Paine Intermediate Math Curriculum Overview

Many individuals from my generation have childhood memories of retrieving an encyclopedia off of the shelf to write a school report, having only three television stations, being restricted to a single room while talking on the phone (due to the cord), and our experiences learning math.  I recall my math teachers demonstrating a procedure as “the” method for solving a particular type of problem.  All I had to do was memorize the steps through repetitive practice.  I remember working what seemed to be fifty or more similar problems, only to get to the end of the page where the dreaded word problems were.  The good thing about these word problems was that I knew I would be practicing that same procedure, so I just needed to pull the numbers from the problem and go through the steps.  I became really good at memorizing procedures and getting correct answers, without even breaking a sweat.  The reality was that I was not afforded the opportunity to make sense of the mathematics.

Mathematics in the 21st Century

Math instruction has changed dramatically in the 21^st century.  The ability to perform basic calculations is no longer the primary goal.  In this age of technological advances, computers can perform these routine math tasks.  In order to prepare our children for success in the 21^st century workforce they will need a conceptual understanding (understanding/insight of mathematical concepts) as well as procedural fluency (skill in carrying out procedures flexibly, accurately, and efficiently).  It will be necessary for them to understand when, why, and how to apply this knowledge to solve unconventional, real-world problems.  Simply put, students are being asked to think deeply and create meaning with mathematics.

The Partnership for 21^st Century Skills (Framework for 21st Century Learning, 2014), founded in 2002, began as a coalition of business leaders, educators, and policymakers.  Extensive research was conducted identifying the knowledge and skills necessary for success in our global, 21^st century world.  It is the mission of the Partnership for 21^st Century Skills that our students obtain these skills, and this can be accomplished by fusing four crucial skills with the content areas of reading, writing, and mathematics.  These skills are more commonly known as the 4Cs.

1. Critical thinking/problem solving
2. Communication (written and oral)
3. Collaboration
4. Creativity/innovation

Mathematics is the key to developing the 21^st century skills our children need, and utilizing these skills is the key to their understanding of mathematics.

Math Achievement in the United States

The research shows that historically, tremendous learning gaps have existed with American students in the area of mathematics.  A high percentage of college freshman have had to take remedial math courses.  There have been serious deficiencies with the math achievement of our students, compared to students in other countries.  The US ranked 37^th in the world on the 2012 PISA mathematics assessment (Programme for International Student Assessment, 2012). This is concerning because, our children will be competing for opportunities in a global economy.  In order to prepare our students we must continue to raise the bar and provide a more rigorous curriculum.

What does this mean for students in our math classrooms?

Math instruction at Paine Intermediate is founded on research-based best practices.  The National Council of Teachers of Mathematics (NCTM), The National Science Foundation (NSF), and other key organizations, have conducted a decade or more of extensive research on the most effective instructional practices in mathematics.  The following are key components of our math curriculum.

• We introduce new concepts through rigorous investigative tasks, where students have opportunities to construct conceptual knowledge.  These tasks have multiple entry points and a variety of solutions strategies, allowing students at all levels to build on their previous knowledge. Students will use mathematical representations to deepen conceptual understanding. 
• Students will engage in conversations regarding their problem solving approaches and construct arguments to defend their solution strategies. 
• We conduct daily mental math number talks to promote flexibility with numbers and numerical reasoning. 
• Our students will develop procedural fluency once they have formed a conceptual understanding. 
• Teachers will provide direct instruction in the form of mini-lessons at strategic points during a unit to cement concepts, procedures and math terminology. 
• Throughout the unit, the teacher is asking meaningful questions to assess student understanding and to advance their mathematical reasoning. 
• Students are provided with opportunities to apply and extend their learning through a math menu of activities.  The menu is comprised of tasks at various levels, where students are able to make choices based on their current knowledge base. 
• Teachers are constantly assessing student understanding through quick formative assessments, independent performance tasks where students apply what they have learned in a different context, and end of unit assessments. 
• We utilize DreamBox learning as a supplement to our math curriculum.  This program provides students with opportunities to deepen conceptual understanding and develop numerical reasoning, as well as flexibility with numbers.

Our instructional practices promote the development of conceptual understanding of mathematics, procedural fluency, and the development of those crucial 21^st century skills.

Parent Information

The 21^st century math classroom looks different from the one most adults experienced in the past.  We know this can be frustrating for many parents, because it is unclear on how to best support your child at home. We are sensitive to this, and are hopeful this blog, and other communications that we plan to implement this year, will lessen any confusion.  The NCTM website contains a parent resource page containing tips for how to best help your child at home.  They recommend asking your child questions while they are working on a problem rather than showing them how you would do it.  Questions may include:  what are you being asked to find out, can you describe what the problem is telling you in your own words, is there a part that you already know how to do, will it help to make a list, chart, or table, etc.  They also suggest that parents work with their children on fact fluency at home once basic facts have been taught at school.  The NCTM website also offers other information for parents on their website.  Click on the following link for the family resource page (National Council of Teachers of Mathematics, 2014).  http://www.nctm.org/resources/families.aspx

In closing, this post is intended to provide an overview of why math instruction has changed.  Additional information will be provided throughout the year via this blog.  We hope this will be useful to parents. We will highlight some of the exciting learning that is occurring in our math classrooms.  We will also be preparing short video clips for parents on various strategies your children are using at school.  There is much more to come!  Our goal is to create mathematical problem solvers who are knowledgeable and confident.  If we can be of any assistance, please let us know. 

Sources

Family Resources. (2014). Retrieved from National Council of Teachers of Mathematics: http://www.nctm.org/resources/families.aspx

Framework for 21st Century Learning. (2014). Retrieved from Partnership for 21st Century Skills: http://www.p21.org/

Programme for International Student Assessment. (2012). Retrieved from http://www.oecd.org/pisa/keyfindings/PISA-2012-results-US.pdf