connecting sdsu liberal studies majors with the ngss: the physics course fred goldberg san diego...
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Connecting SDSU Liberal Studies Majors with the NGSS:
The Physics CourseFred Goldberg
San Diego State University
Supported by the National Science Foundation, San Diego State University, the California State University and the S. D. Bechtel, Jr. Foundation
CSU STEM SymposiumForum 3: ProjectsMarch 14, 2014
CSULA: Los Angeles, CA
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Five one-semester Courses at SDSU for LSMs have been modified by
including specific activities connecting student learning with the NGSS
• Natural Sciences 100– Intro level, predominantly LSM, large class environment
• Geology 104– Intro level, about half LSM, large class environment
• Geology 412– Upper division, all LSM, small class environment
• Physics 412• Upper division, all LSM, large class environment
• Teacher Education 211B– Upper division, LSM, small class environment
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Physics 412: Learning Physics
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Learning PhysicsUnit Title Core Idea
(PS#)
1 Building a Model for Magnetism Forces (2)
2 Building a Model for Static Electricity
Forces (2)
3 Interactions and Energy Energy (3)
4 Interactions and Forces Forces (2)
5 Mechanical Waves and Sound Waves (4)
6 Electromagnetic Waves and Light Waves (4)
• Throughout the curriculum students are engaged in the practices of science and engineering: in-class hands-on activities with materials and videos of experiments and demonstrations
The goal is for students to see that the core ideas of science emerge from engagement in the practices
• Students assigned homework that explicitly connects their own learning with the NGSS practices, core ideas and crosscutting concepts
• Using Calibrated Peer Review program for online writing and evaluating of scientific explanations
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Example from Unit 2: Developing Model for Static Electricity
• In first lesson, groups perform experiments with tape and various objects to conclude that electrically charged objects attract all materials, both metals and non-metals
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Developing Model for Static Electricity• In successive lessons, students observe series of
videos showing various static electric phenomena …
… and use the evidence to revise their models
Example: Can an object be charged without directly touching it?
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• Consider two ‘electroscopes’ with different ‘bodies’ (metal and plastic). Uncharged tinsel hangs from each end.
Metal Soda Can
Plastic Water Bottle
• Watch video where positively charged acrylic sheet is touched to ‘base’ end of soda can and bottle.
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Students watch video of experiment
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• Develop model to explain these results, take a photo, and e-mail to instructor.
After touching bases with positively (+) charged acrylic sheet
Tinsel sticks out
Tinsel still hangs straight down
Before touching bases with positively (+) charged acrylic sheet
Tinsel hangs straight down
Tinsel hangs straight down
• Would tinsel on other end of each now be charged? What evidence would suggest this? If charged, would it be + or - ?
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Video of group discussing their model
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Groups’ E-mailed models posted on Blackboard for students to review before next class
U3L02 13
Several groups had a model similar to this
U3L02 14
Several other groups had a model similar to this
• During class students compare and critique the two representative models
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Unit on Developing a Model of Static Electricity: Connections
with NGSS• Practices
– Developing and using models– Analyzing and interpreting data– Engaging in argument from evidence
• Core Ideas– Forces and interactions
• Crosscutting Concepts– Cause and Effect: mechanism and explanation
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Plans for Curriculum Development*• Develop six modules
– Five covering all the physical science core ideas, science and engineering practices, and many crosscutting connections
– One focusing on Learning about Learning (students’ learning, children’s learning, nature of science, connections to NGSS, CCSS-M and CCSS-ELA)
• Three versions of each module– Small class– Large class– Online
• Implementation begins Fall 2015– Please contact me if interested (fgoldberg@mail.sdsu.edu)
*With support from Chevron Foundation and CSU
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