TY - CHAP A1 - Schäfle, Claudia A1 - Stanzel, Silke A1 - Junker, Elmar A1 - Lux, Christine T1 - PTEE 2024 – Program and Abstracts BT - 12th Physics Teaching in Engineering Education Conference TH Rosenheim, 15-17 May; Facilitating Student Learning in a Changing World N2 - The 12th International Conference on Physics Teaching in Engineering Education (PTEE 2024) took place from 15th to 17th of May, 2024 at TH Rosenheim. This “Program and Abstracts” contains the conference time schedule as well as the abstracts and video links of the 3 keynotes and the abstracts of the 46 contributions. The contributions cover actual themes in teaching engineers at universities and universities of applied sciences. Among others they are related to: SoTL (Scholarship of Teaching and Learning), influence of the pandemic on teaching, artificial intelligence in learning and teaching including learning analytics, and innovative concepts for lectures and labs in physics and engineering subjects. T3 - Proceedings of the 12th International Conference on Physics Teaching in Engineering Education PTEE 2024 - 1 KW - Active Learning KW - Active Learning Spaces KW - Artificial Intelligence and Teaching KW - Flipped Classroom KW - Hybrid Lectures KW - HyFlex KW - Learning Analytics KW - Physics Education Research KW - Physics Labs KW - Physics Teaching in Engineering Education KW - SCALE-UP rooms KW - Tutorials in Introductory Physics Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:861-opus4-25953 ER - TY - CHAP A1 - Schäfle, Claudia A1 - Stanzel, Silke A1 - Lux, Christine T1 - Dem gemeinsamen Lernen Raum geben - das SCALE-UP Raum- und Lehrkonzept T2 - DPG (Hg.) 2024 – Verhandlungen der Deutschen Physikalischen Gesellschaft N2 - Studierendenzentrierte und aktivierende Physiklehre an Hochschulen kann durch eine spezielle Raumgestaltung besonders unterstützt werden. In den SCALE-UP-Lehrräumen der TH Rosenheim (SCALE-UP ist das Akronym für student-centered active learning environment for upside-down pedagogies, Beichner et al., 2007) arbeiten Studierende an runden Gruppentischen in 2-3er Teams an anspruchsvollen Aufgaben, die an fachdidaktischer Forschung, insbesondere der Physics Education Research, orientiert sind. Dabei werden u.a. Lernaktivitäten wie Peer Instruction, Whiteboards, Tutorial-Arbeitsblätter (McDermott & Shaffer, 2002) und kleinere Experimente eingesetzt. Während so die reine Vorlesungszeit auf ein Minimum reduziert wird, findet die Hinführung zum Inhalt in der studentischen Vorbereitungszeit gemäß dem Just-in-Time Teaching Lehrformat statt. Im Beitrag wird das umgesetzte SCALE-UP Raum- und Lehrkonzept vorgestellt und Ergebnisse aus Lehrveranstaltungsbeobachtungen im Hinblick auf das kognitive Engagement im Rahmen des ICAP-Modells (Chi & Wylie, 2014) präsentiert. Es zeigt sich, dass die Studierenden mehr als zwei Drittel der Präsenzzeit in den hohen modes interactive und constructive arbeiten. Schließlich werden Daten zum Lernzuwachs der Studierenden mittels Konzepttests gezeigt. KW - Innovative Lehrräume KW - Studierendenzentrierung KW - Physics Education Research KW - Research-based instructional strategy KW - ICAP-Framework Y1 - 2026 ER - TY - GEN A1 - Stanzel, Silke T1 - Analysis of student conceptual development using the Force Concept Inventory N2 - The Force Concept Inventory (FCI) is a widely established diagnostic tool for the conceptual understanding of Newtonian mechanics. It consists of 30 multiple-choice questions on kinematics and forces. Many of the distractors reflect widespread preconcepts or misconceptions. By analyzing the frequency of all answers rather than only the correct ones conclusions can be drawn on the conceptual development of students. Using the method of "item response curves" (Morris 2006), the relative frequency of all answers is plotted for each question as a function of the total score achieved in the test. By this, distractors that address common misconceptions can be identified. Furthermore, the conceptual development becomes visible. We have analyzed the results of the FCI over a period of nine years from almost 5000 first-year engineering students at the TH Rosenheim. We compare data taken at the very beginning of physics class with data taken at the end of the term as well as with data from universities in the USA. The consistency of the data is very high. The most frequently selected answers include misconceptions about Newton's third law and the assumption that every movement is based on a force in the direction of the movement. The analysis presented serves as a basis for improving teaching. KW - conceptual understanding KW - FCI KW - Force Concept Inventory KW - Item Response Curves KW - Misconceptions Y1 - 2026 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:861-opus4-32484 ER -