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About Dr. Marzano
1. Identifying Similarities and Differences
2. Summarizing and Note Taking
3. Reinforcing Effort and Providing Recognition
4. Homework and Practice
5. Nonlinguistic Representations
6. Cooperative Learning
7. Setting Objectives and Providing Feedback
8. Generating and Testing Hypotheses
9. Cues, Questions, and Advance Organizers
10. Kinesthetic Activites
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5. Nonlinguistic Representations
All the senses come into play in learning. In most classrooms, however, reading and lectures dominate instruction, engaging students through the linguistic mode. Learners also acquire and retain knowledge non linguistically, through visual imagery, kinesthetic or whole-body modes, auditory experiences, and so forth. Teachers who wish to take advantage of all modes of learning will encourage students to make non linguistic representations of their thinking. These can take many forms. When students make concept maps, idea webs, dramatizations, and other types of non linguistic representation, they are actively creating a model of their thinking. Computer simulations also encourage exploration and experimentation by allowing learners to manipulate their learning experience and visualize results. When students then explain their models, they are putting their thinking into words. This may lead to new questions and discussions, which will in turn promote deeper thinking and better understanding.
Key Research Findings
Learners acquire and store knowledge in two primary ways: linguistic (by reading or hearing lectures), and non-linguistic (through visual imagery, kinesthetic or whole-body modes, and so forth). The more students use both systems of representing knowledge, the better they are able to think about and recall what they have learned (Marzano, Pickering, & Pollock, 2001).
Visual representations help students recognize how related topics connect (NCTM, 2000).
Finding patterns helps students organize their ideas so they can later recall and apply what they have learned. Research has shown an increase in understanding of geometry when students learn to represent and visualize three-dimensional forms (Bransford et al., 1999; Lehrer & Chazen, 1998).
After brainstorming to generate ideas, students can improve their reading, writing, and thinking skills by using thinking maps to help them organize key concepts in a visual way (Hyerle, 1996).
Using visual representation software in a science classroom helps students express their developing understanding of core chemistry concepts in the form of visual representations that are readily created and shared. These representations help students generate explanations of the phenomena they are investigating. (Michalchik, V., Rosenquist, A., Kozma, R., Kreikemeier, P., Schank, P., & Coppola, B., in press).
Helping students understand and represent knowledge non-linguistically is the most under-used instructional strategy (Marzano et al., 2001). Taking advantage of this teaching tool requires focusing on current classroom practice and looking for opportunities to engage students in multiple modes. Research suggests best practices for instruction:
Model use of new tools. Activities that involve non-linguistic representation may be new to students who are accustomed to learning through lectures and readings. Scaffold student learning as you introduce activities such as concept maps, idea webs, and computer simulations by modeling how to use tools that help them represent their thinking in a nonverbal way. Gradually remove the scaffolds so students eventually work independently with the new tool or technology.
Use non-linguistic modes in the content areas. Math and science classrooms offer ideal settings for incorporating non-linguistic learning experiences. Language arts classrooms provide natural connections from classifying words to modeling plot lines. Models, graphs, imagery, and other tools enable students to engage in actively constructing representations of their understanding.
Foster cooperative learning. Encourage students to work in small teams when they are constructing non-linguistic representations. Students' questions and discussions will help them communicate and refine their thinking.
Teach interpretation of non-linguistic forms also. Finding patterns helps students organize their ideas so that they can later recall and apply what they have learned. Teach students to represent and interpret information in graphs, charts, maps, and other formats that will help them see patterns and make connections.
Simulations offer new modes for learning. Use simulation software or online simulations to let students practice making predictions and testing outcomes. Combine non-linguistic experimentation with verbal discussion, which prompt students to think through their understanding and raise new questions.
Stimulate body-mind connections. Kinesthetic learning is not just for primary grades. Older students continue to learn through physical activities. Incorporate dramatizations, dance, music, simulations, and other active learning experiences.
Integrate non-linguistic forms into note-taking. Encourage students to take notes that are meaningful to them. Model use of sketches, graphs, and symbols.
The above information was developed by Northwest Regional Education Laboratory, Portland, Oregon; Title: Nonlinguistic Representation. © 2005 - Focus on Effectiveness is a product of the
Northwest Regional Educational Laboratory
. These materials are in the public domain and may be reproduced without permission. The following acknowledgment is requested on materials which are reproduced: Developed by the Northwest Regional Educational Laboratory, Portland, Oregon
Non linguistic Representation Activities
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