Next Generation Science Standards January 2013 Public Review A Framework for K-12 Science Education...
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Next Generation Science Standards January 2013 Public Review
A Framework for K-12 Science Education can be found athttp://www7.nationalacademies.org/bose/Standards_Framework_Homepage.html
Making Connections to A Framework for K-12 Science Education
and Having a Voice in the Next Generation Science Standards Review
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Welcome
Presenters
Ellen Ebert, Ph.D.Teaching and Learning Science Director
Craig Gabler, Ph.D. ESD 113 Science Coordinator
Sherry Schaaf, M.Ed.Science Educational Consultant
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Session Goals
Review the core principles of A K12 Framework for Science Education
Briefly discuss the major differences among the Framework, NGSS and WA Science Standards
Discuss how to participate in the review of the public draft
Review the anatomy of a standard Discuss the type of feedback needed Update Washington’s Role in the NGSS
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July 2010 – January 2013
January 2010 - July 2011
1990s
1990s-2009
Phase II
Phase I
Timeline
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National Research Council
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Connections to research
Key Findings
Key Findings for StudentsKey Findings for
Teachers
HPL 1Students come to the classroom with preconceptions about how the world works.
Surface student preconceptions and adjust instruction
HPL 2
Students must have a deep foundation of usable knowledge and understand facts in the context of a conceptual framework.
Understand the content and conceptual framework of instructional units
HPL 3Students must be taught explicitly to take control of their own learning by monitoring their progress.
Teach students to think about their thinking.
Research on Research on HHow ow PPeople eople LLearn (HPL)earn (HPL)
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The framework is designed to helprealize a vision for education in the sciences and engineering in which students, over multiple years of school, actively engage in science and engineering practices and apply crosscutting concepts to deepen their understanding of the core ideas in these fields.
A Framework for K-12 Science Education p. 1-2
Vision for Science Education
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Principles of A Framework for K-12 Science
Education•Children are born investigators •Understanding builds over time •Science and Engineering require both knowledge and practice •Connecting to students’ interests and experiences is essential •Focusing on core ideas and practices •Promoting equity
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How can the vision and principles of the Framework lead to a new vision of
teaching with the NGSS?
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Organization of FrameworkDimensions of the Framework
– Scientific and Engineering Practices– Crosscutting Concepts– Disciplinary Core Ideas
Realizing the Vision– Integrating the Three Dimensions– Implementation – Equity and Diversity– Guidance for Standards Development– Looking Toward the Future: Research to
Inform K-12 Science Education Standards
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Background
Eight Practices– Asking questions and defining
problems– Developing and using models– Planning and carrying out
investigations– Analyzing and interpreting data– Using mathematics and
computational thinking– Constructing Explanations and
Designing Solutions – Engaging in argument from
evidence– Obtaining, evaluating, and
communicating information
Seven Crosscutting Conceptso Patternso Cause and effecto Scale, proportion, and quantityo Systems and system modelso Energy and matter: Flows,
cycles, and conservationo Structure and functiono Stability and change
• Four Disciplinary Core Ideas: Life Science, Physical Science Earth and Space Science Engineering
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Promoting EquityPromoting Equity
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• Equalizing opportunities to learn
• Inclusive science instruction• Making diversity visible• Value multiple modes of expression
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Chemical reactions model for matter and energy in food, drawing on particle model of matter and energy transfer model.
Chemical reactions model for matter and energy in food, drawing on particle model of matter and energy transfer model.
Simple food model: food consumed or produced is made of matter and provides energy for organisms.
Simple food model: food consumed or produced is made of matter and provides energy for organisms.
General needs model: Organisms get what they need to survive from the environment.General needs model: Organisms get what they need to survive from the environment.
Molecular model of biochemical reactions for matter and energy in food.Molecular model of biochemical reactions for matter and energy in food.
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Developmental ProgressionsDevelopmental Progressions
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High School Science
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Shifts in Science Instruction with the NGSS
Instruction organized around a limited number of core ideas: depth and coherence,
not breadth of coverage. Core ideas will be revisited in increasing depth, and
sophistication across years. Focus on connections: Careful construction of a storyline – helping learners build
sophisticated ideas from simpler explanations using science evidence.
Connections between scientific disciplines, using powerful ideas (nature of matter, energy) across life, physical, and earth science
Instruction should involve learners in practices that develop, use, and refine the scientific ideas, not “explain” the science for students.
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Moving from A Framework to NGSSIntegrating the 3 Dimensions
Science & Engineering Practices
Crosscutting Concepts
Disciplinary Core Ideas
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Architecture of a Standard
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One Standard
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Assessable PerformanceExpectations
Foundation Boxes
Connections Box
Performance Expectations
The performance expectation(s) where the practice is indicated
Connections to other Disciplinary Core Ideas
Connections to Common Core
* Science PEs with engineering through a practice, DCI or crosscutting concept
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Responding to Feedbackfrom
all stakeholders20
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Integration of Engineering
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Nature of Science
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Navigating the Survey
Accessing the survey– http://www.nextgenscience.org/– Read front matter; note that there are options for
how you can access the survey (we will go over) Key survey questions
– Achieve is asking specific questions Is the PE too prescriptive or too vague? How grade appropriate is this PE? How relevant is this crosscutting concept to
the core idea? How well would this PE demonstrate a
student’s understanding of the DCI?
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Approaches to Feedback
• Follow one Disciplinary Core Idea vertically K-12. (e.g. pick energy and see how the standards progress)
• Examine standards in your grade band of expertise (e.g. K-5, MS, or HS) and +/- a grade
• Examine just the engineering standards.• Just start clicking on random criteria in the
search tool and see what you get.. aka NGSS roulette.
All is too much
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Responding to the Survey
Read the standards looking for the integration of each of the three dimensions (DCI, Crosscutting Concepts, and Science and Engineering Practices) Make a claim, provide evidence
Respond in complete sentences Do not abbreviate or use acronyms
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What constitutes good feedback?• Draw example from spreadsheet of good & bad feedback
– The DCI content in standard PS5 exceeds what is expected at the previous grade-level. Suggest that the learning progression be re-examined for coherency. Good.
– An elementary cannot be expected to teach all of this content. Who is going to do the needed training? Bad.
• Use another example from spreadsheet of good & bad feedback– Another specific issue: the argumentation practice does not show
up until second grade (and then only once and once again in third grade), but the evidence is clear (e.g., Taking Science to School) that very young children (i.e., in preschool and kindergarten) can productively engage in argumentation. In the early grades, there is a classic imbalance towards observation (cf. our Piagetian history in the 60s / 70s). There should be deep use of explanation in K-2 as well as argumentation. Students need to be engaged in knowledge synthesis processes. Good.
– Professional development would be needed for the support of the ETS framework in the disciplinary core ideas. Bad.
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Survey Registration
If you don’t complete the survey in one sitting, check email for your invitation code.
Use this code to return to the survey.
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Introduction to the Survey
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Three Part Survey
1. Respondent information
2. General survey about all the standards
3. Specific questions about Performance Expectations that interest you
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Performance Expectations Questions
Questions about K.SPM
Online version of K.SPM
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NGSS Lead States
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Standards Connections
Washington Standards
Four Essential Academic Learning Requirements– Systems– Inquiry– Application– Domains
• Life Science• Physical Science• Earth and Space Science
Next Generation Science Standards• Science and Engineering
Practices– Identifies 8 Practices
• Subsumes WA Inquiry
• Disciplinary Core Ideas– Adds Engineering and
Technology• Subsumes WA Application
• Crosscutting Concepts– Adds 7 crosscutting concepts
• Subsumes WA Systems and Application
OSPI Presentation to SBE: Next Gen. Science
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Thank you!
• For updated information on the NGSS, please check http://www.k12.wa.us/Science/NGSS.aspx
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