"The California Common Core State Standards: Mathematics (CA CCSSM) call for mathematical practices and mathematical content to be connected as students engage in mathematical tasks. These connections are essential to support the development of students’ broader mathematical understanding—students who lack understanding of a topic may rely too heavily on procedures. The MP standards must be taught as carefully and practiced as intentionally as the Standards for Mathematical Content. Neither should be isolated from the other; effective mathematics instruction occurs when the two halves of the CA CCSSM come together as a powerful whole.” - California Common Core State Standards
We believe the SMPs can be made more impactful if the text is interpreted in terms of behaviors one should expect to observe as students engage with each SMP. Ideally, students would view the bulleted statements as the success criteria by which they could self-assess their ability to fully reason with mathematics on a regular basis.
Analyze the problem in a way that makes sense given the task.
Create a plan for solving the problem.
Continually ask themselves, “Does this make sense?” as they work through a task.
Build perseverance by modifying methods as needed while solving a challenging task.
Make sense of and explain connections among mathematical ideas and various representations.
Stay engaged and maintain a positive mindset when working to solve problems.
Verify their solutions, as well as understand solutions presented by others.
To incorporate MP1 effectively in the classroom, teachers can help students by cultivating a community of growth mindset learners. They can foster perseverance in students by choosing tasks that are interesting and challenging, involving meaningful mathematics. Teachers should look to present problems that allow for multiple strategies and multiple solutions. Importantly, teachers should recognize students’ efforts when solving challenging problems.
Make sense of quantities and relationships in problem situations.
Flexibly move between the context and abstract representations of problem situations.
Remove the context from a problem situation, produce a symbolic representation of the problem, manipulate the symbolic representation, and put it back in context.
Express connections between concepts and representations.
Understand and correctly use the units involved in the problem situation.
Attend to the meaning of quantities when choosing a representation based on a given context.
Flexibly use properties of operations.
To incorporate MP2 effectively in the classroom, teachers can help students by providing opportunities for students to use manipulatives when investigating concepts. They can guide students from concrete to pictorial to abstract representations as understanding progresses and expect students to give meaning to all quantities in a task. Additionally, teachers should give students ample opportunities to see how various representations are useful in different situations.
Construct possible arguments based on stated assumptions, definitions, and previously established results.
Use counterexamples appropriately.
Analyze the arguments of others and ask probing questions to clarify or improve the arguments.
Compare the effectiveness and efficiency of two or more plausible arguments.
Recognize errors and suggest how to correct those errors.
Justify results by explaining mathematical ideas, vocabulary, and methods effectively.
To incorporate MP3 effectively in the classroom, teachers should establish a culture in which students ask questions of the teacher and their peers, and error is an opportunity for learning. They should select, sequence, and present student work to advance and deepen understanding of correct and increasingly efficient methods. Additionally, teachers should help students develop their ability to justify methods and compare their responses to the responses of their peers.
Apply prior knowledge to independently model, understand, and represent real-world problems.
Identify, analyze, and draw conclusions about quantities using tools such as diagrams, two-way tables, graphs, flowcharts, and formulas.
Use assumptions and approximations to make a problem simpler.
Perform investigations to gather data or determine if a method is appropriate.
Check to see if an answer makes sense within the context of a situation, possibly improving/revising the model.
To incorporate MP4 effectively in the classroom, teachers should provide opportunities for students to create models, both concrete and abstract, and perform investigations. They should ask students to justify their choice of model and the thinking behind it, as well as the appropriateness of the model chosen. Teachers can also assist students in seeing and making connections among different models.
Make good decisions about which tools to use and how to use the tools in specific situations.
Use technological tools to visualize, analyze, and help solve problems, and to deepen math knowledge.
Identify and use external math resources to pose and solve problems.
Use estimation and other mathematical knowledge to detect possible errors.
To incorporate MP5 effectively in the classroom, teachers should help students see why the use of manipulatives, rulers, compasses, protractors, calculators, statistical software, and other tools will aid their problem-solving processes. They should make sure that math tools are readily available and frequently model the use of appropriate tools. Teachers should give students a choice of materials/tools and have discussions with them about their choices to lead them to use appropriate tools strategically.
Communicate their understanding precisely to others using proper mathematical language.
Use clear and precise definitions in discussion with others and in their own reasoning.
Calculate accurately and efficiently, and express answers to the appropriate degree of precision.
Are careful about the meaning of units and clearly and accurately label diagrams.
To incorporate MP6 effectively in the classroom, teachers should consistently model the use of precise mathematics language and symbols and expect their students to do the same. They should ask students to identify symbols, quantities, and units in a clear manner. Teachers should also set expectations as to how precise the solution needs to be and help students understand when estimates are appropriate for the situation.
Recognize patterns, structures, and relationships within quantities, processes, and expressions, and across topics.
Use properties and operations to make sense of problems.
Use patterns, structures, multiple representations and relationships to identify an effective and efficient solution path.
Decompose a complex problem into manageable parts.
Use patterns and repeated reasoning to solve complex problems.
To incorporate MP7 effectively in the classroom, teachers should encourage students to look for structure, not simply to apply a rule or structure given by the teacher. This means encouraging students to notice key features, such as identifying characteristics of shapes or noticing whether the order in which you add numbers changes the sum. Patterning activities also support attention to structure. Teachers can ask young children to identify the part of a pattern that repeats over and over and can ask older children to figure out a rule for predicting a new instance in a growing pattern or function table.
Identify repeated reasoning in calculations or processes to make generalizations.
Build on prior learning to make and apply generalizations to new situations.
Use recognition of repeated reasoning to help identify and understand procedural shortcuts.
Continually evaluate the reasonableness of intermediate results, such as comparing results to estimates.
To incorporate MP8 effectively in the classroom, teachers should present several opportunities to reveal patterns or repetition in thinking, so students can make a generalization or rule. They should help students connect new tasks to prior concepts and tasks, to extend learning of a mathematic concept. Additionally, teachers should ask for predictions about solutions at midpoints throughout the solution process.
It is important to embed these SMPs into lessons every day. Teachers should look for ways to integrate appropriate SMPs in authentic ways to deepen students’ understanding of the mathematics content standards. Ultimately, the goal should be to engage students in rich, high-level mathematical tasks that support the approaches, practices, and habits of mind which are called for within these standards.
About the Author
Judy Hickman, former Mathematics Director for the Smarter Balanced Assessment Consortium, and current Education Consultant for Big Ideas Learning.
About California Math & YOU
California Math & YOU is a comprehensive, pedagogically rich K-12 mathematics program that builds a strong conceptual foundation for students through an immersive digital experience. Written by renowned author, Ron Larson, and his expert authorship team, California Math & YOU features engaging and relevant material that sparks students' curiosity and learning, while empowering teachers to successfully meet the needs of all learners. California Math & YOU is built on the California Mathematics Framework and is completely aligned to the California Common Core Standards (CA CCSS).