SEDL Letter | Improving Achievement In Mathematics and Science | Introduction: Changing Our Attitude toward Mathematics and Science to Improve Achievement

Perhaps you have seen a similar headline: "Skilled Workforce Shortage Could Cripple U.S. Economy." It sounds serious--and it is, given the importance of mathematical and scientific skills in our increasingly technological society and the United States' lackluster performance on the Trends in International Mathematics and Science Study (TIMSS) and National Assessment of Educational Progress (NAEP) scores. While NAEP assessments overall show an improvement in mathematics achievement between 1990 and 1999, computation scores actually dropped during that time. In 1999, only about half of eighth and twelfth graders could compute accurately with fractions. NAEP scores also reflect an achievement gap--just 3 percent of Black students and 4 percent of Hispanic students reach the proficient level in mathematics by the 12th grade.

In a way, we are all responsible for this poor performance. Robert Moses, in Radical Equations: Math Literacy and Civil Rights, observed that in our culture, "illiteracy in math is acceptable the way illiteracy in reading and writing is unacceptable. Failure is tolerated in math. . . . if you're struggling with an equation while doing your algebra homework, more likely your parent will look over your shoulder, wrinkle a brow in puzzlement, then say something like, 'I never got that stuff either.'"

It is time that all of us--educators, parents, and policymakers--begin to see mathematics as the enabling discipline for all of science and technology that it is and to recognize its power in providing tools for analytical thought and for concepts and language for quantitative descriptions of the world (RAND Mathematics Study Panel, 2002). We need to realize the importance of mathematics and science in the lives of all of our children, and make it possible for them to become proficient in mathematics and science.

How we do this, of course, is complex. It will mean changing the way we train teachers to teach math, requiring more than just a few courses in math for elementary education majors. And it will mean ensuring that qualified teachers are teaching math. One recent study found that more than half of our middle school mathematics teachers have neither a major nor a minor in mathematics! It also means building a strong research and development program in mathematics to find out more about effective teaching practices. At a February mathematics summit, Dr. Russ Whitehurst, director for the U.S. Department of Education's Institute of Education Sciences, acknowledged, "research in math is in its infancy compared, for example, to research on reading, and that what it provides for policy and practice is more in the way of educated guesses than strong direction."

Ensuring that all of our children become mathematically and scientifically proficient might also mean fundamental changes to the curriculum. When studying similarities and differences in eighth-grade mathematics among those nations that were high-performing on the TIMSS and the U.S., researchers found that in the U.S. many more mathematics topics are covered each year and we spend much more time reviewing material than is spent in other countries. Our curriculum continues to focus on basic computational skills through eighth grade and beyond. In the high-achieving countries, students in the middle grades had moved on to the study of algebra and geometry (Hiebert, et al., 2003).

Yes, we have a long way to go before all of our students can meet high standards in mathematics and science, but across the country, educators are changing how mathematics and science are taught. In this issue of SEDL Letter, we bring you two stories of how SEDL's Eisenhower Southwest Consortium for the Improvement of Mathematics and Science Teaching is helping to change teaching and learning are changing in the SEDL region.We also focus on two issues of importance to schools and districts-- how No Child Left Behind will affect mathematics and science instruction and what scientifically based research means for schools and districts and why it matters. Rounding out this issue are articles examining how algebraic thinking can be integrated into the K-8 curriculum and how science can be effective in developing language skills in English language learners.

At SEDL, we hope your first semester has been a good one, and we wish you the best for the holiday season.

References

Hiebert, J., et al. (2003). Teaching Mathematics in Seven Countries. Washington, DC: National Center for Education Statistics, U.S. Department of Education.

Moses, R. P., & Cobb, C. E. (2001). Radical Equations: Math Literacy and Civil Rights. Boston: Beacon Press.

RAND Mathematics Study Panel. (2003). Mathematical Proficiency for All Students: Toward a Strategic Research and Development Program in Mathematics Education. Santa Monica: RAND.

SEDL Letter articles related to the subject:
Strengthening Teaching and Learning in the Content Area of Mathematics and Science

- E-Mentoring for Math and Science Teachers
- Fossil Findings: Research in the Field Leads to Changes in the Classroom
- Integrating Science with English Language Development
- It's Elementary: Introducing Algebraic Thinking Before High School
- Matter is Everywhere | Hay materia en todos lados
- State Efforts Push to Leave No Child Behind in Mathematics and Science
- The Lesson Study Approach: Collaboration and Creativity Are Key to Teaching Mathematics Concepts
- What Does Scientifically Based Research Mean for Schools?

SEDL products related to the subject:
Strengthening Teaching and Learning in the Content Area of Mathematics and Science

Briefs
- Quick Takes: Improving Mathematics Education: What Can We Learn from International Studies?
- Quick Takes: Assessment - What is the Best Way to Monitor My Child's Progress in Mathematics and Science?
- Quick Takes: Calculators in the Classroom
- Quick Takes: Tracking Decisions Change Lives

Classroom Resources: Lesson Plans/Teaching Materials
- Integrating Mathematics, Science, and Language: An Instructional Program Volumes I and II Bundle
- Integrating Mathematics, Science, and Language (Paso Partners): An Instructional Program Volume I (Grades K-1)
- Integrating Mathematics, Science, and Language (Paso Partners): An Instructional Program Volume II (Grades 2-3)

Literature Reviews/Research Syntheses
- State Mathematics and Science Curriculum Framework Development & Implementation: A Case Study Synthesis

Magazines/Newsletters
- Assessment: Classroom Compass - Volume 2 Number 2
- Constructivism: Classroom Compass - Volume 1 Number 3
- Cooperative Learning: Classroom Compass - Volume 1 Number 2
- Design in the Classroom: Classroom Compass - Volume 2 Number 3
- Developing Curriculum Across The Disciplines: Classroom Compass - Volume 4 Number 1
- Getting to the Heart of the (Subject) Matter: Classroom Compass - September 2002
- Learning without Walls: Classroom Compass - Volume 5, Number 1
- Promoting Diversity, Valuing Difference: Classroom Compass - March 2002
- Research on the Brain: Classroom Compass - Volume 3 Number 2
- Rhythm of Mathematics: Classroom Compass - Volume 4 Number 2
- Science As Inquiry: Classroom Compass - Volume 2 Number 1
- SEDL Letter, Volume XV, Number 1: Improving Achievement In Mathematics and Science
- SEDL Letter, Volume XVI, Number 1: School Finance and Policy: Dollars and Sense
- Teacher as Facilitator: Classroom Compass - Volume 1 Number 1
- Using Community Resources: Classroom Compass - Volume 3 Number 1

Reports
- What Experience Has Taught Us About Collaboration: Facilitating Mathematics and Science Reform: Lessons Learned
- What Experience Has Taught Us About Professional Development: Facilitating Mathematics and Science Reform: Lessons Learned

Resource Lists
- Arkansas Mathematics and Science Education Sources: Arkansas Landscape Paper
- Closing the Texas Achievement Gap
- Louisiana Mathematics and Science Education Sources: Louisiana Landscape Paper
- New Mexico Mathematics and Science Education Sources: New Mexico Landscape Paper
- Oklahoma Mathematics and Science Education Sources: Oklahoma Landscape Paper
- Texas Mathematics and Science Education Sources: Texas Landscape Paper