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Contrasting Cases can Facilitate Middle

School Science Learning at

ScaleChristian Schunn, Liz Richey, Louis Alfieri,

Kalyani Raghavan, & Mary Sartoris

Funded by: Grant R305C080009 to The 21st Century Partnership for STEM Education. The opinions expressed are those of the authors and do not represent views of the U.S. Department of Education

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The 21st Century Center for Research and Development in Cognition and

Science

The 21st Century Partnership for STEM Education

Objective: To improve current science curricula and identify general principles for the design of curriculum that could be easily applied to other science curricula to improve student learning.

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Textbook Kit based

The Design Challenge

Curriculum

Holt Full Option Science System (FOSS)

Biological Sciences

Cells, Heredity, & Classification Diversity of Life

Earth Sciences Inside the Restless Earth Earth History Weather

and Water

Physical Sciences Introduction to Matter NA

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Overview of Cognitive Science PrinciplesContrasting Cases: Introducing new material

by simultaneously comparing and contrasting several relevant cases

Prior Knowledge & Misconceptions: Identifying areas of known conceptual difficulty in science learning in order to guide emphasis in planning modifications and conducting teacher professional development

Visualizations: Helping students gain proficiency with conventions used in scientific graphics, such as labeling, captions, relative scale, perspective, etc.

Spaced Testing: Systematically revisiting material learned earlier and having students recall it repeatedly over extended periods of time

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Theo

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Contrasting Cases—TheoryMultiple analogs, restatement of

principle support schema acquisition (Gick & Holyoak, 1983)

Guided comparison better than instructions to compare only (Gentner, Lowenstein, & Thompson, 2003)

Contrasting cases before direct instruction are more beneficial (Schwartz & Bransford, 1998)

Analogies used in classrooms, often without cognitive supports (Richland, Zur, & Holyoak, 2007)

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Contrasting Cases: It’s this one!Science seeks make parsimonious

explanations of complex phenomena:Only some features of rich situations

participateFeatures can be abstract

Students often don’t see these features

Experiments, lectures, readings are then misencoded

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Contrasting cases-Example (Same? Different?)

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T. rex

• found in marine environments• moves by swimming• eats plankton

• found in African rainforests• also walks on all fours• eats fruits, leaves, and small animalsBonoboBarnacle

• lived 65 to 68 million yrs ago• ate other animals

• found on land• move by walking upright

• made up of many different kinds of cells• each cell has nucleus• move• ingest food found in environment• reproduce sexually

Conduct within-category contrasts to pull out critical features

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Conduct between-category contrasts to highlight similarities and differences

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Followed by reading/lecture

(or science experiment)

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Many Issues in Translation1. Same effect in both curricula?

1. Inquiry -> More direct instruction2. Textbook -> More inquiry

2. Incomplete principles (many decisions remain)

3. No free time: What gets deleted?

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Pilot Study, Textbook Unit3 teachers, teach both ways across

sections112 Control students168 Experimental students

General CC-Direct CC-Transfer0.25

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ControlExperiment

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Monster Study, Textbook Unit

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Monster Study, Textbook Unit

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Large Study, Inquiry Unit

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Large Study, Inquiry Unit

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Next stepsWave 2: More assessment practice

Cases propose, materials refine, what cements?

Fidelity of implementation?How do teachers enact at the micro-

level?What factors prevent enactment at the

macro-level?