Talking Multimedia Learning with Dr. Richard Mayer

Tim Green

11 Dec 201419:21

Summary

TLDRIn this insightful interview, Dr. Richard Mayer, a leading expert on multimedia learning, discusses the importance of combining words and visuals in instructional design. He explains the cognitive theory of multimedia learning, emphasizing how multimedia can improve understanding and promote deeper learning. Dr. Mayer highlights key principles for effective multimedia design, including reducing extraneous processing, fostering essential processing, and encouraging generative processing. He also explores the role of educational games in learning and shares advice for instructional designers, urging them to ground their work in cognitive science and research-backed principles to maximize learning outcomes.

Takeaways

😀 Multimedia instruction combines words (spoken or printed) and pictures (static or dynamic visuals) to enhance learning.
😀 Adding graphics to text can improve performance on problem-solving and transfer tests, demonstrating the power of multimedia for deeper understanding.
😀 Audio plays a critical role in multimedia learning as part of the verbal channel. It can be more effective than printed text in some cases, especially with fast-paced animations or videos.
😀 The Cognitive Theory of Multimedia Learning (CTML) highlights the limited capacity of working memory and the importance of balancing information between visual and verbal channels to avoid overload.
😀 The three key goals for effective multimedia instruction are to reduce extraneous processing, foster essential processing, and promote generative processing for deeper learning.
😀 To design effective multimedia, focus on eliminating unnecessary content (extraneous material), breaking complex material into smaller parts (segmenting), and providing pre-training on key concepts.
😀 The personalization principle suggests using conversational language (e.g., 'I' and 'you') instead of formal language to engage learners more effectively.
😀 Educational games, while promising, require rigorous research to determine their effectiveness in improving cognitive skills. Dr. Mayer is exploring what works and what doesn't in educational games.
😀 Research on multimedia learning principles will continue to explore boundary conditions—identifying when certain principles are most or least effective (e.g., high vs. low prior knowledge learners).
😀 Instructional designers should be grounded in the science of learning, using research-based principles such as the multimedia principle to create effective educational content.

Q & A

What is multimedia instruction, according to Dr. Mayer?
-Multimedia instruction involves using both words (spoken or printed text) and pictures (such as illustrations, photos, charts, graphs, video, or animation) to help people learn. Dr. Mayer's definition emphasizes that incorporating both elements can enhance learning.
Why should we incorporate multimedia instruction in teaching and learning?
-Multimedia instruction has been shown to improve student understanding, especially on transfer tests. It helps learners process and retain information better by engaging both the visual and verbal channels in the brain, which leads to deeper learning and better transfer of knowledge to new situations.
What is the multimedia principle, and how does it impact learning?
-The multimedia principle states that people learn better from words and pictures than from words alone. This principle is supported by research showing that adding graphics to text-based learning can significantly improve problem-solving and transfer test performance.
How does audio fit into multimedia instruction?
-Audio is considered a form of words, and Dr. Mayer highlights the importance of using audio effectively. For fast-paced animations or videos, using audio (instead of printed text) can reduce cognitive overload and help learners process visuals more efficiently.
What is the cognitive theory of multimedia learning?
-The cognitive theory of multimedia learning adapts the information processing model to educational settings. It suggests that learning occurs in three stages: sensory memory, working memory (where the information is processed), and long-term memory. Instruction should reduce extraneous processing and foster meaningful learning by integrating new information with prior knowledge.
What are the three key cognitive processes involved in learning, according to Dr. Mayer's theory?
-The three key cognitive processes are: selecting relevant information from sensory memory, organizing the information in a meaningful way in working memory, and integrating the new information with prior knowledge from long-term memory.
What is the segmenting principle, and how can it be applied in multimedia instruction?
-The segmenting principle suggests breaking down complex material into smaller, manageable parts to avoid overwhelming learners. This approach allows learners to process information in stages, making it easier to understand and retain.
How does the personalization principle enhance multimedia learning?
-The personalization principle involves using a conversational style in instructional materials, such as addressing the learner directly with 'I' and 'you' instead of formal language. This makes the content more engaging and helps learners connect with the material on a personal level.
What role do boundary conditions play in multimedia learning principles?
-Boundary conditions refer to situations where certain multimedia learning principles may be more or less effective depending on factors like prior knowledge. For example, learners with higher prior knowledge may not require as well-designed instruction as those with lower prior knowledge.
What is Dr. Mayer's current focus in multimedia learning research?
-Dr. Mayer's current research is focused on the field of educational games. He is investigating how games, which often use multimedia elements, can be designed to improve cognitive skills. He aims to develop principles for designing effective educational games and to assess whether they provide value compared to traditional methods.