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Main Authors: Kortemeyer, Gerd, Babayeva, Marina, Polverini, Giulia, Widenhorn, Ralf, Gregorcic, Bor
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.06143
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author Kortemeyer, Gerd
Babayeva, Marina
Polverini, Giulia
Widenhorn, Ralf
Gregorcic, Bor
author_facet Kortemeyer, Gerd
Babayeva, Marina
Polverini, Giulia
Widenhorn, Ralf
Gregorcic, Bor
contents We investigate the multilingual and multimodal performance of a large language model-based artificial intelligence (AI) system, GPT-4o, using a diverse set of physics concept inventories spanning multiple languages and subject categories. The inventories, sourced from the PhysPort website, cover classical physics topics such as mechanics, electromagnetism, optics, and thermodynamics, as well as relativity, quantum mechanics, astronomy, mathematics, and laboratory skills. Unlike previous text-only studies, we uploaded the inventories as images to reflect what a student would see on paper, thereby assessing the system's multimodal functionality. Our results indicate variation in performance across subjects, with laboratory skills standing out as the weakest. We also observe differences across languages, with English and European languages showing the strongest performance. Notably, the relative difficulty of an inventory item is largely independent of the language of the survey. When comparing AI results to existing literature on student performance, we find that the AI system outperforms average post-instruction undergraduate students in all subject categories except laboratory skills. Furthermore, the AI performs worse on items requiring visual interpretation of images than on those that are purely text-based. While our exploratory findings show GPT-4o's potential usefulness in physics education, they highlight the critical need for instructors to foster students' ability to critically evaluate AI outputs, adapt curricula thoughtfully in response to AI advancements, and address equity concerns associated with AI integration.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06143
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multilingual Performance of a Multimodal Artificial Intelligence System on Multisubject Physics Concept Inventories
Kortemeyer, Gerd
Babayeva, Marina
Polverini, Giulia
Widenhorn, Ralf
Gregorcic, Bor
Physics Education
Artificial Intelligence
We investigate the multilingual and multimodal performance of a large language model-based artificial intelligence (AI) system, GPT-4o, using a diverse set of physics concept inventories spanning multiple languages and subject categories. The inventories, sourced from the PhysPort website, cover classical physics topics such as mechanics, electromagnetism, optics, and thermodynamics, as well as relativity, quantum mechanics, astronomy, mathematics, and laboratory skills. Unlike previous text-only studies, we uploaded the inventories as images to reflect what a student would see on paper, thereby assessing the system's multimodal functionality. Our results indicate variation in performance across subjects, with laboratory skills standing out as the weakest. We also observe differences across languages, with English and European languages showing the strongest performance. Notably, the relative difficulty of an inventory item is largely independent of the language of the survey. When comparing AI results to existing literature on student performance, we find that the AI system outperforms average post-instruction undergraduate students in all subject categories except laboratory skills. Furthermore, the AI performs worse on items requiring visual interpretation of images than on those that are purely text-based. While our exploratory findings show GPT-4o's potential usefulness in physics education, they highlight the critical need for instructors to foster students' ability to critically evaluate AI outputs, adapt curricula thoughtfully in response to AI advancements, and address equity concerns associated with AI integration.
title Multilingual Performance of a Multimodal Artificial Intelligence System on Multisubject Physics Concept Inventories
topic Physics Education
Artificial Intelligence
url https://arxiv.org/abs/2501.06143