Jochen Kuhn 个人学术档案 - 学术资源搜索

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Pascal KleinPhysics Education Research, Georg-August-University Göttingen在 uni-goettingen.de 的电子邮件经过验证
Patrik VogtInstitut für Lehrerfort- und -weiterbildung (ILF) Mainz在 ilf-mainz.de 的电子邮件经过验证
Stefan KüchemannLMU München在 lmu.de 的电子邮件经过验证
Andreas MüllerScience Education, University of Geneva在 unige.ch 的电子邮件经过验证
Thomas WilhelmProfessor für Didaktik der Physik在 physik.uni-frankfurt.de 的电子邮件经过验证
Prof. Sebastian Becker-GenschowAG Digitale Bildung l Universität zu Köln在 uni-koeln.de 的电子邮件经过验证
Sebastian KappGymnasium im Paul-von-Denis-Schulzentrum Schifferstadt在 gym-schiff.de 的电子邮件经过验证
Paul LukowiczProfessor of Computer Science, DFKI and University of Kaiserslautern在 dfki.de 的电子邮件经过验证
Albrecht SchmidtProfessor of Computer Science, LMU Munich在 ifi.lmu.de 的电子邮件经过验证
Andreas DengelProfessor of Computer Science, University of Kaiserslautern & Executive Director, DFKI在 dfki.de 的电子邮件经过验证
PD Dr. Sarah MaloneDepartment of Education, Saarland University在 mx.uni-saarland.de 的电子邮件经过验证
K HochbergTU Kaiserslautern在 physik.uni-kl.de 的电子邮件经过验证
Jouni Viirihttps://www.jyu.fi/edupsy/fi/laitokset/okl/en/staff/viiri-jouni在 edu.jyu.fi 的电子邮件经过验证
Katharina ScheiterUniversity of Potsdam在 uni-potsdam.de 的电子邮件经过验证
Shoya IshimaruProject Professor of Computer Science, Osaka Metropolitan University在 omu.ac.jp 的电子邮件经过验证
Saleh MozafariWidasConcepts GmbH在 widas.de 的电子邮件经过验证
Andreas LichtenbergerETH Zürich在 phys.ethz.ch 的电子邮件经过验证
Norbert WehnUniversity of Kaiserslautern在 eit.uni-kl.de 的电子邮件经过验证
Pascal KnierimAssistant Professor of Computer Science, University of Innsbruck在 uibk.ac.at 的电子邮件经过验证
Daniel SonntagDFKI and University of Oldenburg在 dfki.de 的电子邮件经过验证

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Jochen Kuhn

Professor (full), Chair of Physics Education, Faculty of Physics, Ludwig-Maximilians-Universität

在 lmu.de 的电子邮件经过验证 - 首页

Physics Education Research Multiple Representations Multimedia Learning Human-Centered AI Eye Tracking


标题按引用次数排序按年份排序按标题排序	引用次数引用次数	年份
ChatGPT for Good? On Opportunities and Challenges of Large Language Models for Education E Kasneci, K Sessler, S Küchemann, M Bannert, D Dementieva, F Fischer, ... Learning and Individual Differences 3, 102274, 2023	2265	2023
Effects of augmented reality on learning and cognitive load in university physics laboratory courses M Thees, S Kapp, MP Strzys, F Beil, P Lukowicz, J Kuhn Computers in Human Behavior 108, 106316, 2020	316	2020
Analyzing free fall with a smartphone acceleration sensor P Vogt, J Kuhn The Physics Teacher 50 (3), 182-183, 2012	246	2012
Using Smartphones as Experimental Tools—Effects on Interest, Curiosity, and Learning in Physics Education K Hochberg, J Kuhn, A Müller Journal of Science Education and Technology 27 (5), 385–403, 2018	225	2018
The use of augmented reality to foster conceptual knowledge acquisition in STEM laboratory courses—Theoretical background and empirical results K Altmeyer, S Kapp, M Thees, S Malone, J Kuhn, R Brünken British Journal of Educational Technology 51 (3), 611-628, 2020	169	2020
Smartphones as experimental tools: Different methods to determine the gravitational acceleration in classroom physics by using everyday devices. J Kuhn, P Vogt European Journal of Physics Education 4 (1), 16-27, 2013	153	2013
Analyzing simple pendulum phenomena with a smartphone acceleration sensor P Vogt, J Kuhn The Physics Teacher 50 (7), 439-440, 2012	148	2012
Analyzing spring pendulum phenomena with a smart-phone acceleration sensor J Kuhn, P Vogt The Physics Teacher 50 (8), 504-505, 2012	147	2012
Classical experiments revisited: smartphones and tablet PCs as experimental tools in acoustics and optics P Klein, M Hirth, S Gröber, J Kuhn, A Müller Physics Education 49 (4), 412-418, 2014	131	2014
Authentische Aufgaben im theoretischen Bereich von Instruktions-und Lehr-Lern-Forschung J Kuhn Springer-Verlag, 2010	125	2010
Using mobile devices to enhance inquiry-based learning processes S Becker, P Klein, A Gößling, J Kuhn Learning and Instruction 69, 101350, 2020	123	2020
Analyzing acoustic phenomena with a smartphone microphone J Kuhn, P Vogt The Physics Teacher 51 (2), 118-119, 2013	120	2013
Context-based science education by newspaper story problems: A study on motivation and learning effects J Kuhn, A Müller Perspectives in Science 2 (1-4), 5-21, 2014	117	2014
Applications and examples of experiments with mobile phones and smartphones in physics lessons J Kuhn, P Vogt Frontiers in Sensors 1 (4), 67-73, 2013	105	2013
Physics holo. lab learning experience: Using Smartglasses for Augmented Reality labwork to foster the concepts of heat conduction MP Strzys, S Kapp, M Thees, P Klein, P Lukowicz, P Knierim, A Schmidt, ... European Journal of Physics 39 (3), 035703, 2018	103	2018
Angular velocity and centripetal acceleration relationship M Monteiro, C Cabeza, AC Marti, P Vogt, J Kuhn The Physics Teacher 52 (5), 312-313, 2014	99	2014
Using smartphones as experimental tools—a follow-up: cognitive effects by video analysis and reduction of cognitive load by multiple representations K Hochberg, S Becker, M Louis, P Klein, J Kuhn Journal of Science Education and Technology 29, 303-317, 2020	91	2020
Assessment of representational competence in kinematics P Klein, A Müller, J Kuhn Physical Review Physics Education Research 13 (1), 010132, 2017	89	2017
Measurement of sound velocity made easy using harmonic resonant frequencies with everyday mobile technology M Hirth, J Kuhn, A Müller The Physics Teacher 53 (2), 120-121, 2015	87	2015
Analyzing radial acceleration with a smartphone acceleration sensor P Vogt, J Kuhn Phys. Teach 51, 182-183, 2013	85	2013

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