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Dr. Robinson, EEX 4251, Spring 2008

The National Council of Teachers of Mathematics (NCTM) Principles and Standards for School Mathematics. Dr. Robinson, EEX 4251, Spring 2008. The PSSM.

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Dr. Robinson, EEX 4251, Spring 2008

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  1. The National Council of Teachers of Mathematics (NCTM)Principles and Standards for School Mathematics Dr. Robinson, EEX 4251, Spring 2008

  2. The PSSM • The Principles and Standards desire to set forth a “comprehensive and coherent set of goals for mathematics for all students from prekindergarten through grade 12” (NCTM, 2000).

  3. Who was Involved? • Teachers • School administrators • Mathematics supervisors • University mathematicians • Mathematics educators • Researchers

  4. Timeline • 1951 Max Beberman – UICSM Project • 1957 SPUTNIK • 1960 “New Math” • 1963 FIMS – First International Mathematics Study • 1969 NAEP – National Assessment of Ed Progress • 1973 Why Johnny Can’t Read – Morris Kline “Back to Basics” • 1975 NACOME • 1980 Agenda For Action – NCTM “Pragmatic – Problem Solving” • 1982 SIMS – Second International Mathematics Study • 1983 A Nation at Risk • 1987 J. R. Flanders analysis of textbooks – prior to algebra

  5. Timeline • 1989 Curriculum Standards – NCTM Everybody Counts – Lynn Steen & NRC • 1991 Teaching Standards – NCTM • 1992 NSF-Funded Integrated Standards-Based Curriculums • 1995 Assessment Standards – NCTM • 1996 TIMSS – Third International Mathematics and Science Study • 1996 MAP 2000 – Mathematics Field Test • 1998 National High-Stakes Test Debate – California • 2000 Principles & Standards for School Math – NCTM MAP & MSIP – Show-Me Standards, Curriculum Frameworks, Grade-Level Expectations

  6. The Principles • The Principles highlight the basic characteristics of a high quality mathematics instructional program and provide guidance for making educational decisions.

  7. The Principles cont. • Equity. Excellence in mathematics education requires equity—high expectations and strong support for all students. • Curriculum. A curriculum is more than a collection of activities: it must be coherent, focused on important mathematics, and well articulated across the grades. • Teaching. Effective mathematics teaching requires understanding what students know and need to learn and then challenging and supporting them to learn it well.

  8. The Principles cont. • Learning. Students must learn mathematics with understanding, actively building new knowledge from experience and prior knowledge. • Assessment. Assessment should support the learning of important mathematics and furnish useful information to both teachers and students. • Technology. Technology is essential in teaching and learning mathematics; it influences the mathematics that is taught and enhances students' learning.

  9. Standards • Number and Operations • Algebra • Geometry • Measurement • Data Analysis and • Probability • Problem Solving • Reasoning and Proof • Communication • Connections • Representation 9

  10. The Standards • Five Standards describe the mathematical content that students should learn to be successful

  11. The Content Standards • Number and Operations • Algebra • Geometry • Measurement • Data Analysis and Probability

  12. Number Content StandardsAcross the Grades Pre-K–2 3–5 6–8 9–12 Number and Operation Algebra Geometry Measurement Data Analysis and Probability

  13. The Standards • Five Standards highlight the mathematical processes that students draw on to acquire and use their content knowledge.

  14. The Process Standards • Problem Solving • Reasoning and Proof • Communication • Connections • Representation

  15. The make up • Each Standard is broken up into four grade-level bands: • Pre-K to 2nd Grade • 3rd Grade to 5th Grade • 6th Grade to 8th Grade • 9th Grade to 12th Grade • Each of the Content Standards includes a set of expectations specific to that grade band.

  16. How were they made? • NCTM was founded in 1920. • In 1989 NCTM released Curriculum and Evaluation Standards for School Mathematics • Outlined extensive goals for teachers and policy makers for the school discipline.

  17. How were they made? • In 1991, NCTM published the Professional Standards for Teaching Mathematics • Described the elements of effective mathematics teaching • In 1995 NCTM released the Assessment Standards for School Mathematics • Established objectives against which assessment practices can be measured

  18. How were they made? • From 1995 to 2000, NCTM rewrote and revised its three previous documents into one released in 2000: • The Principles and Standards for School Mathematics • A single resource that can be used to improve mathematics curricula, teaching, and assessment

  19. Principles Describe particular features of high-quality mathematics programs • Equity • Curriculum • Learning • Teaching • Assessment • Technology 19

  20. The Curriculum Principle A curriculum is more than a collection of activities: it must be coherent, focused on important mathematics, and well articulated across the grades. The Teaching Principle Effective mathematics teaching requires understanding what students know and need to learn and then challenging and supporting them to learn it well. Statement of Principles The Equity Principle Excellence in mathematics education requires equity– high expectations and strong support for all students.

  21. The Assessment Principle Assessment should support the learning of important mathematics and furnish useful information to both teachers and students. The Technology Principle Technology is essential in teaching and learning mathematics; it influences the mathematics that is taught and enhances students’ learning. Statement of Principles The Learning Principle Students must learn mathematics with understanding, actively building new knowledge from experience and prior knowledge.

  22. School Mathematics Is Not Working Well Enough for Enough Students Internationally (TIMSS, 1994-1995), our students are not mathematically competitive • 4th grade – average • 8th grade – below average • 12th grade – among lowest of 21 • at 25th percentile, like FIMS & SIMS • particularly poor in Geometry • better in creative constructed responses questions HIGHER 20 countries US 4th SAME 14 countries US 8th US 12th LOWER 7 countries Source: US TIMSS Research Center, 1996–1998

  23. 33% 90% 73% Students Can Do Basics, ... 347 + 453 864 – 38 Source: NAEP 1996 … But Students Cannot Solve Problems Ms. Yost’s class has read 174 books, and Mr. Smith’s class has read 90 books. How many more books do they need to read to reach the goal of reading 575 books?

  24. What Does Research Tell Us? 1 • What we can’t expect from research … • Standards are not determined by research, but are instead statements of priorities and goals • What is “best” cannot be proven by research. • Research cannot imagine new ideas. • What we can expect from research … • Research can influence the nature of the standard. • Research can document the current situation. • Research can document the effectiveness of new ideas. • Research can suggest explanations for success or failure. 1 Hiebert, J. (1999) Relationships between research and the NCTM Standards, Journal for Research in Mathematics Education, 30(1):3-19.

  25. Do Skills Lead to Understanding? Can Drill Help Develop Increase Mathematical Reasoning? Can Calculators & Computers Increase Mathematical Reasoning? Steen, L.A. (1999). Twenty questions about mathematical reasoning. in L.V. Stiff & F.R. Curcio (Eds), Developing mathematical reasoning in grades K-12: 1999 Yearbook (pp. 270-285). Reston, VA : NCTM.

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