1. Elizabeth Buttner, Science Consultant Connecticut State Department of Education November 2011 8/27/2015 What all students should know in preparation for their individual lives and for their roles as citizens in this technology-rich and scientifically complex world. Framework 1-2

2.  NRC Framework for K-12 Science Education  Next Generation Science Education Standards  Science in the Common Core ELA and Math Stds  Future of national, state and local science assessments 8/27/2015

4.  States “cherry-picked” to write their own standards ◦ Result: a national hodge-podge of varied rigor and clarity  Varied treatment of “politicized” issues  Too much content to be learned well  Inquiry widely interpreted; separated from content  Bottom line: inconsistency and limited improvement in 15 years (NAEP and TIMSS) 8/27/2015

5.  Lessons learned since NSES and AAAS  Need for greater coherence  New research on how students learn science  International standing  RTTT pressure toward common standards and assessments  “Common Core” movement – get on board 8/27/2015

6.  Stage 1: National Research Council develops a K- 12 Framework. Published 7-18-11 ◦ Project description - http://nas.edu/BOSEhttp://nas.edu/BOSE ◦ NRC Framework download: http://www.nap.edu/catalog.php?record_id=13165  Stage 2: Achieve Inc. coordinates standards writing; Completion late 2012  NOT called “Common Core” ◦ Standards written first; then states choose to adopt ◦ No federal money to entice adoption  Achieve’s Standards Development Process: http://www.nextgenscience.org http://www.nextgenscience.org 8/27/2015

7. National Academy of Science: Imperative to “get the science right” Written by committees of expert scientists, science educators, cognitive scientists Bundles best pieces of earlier standards initiatives Establishes guidelines for state-led initiative to write standards 8/27/2015

8. Building Capacity in State Science Education BCSSE Research base for NRC Framework for K-12 Science Education

9.  Science AND engineering “practices” are combined and defined more explicitly;  Shift from “inquiry” to “practices”: ◦ More emphasis on higher order thinking (e.g., modeling, designing, making evidence-based claims, critiquing arguments); ◦ Less emphasis on experimenting, naming variables, process skills  Practices are used to deepen understanding of core ideas and crosscutting concepts;  Engineering, Technology and Applications of Science as a 4 th core disciplinary area  Performance Expectations will blend core ideas, practices and crosscutting concepts 8/27/2015

10.  Part I: A Vision for K‐12 Science Education  Part II: 3 Dimensions - ◦ Scientific and Engineering Practices ◦ Core Disciplinary Ideas ◦ Crosscutting Themes  Part III: Realizing the Vision ◦ Aligning policies, standards, curriculum, instruction, assessments, teacher prep and prof development 8/27/2015

11. “ Students, over multiple years of school, actively engage in science and engineering practices and apply crosscutting concepts to deepen their understanding of each fields’ disciplinary core ideas.” Framework 1.1

12.  Science learning is a developmental progression  Children continually build on and revise their knowledge and abilities  Coherent experiences over multiple years Framework 1.3

13. 1. Asking questions and defining problems 2. Developing and using models 3. Planning and carrying out investigations 4. Analyzing and interpreting data 5. Using mathematics and information and computer technology 6. Developing explanations and designing solutions 7. Engaging in argument 8. Obtaining, evaluating, and communicating information Turn & Talk: Which are new? Which are we already doing well? Which will require more training for teachers? 8/27/2015

15. NSES Unifying Themes  Systems, order, and organization  Evidence, models, and explanation  Change, constancy, and measurement  Evolution and equilibrium  Form and function AAAS Common Themes  Systems  Models  Constancy and change  Scale NRC Framework  Patterns  Cause/Effect  Scale, Proportion, Quantity  Systems & system models  Energy & matter  Structure & function  Stability & change 8/27/2015

16.  Funded by a grant from Carnegie Corporation  Development coordinated by Achieve; supported by NSTA, NAS, AAAS  Internationally benchmarked  40 writers on teams (notable teachers and scientists) nominated or recommended  26 Lead Partner States provide guidance and develop plans for adoption, transition and implementation  Projected completion in late 2012  Achieve’s Next Generation Standards Development web site: http://www.nextgenscience.org/ 8/27/2015

17.  PROJECTED COMPLETION LATE 2012  Feedback Opportunities: ◦ Dec. 2011 - 1 st draft review by Lead States and State Education Agencies; writers respond. ◦ Winter 2012 - 2 nd draft reviews on-line by organizations and general public; writers respond. ◦ Spring 2012 - 3 rd draft review (SEAs and general public)  Feedback will be published  CSDE will convene several committees, including a standards review committee to participate in SEA draft reviews ◦ Districts, schools and individuals can provide feedback independently of CSDE 8/27/2015

18. TENTATIVE PROJECTIONS: DEPENDENT ON STATE LEADERSHIP, BUDGET, ESEA REAUTHORIZATION  STANDARDS:  2004 Science Framework, GLCs and GLEs in effect until at least 2013; ◦ Too early to rewrite district curriculum; wait until Next Gen Stds published; ◦ 2013: CT may adopt Next Gen Sci Stds  ASSESSMENTS: ◦ CMT and CAPT Science assessments unchanged through 2015 ◦ 2014-15: new ELA and Math assessments replace CMT and CAPT Reading, Writing and Math (“Smarter Balanced” Assessment Consortium – computer adaptive tests).  SBAC High School ELA and Math assessed at Gr. 11 ◦ 2016: New science assessments? ◦ End-of-Course assessments? Task Force studying issues; recommendations due Jan 2013  TRANSITION: ◦ 2013-15: Districts develop and transition to new science curriculum ◦ 2013-15: Development of new assessments (consortium-developed or state-developed)? 8/27/2015

19. Future unclear…many possibilities: 1. Legislative Task Force currently studying how to untangle end-of-course tests, CAPT and common Next Generation Sci Stds assessments 2. CT develops its own statewide assessment system that improves upon current single summative test. 3. Join existing or newly-formed state assessment consortium. 4. Purchase “ready-made” science assessments from testing contractors. Outcomes depend on federal and state legislation and budgets; as well as public opinion. 8/27/2015

20. Here and Now! 8/27/2015

21.  Part of CT Common Core Stds for ELA Gr.6-12  Reading and writing in the content areas (these are not science standards)  Reading “complex informational text”: primary source documents, journals, biographies, essays, editorials (not textbooks!). See examples at http://www.corestandards.org/assets/Appendix_B.pdf examples  All teachers are teachers of literacy skills and strategies  All students will read grade-level text (see examples in  H-S-T standards will be tested in 2014-15 GET TO KNOW THEM NOW! 8/27/2015

22.  Grade 5: “Write informative/explanatory texts to examine a topic and convey ideas and information clearly.”  Grade 6: “Write arguments to support claims with clear reasons and relevant evidence.”  Grade 8: “Produce clear and coherent writing in which the development, organization and style are appropriate to task, purpose and audience. 8/27/2015

23.  Grade 1: “Know and use various text features (e.g., headings, tables of contents, glossaries, electronic menus, icons) to locate key facts or information in a text.”  Grade 4: “Integrate information from two texts on the same topic in order to write or speak about the subject knowledgeably.”  Gr. 6-8: “Distinguish among facts, reasoned judgment based on research findings, and speculation in a text.” 8/27/2015

24.  Gr. 2: “Measure to determine how much longer one object is than another, expressing the length difference in terms of a standard length unit.”  Gr. 6: “Understand that a set of data collected to answer a statistical question has a distribution which can be described by its center, spread and overall shape.” 8/27/2015

25. Past, Present and Future 8/27/2015

26.  1985 Educational Enhancement Act  Summative assessments; criterion-referenced  Purpose: periodic checkpoints of student progress  CMT designed to assess “mastery” of material after multiple years of instruction  CAPT designed to assess “academic achievement” after multiple years of instruction  NOT designed to inform timely instructional decisions, diagnose learning difficulties or evaluate teacher quality 8/27/2015

27.  Raw scores, scale scores and strand scores  Elementary and Middle Grades CMTs: ◦ Content knowledge ◦ Scientific Inquiry, Literacy and Numeracy ◦ Physical ◦ Life ◦ Earth  CAPT: ◦ Conceptual Understanding ◦ Scientific Inquiry, Literacy and Numeracy ◦ Energy Transformation ◦ Chemical Structures and Properties ◦ Global Interdependence ◦ Cell Chemistry and Biotechnology ◦ Genetics, Evolution and Biodiversity 8/27/2015

28. www.sde.ct.govwww.sde.ct.gov (click on Teaching & Learning/Science)  2004 CT Framework Expected Performances – knowledge and skills tested on CMT and CAPT Science  2010 K-8 Curriculum Standards (GLCs and GLEs)  Curriculum-Embedded Tasks & Teacher Manuals – inquiry pedagogy and sample task-related CMT questions  CMT and CAPT Science Assessment Handbook – test blueprints, standards, effective teaching strategies, sample items, vocabulary lists  Item Banks for making diagnostic and practice tests:  NAEP Questions Tool www.nces.ed.gov/nationsreportcard/ITMRLS www.nces.ed.gov/nationsreportcard/ITMRLS  TIMSS Released Items http://nces.ed.gov/timss/educators.asphttp://nces.ed.gov/timss/educators.asp  Performance Assessment Links in Science http://pals.sri.com/http://pals.sri.com/  SCASS Item Bank: http://sciencescass.org. User: ctsci; Passwd: 5ct6mbhttp://sciencescass.org  AAAS Item Bank: http://assessment.aaas.org/topics (Gr.6-12)http://assessment.aaas.org/topics 8/27/2015

29. The Future 8/27/2015

30.  Tests administered in March – 3 months too early?  Scores not reported until July  Reports not specific enough to inform curriculum  Scores not reported by content standard  Data too late to inform instruction  Items and stats not released  Cumulative test with limited number of items per standard  Other concerns? 8/27/2015

31. Future unclear…many possibilities: 1. Legislative Task Force currently studying how to untangle end-of-course tests, CAPT and common Next Generation Sci Stds assessments 2. CT develops its own statewide assessment system that improves upon current single summative test. 3. Join existing or newly-formed state assessment consortium. 4. Purchase “ready-made” science assessments from testing contractors. Outcomes depend on federal and state legislation and budgets; as well as public opinion. 8/27/2015

32. How could our current state science assessment system be improved to yield more useful info about student learning? 1.Should we add voluntary end-of-grade assessments to our system? 2.Should we add performance tasks (real or virtual) to the test? 3.Should curriculum-embedded tasks be separated from CMT/CAPT; just offered as sample lessons? 4.Should locally-scored student work factor into state accountability? 5.Should science count equally with reading and math tests when ESEA is reauthorized? 8/27/2015

33.  Elizabeth Buttner, K-8 Science Standards Phone: 860-713-6849 E-mail: Elizabeth.buttner@ct.govElizabeth.buttner@ct.gov  Jeff Greig, CMT/CAPT Assessment Phone: 860-713-6854 E-mail: jeff.greig@ct.govjeff.greig@ct.gov 8/27/2015