California’s new math framework offers path to greater excellence and equity

Revised scheme will guide how math is taught in state's K-12 classrooms

A group of high school students work together to solve an algebra problem during their precalculus class.
Credit: Allison Shelley for American Education

All of us should be heartened by the just-released revision of the new California Framework for Mathematics.

While the earlier drafts of the framework prompted concerns that the effort to achieve greater equity would hold high-achieving students back from excellence, this revised draft makes clear that will not be the case.

The goal is to increase the number, diversity and preparedness of high achievers aspiring to specialize in science, technology, engineering or math, or STEM, fields while all California students become more mathematically engaged and accomplished.

The framework, which will guide how the subject is taught in California’s K-12 schools, builds on the 2013 framework which looked inward to the mathematics. The 2022 framework faces outward to the students. We can move forward instead of back and forth.

Mathematics belongs to everyone. The framework has placed a major emphasis on improving how school mathematics responds to differences among students. I think this is justified by the system’s history of weakness and failure in responding to this challenge.

While there have been important improvements in instructional materials, the status quo does not work very well for many — or even most — students. This has been true for a long time. Ask almost any parent or student.

Take a look at performance data: California ranks in the bottom third of states on the National Assessment of Educational Progress in mathematics, and the U.S. ranks far below the average on international assessments like PISA.

To change this, we must tackle some critical challenges thoughtfully with a problem-solving approach. Some issues the framework addresses that are most important include:

  1. Schools must do a better job in elementary school of teaching everyone what’s most important for succeeding in middle and high school mathematics. As the framework emphasizes, this will require learning conditions that recognize and respect each student’s thinking as the work of learning and develops each student’s belief in themselves as learners.
  2. The basic human conditions for learning should not depend on a student’s background, ethnicity or gender. Every student deserves the opportunity to be listened to while learning mathematics, to be recognized as a problem solver and thinker. The status quo fails too many students, treating them in ways that demoralize them, discouraging rather than encouraging effort. The math-anxious, math-cynical students are then delivered to middle schools. This must stop.
  3. Schools should put each student in the best position to achieve their aspirations. Students with aspirations for STEM careers should have the opportunity to excel in mathematics, taking well-taught coursework that allows them to reach calculus with a deeper understanding. Students with aspirations in law, business, the arts and humanities, nursing, careers as first-responders and media should have the opportunity to learn exciting and engaging mathematics useful for their futures. The framework outlines course options that can enable all students to reach their aspirations.
  4. Schools should prepare students aspiring for careers in STEM for further work in mathematics relevant to their fields. Earlier versions of the framework did not say enough about this. The new version does. This version takes advice from university faculty regarding what is important for entering STEM majors. Yes, it includes being prepared for serious work in calculus. Although some students find their way through the status quo to success in STEM, we need to modernize STEM preparation in ways indicated by the revised framework.
  5. Colleges should be able to recruit and prepare STEM aspirants from a larger pool than we have done, historically. This includes doing a much better job of supporting Black, Latino, Native American, Pacific Islander and female students to engage in, enjoy and succeed in mathematics that prepares them for STEM. We need to expand the methods used to find, assess, and develop STEM students.
  6. Schools and colleges should keep students’ options to prepare for STEM fields open as long as possible. Given the gaps in opportunity that correlate too strongly with poverty, race and gender, schools must avoid early tracking systems. Acceleration should be an option for students at the end of middle school and again in high school. Opportunities to pursue advanced mathematics should not be lost because of placement in middle school. This requires work from everyone. It does not require lowering standards. It does require humanizing the conditions of learning: developing students’ beliefs in themselves as learners and building on the different assets students bring.
  7. Schools should prepare students aspiring to fields where mathematics and statistics are important from a user’s perspective. People working in fields such as economics, medicine, and the social sciences need courses that focus on deeper, more robust experiences using mathematics in varied situations in ways that take advantage of calculators and computers. While such courses would be valuable for STEM students in addition to advancing toward calculus, they are critical for students with other aspirations. We especially need to modernize this kind of understanding of data science and computation in the curriculum. The revised framework develops useful and important ways to make improvements in programs for students through more modern approaches to data science.

The framework provides guidance to help teachers find and spend more time teaching the most important concepts in the curriculum, tackles the “math is boring” problem facing most students by illustrating engaging pedagogies and assignments, and emphasizes the importance of supporting high achievers as well as students who struggle along the way.

The framework also builds on research on learning, motivation and what high-achieving countries do in teaching mathematics. This includes students articulating their reasoning, explaining their problem-solving approach and learning to make connections across mathematical topics and between mathematics and its applications in the world around them. It also addresses the need for students to identify themselves as effective learners of mathematics and develop a sense that they belong to the community of mathematics learners. Above all, it provides guidance on how to develop students’ beliefs that they can get better at mathematics by putting in the work to learn.

The work of making things better is work. It is not enough to take stands; it is more important, now, to take steps.

The California framework could have, as often happens, shrunk away from the tough issues. It did not. Thank you.

Let’s take this framework and get to work.

•••

Phil Daro was a lead author on the Common Core mathematics standards and consults with school districts, states and higher education institutions to improve the teaching of mathematics. 

The opinions in this commentary are those of the author. If you would like to submit a commentary, please review our guidelines and contact us.

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