Conference topics

Using multimedia in the age of artificial intelligence

  1. Multimedia and Artificial Intelligence in Personalized Physics Learning
    Focuses on AI-driven adaptive learning tools and personalized teaching strategies in physics.

  2. Mixed Reality for Enhanced Conceptual Understanding in Physics
    Discusses the use of augmented and virtual reality to help students visualize and interact with abstract physics concepts.
  3. Multimedia in AI-Enhanced Simulations and Modelling
    Examines how AI-based simulations can improve the understanding of complex models in physics and facilitate deeper learning.

  4. The Role of Multimedia in Mixed Reality Physics Labs
    Looks at integrating multimedia content in MR labs to enrich experimental learning, combining real and virtual elements.

  5. AI in Multimedia-Based Physics Assessment and Feedback
    Explores how artificial intelligence can improve assessments and provide personalized, multimedia-based feedback in physics education.

  6. Simulations and Modelling in Physics: Bridging Multimedia and AI
    Focuses on multimedia tools for creating sophisticated simulations and models powered by AI to support physics teaching.
  7. Mixed Reality as a Tool for Collaborative Learning in Physics
    Explores how MR technologies facilitate collaborative multimedia environments where students can solve physics problems together, both onsite and remotely.

  8. Challenges and Ethical Considerations in the Use of AI and MR in Physics Education
    Investigates the ethical issues, accessibility concerns, and challenges in implementing AI and MR technologies in multimedia-based physics education.

  9. Modern Equipment and Technology to Improve Physics Teaching and Learning
    Discusses the integration of cutting-edge technology, like digital tools and sensors, in physical labs and classrooms to enhance student learning.

  10. Visual Representations in Physics Education
    Explores the role of diagrams, graphs, and animations in helping students understand complex physics concepts.

  11. Game-Based Learning in Physics and Physics Education
    Investigates how gamification and digital games can be used as tools for engaging students in physics learning.

  12. Multimedia and Collaborative Learning in Physics
    Focuses on how multimedia tools support group projects and collaboration, enhancing peer learning in physics education.

  13. Simulations in Physics Teaching and Learning
    Examines the role of computer simulations to model physical phenomena and teach abstract concepts in physics.

  14. Multimedia in Teaching and Learning Quantum Physics
    Dedicated to exploring how multimedia helps students grasp the complexities of quantum mechanics, from animations to interactive models.

  15. Multimedia Tools for Developing Physics Problem-Solving Skills
    Investigates how multimedia approaches (videos, animations, and interactive content) can help students develop stronger physics problem-solving abilities.

  16. Virtual and Remote Labs in Physics Education
    Discusses how multimedia technologies support the creation and implementation of virtual and remote labs for hands-on physics experimentation from anywhere.