface tension can be used to explain these phenomena that are macroscopic manifestations of microscopic molecular interactions. At both school and university levels, surface phenomena are introduced through traditional macroscopic or microscopic approaches. However, since explanations based on microscopic models are often in conflict with common macroscopic interpretations, the traditional teaching of the basic concepts related to surface phenomena can be unclear and can prevent students from an effective understanding of the topic. However, since surface p…

Physics Education Research Surface Phenomena Teaching/Learning Sequence Inquiry-Based Learning Learning Dimensions Qualitative AnalysisSettore FIS/08 - Didattica E Storia Della Fisica
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Enriching gender in physics education research: A binary past and a complex future

2016

[This paper is part of the Focused Collection on Gender in Physics.] In this article, we draw on previous reports from physics, science education, and women’s studies to propose a more nuanced treatment of gender in physics education research (PER). A growing body of PER examines gender differences in participation, performance, and attitudes toward physics. We have three critiques of this work: (i) it does not question whether the achievements of men are the most appropriate standard, (ii) individual experiences and student identities are undervalued, and (iii) the binary model of gender is not questioned. Driven by these critiques, we propose a conception of gender that is more up to date…

QC1-999Physics educationGeneral Physics and Astronomy01 natural sciencesScience educationFeminismsukupuoliEducation0103 physical sciencesgenderGender biasMathematics educationta516gender identityphysics education research010306 general physicsSexual identityLC8-6691Physics05 social sciences050301 educationGroup dynamicSpecial aspects of educationEducational researchCriticismsukupuoli-identiteetti0503 educationPhysical Review Physics Education Research
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Physics education research: A research subfield of physics with gender parity

2015

Women currently outnumber men in obtaining undergraduate degrees but are underrepresented within STEM fields. However, women’s representation varies by STEM field, and even further by STEM subfield. One field that has held a persistent low representation of women is physics. This paper seeks to uncover the truth behind an anecdotal claim that the subfield of physics education research (PER) has a higher representation of women than physics as a whole. Graduate students in PER completed an online survey to assess their demographics, trajectory in PER, climate experiences, and goals for their research. The response rate for the survey was 68%, yielding 125 total respondents. This paper will f…

LC8-6691PhysicsQC1-999Physics educationGeneral Physics and AstronomyParity (physics)Peer relationshipsSpecial aspects of educationEducationsukupuoliEducational researchGraduate studentsPedagogyMathematics educationgenderta516physics education researchQualitative research
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