Concepts, Strategies and Models to Enhance Physics Teaching and Learning

This book discusses novel research on and practices in the field of physics teaching and learning. It gathers selected high-quality studies that were presented at the GIREP-ICPE-EPEC 2017 conference, which was jointly organised by the International Research Group on Physics Teaching (GIREP); European Physical Society - Physics Education Division, and the Physics Education Commission of the International Union of Pure and Applied Physics (IUPAP). The respective chapters address a wide variety of topics and approaches, pursued in various contexts and settings, all of which represent valuable contributions to the field of physics education research. Examples include the design of curricula and strategies to develop student competencies-including knowledge, skills, attitudes and values; workshop approaches to teacher education; and pedagogical strategies used to engage and motivate students. This book shares essential insights into current research on physics education and will be of interest to physics teachers, teacher educators and physics education researchers around the world who are working to combine research and practice in physics teaching and learning.

Autorentext
Eilish McLoughlin is an Associate Professor at the School of Physical Sciences and Director of the Research Centre for the Advancement of STEM Teaching and Learning (CASTeL) at Dublin City University. She holds a PhD in Experimental Surface Physics, and over the past 18 years her interests have evolved to focus on physics and science education research. She has led and collaborated in over 30 research projects at the EU, national, and local level that examine the development of curriculum, instruction and assessment models that target integrated STEM and inquiry approaches, at all levels of education, from primary school to the doctoral level. She co-leads the physics initial teacher education programme at Dublin City University and has led several projects that help teachers, both in-service and pre-service, adopt innovative practices in their classrooms and enhance student identity in Physics/STEM. She has received recognition for her leadership in STEM Education and engagement across formal and informal contexts, e.g. the NAIRTL National Award for Teaching Excellence (2010); Young Professional Physicist of the Year Award (2016); Dublin City University's President Award for Public Engagement (2017); and the Institute of Physics Lise Meitner Medal (2018). Paul van Kampen is an Associate Professor at the School of Physical Sciences and researcher at the Centre for the Advancement of STEM Teaching and Learning (CASTeL), Dublin City University. Holding a PhD in experimental atomic physics, his current research interest is in the research-based development of teaching-learning sequences in university-level physics and science teacher education. He teaches physics and physics education at the undergraduate and graduate level, and is actively involved in science teacher education. He was honoured with the NAIRTL National Award for Excellence in Teaching Award for Excellence in Teaching and Learning in 2012, and currently chairs the Irish National Council for Curriculum and Assessment's Development Group for Junior Cycle Science.

Inhalt
Part I: Development of Physics teaching and learning in schools.- 1 Newton's Apple And Einstein's Timewarp, New Ideas In Teaching Gravity, Warren Stannard.- 2 Using The Electron-Gas Model In Lower Secondary Schools - A Binational Design-Based Research Project, Claudia Haagen-Schützenhöfer.- 3 The Virtual Sandbox An Approach To Introduce Principles Of Granular Flow Physics In The Classroom, Olga Gkioka.- 4 Three Stories, Three Toolkits: Magnetize Attention, Light Up Coloured Ideas, Gas Fantasy Into Science, Sara Roberta Barbieri.- 5 Mathematics - A Quasi-Natural Science At School?, Eduard Krause.- Part II: Innovation in Undergraduate Physics Education.- 6 A 5E-Based Learning Workshop on Various Aspects of the Hall Effect, Dominique Persano-Adorno.- 7 The Broken Mirror: The Foundations of Thermodynamics and the Failure of Mathematics to Reflect the Physics, David Sands.- 8 Computer Modelling in Physics Education: Dealing with Complexity, Onne van Buuren.- 9 Development of Data Processing Skills of Physics Students in Intermediate Laboratory Courses, Inkeri Kontro.- 10 Evaluation Of An Experimental Sequence On Introductory Quantum Physics Based On Leds And The Photoelectric Effect., Massimiliano Malgieri.- 11 The Role Of Playing In The Representation Of The Concept Of Energy: A Lab Experience For Future Primary School Teachers, Alessandra Landini.- Part III: Trends in Physics Teacher Education.- 12 Development and Assessment of Inquiry Skills in the Context of Socioscientific Issues with Pre-Service Teachers, Ruth Chadwick.- 13 Responsibility of Teachers The SSIBL Model in Hungary, Prof. Péter Tasnádi.- 14 Using Self-Video-Based Conversations in Training Physics Teachers, Yaron Lehavi.- 15 A Workshop Approach to Pre-Service Physics Teacher Education, Paul van Kampen.- 16 Views and Strategies of Teachers Concerning the Role of Mathematics and Physics in Physics Lessons, Gesche Pospiech.- Part IV: Bridging gaps in student motivation and engagement in Physics.- 17 Project Accelerate: Closing The Access Gap To Physical Science Careers And Academic Programs, Mark D. Greenman.- 18 There Are No Things Inside Things: An Augmented Lecture To Bridge The Gap Between Formal And Informal Physics Education, Marco Giliberti.- 19 Pedagogical Strategies To Increase Students' Engagement And Motivation, Claudia De Grandi.- 20. The Dust Catcher: Discovering The Educational Value Of The Historical Scientific Heritage, Marta Rinaudo.