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Our Principles


Program Foundation

Rooted in decades of research and crafted by a team of experts in mathematics education, Number Worlds® gives students the foundational skills they need to build deep conceptual understanding and close gaps in performance. Proven to work through years of rigorous field testing, the program uses best pedagogical practices to launch students toward grade-level proficiency and beyond.


Pedagogy

Number Worlds English Learner Support Guide, Level H cover

Built-in Differentiation

Number Worlds features a variety of instructional tools to help support diverse learners and bring every student up to speed.

  • The English Language Learner Support Guides provide teacher supports for working with multilingual students.

  • Interactive differentiation provides opportunities for students to spend more time learning critical math concepts with hands-on and adaptive digital games.

  • Alternative groupings help teachers adapt instruction to fit various learning environments such as one-on-one tutoring, summer school, and after-school settings.

  • Daily progress monitoring allows teachers to swiftly adapt instruction and to provide targeted remediation for struggling students.
Number Worlds English Learner Support Guide, Level H cover
Number Worlds interactive games shown on 2 separate tablets

Interactive Games

Number Worlds uses fun, game-based activities to get students excited about math and accelerate their learning.

  • An effective balance between hands-on and digital games helps students apply concepts in a variety of settings.

  • Through purposeful activities, students develop conceptual understanding and computational fluency as they actively apply concepts.

  • Both group and individual activities are purposefully embedded in the curriculum to provide many opportunities for collaboration and teaming as well as personalized, individual learning.

 

Number Worlds interactive games shown on 2 separate tablets

Dynamic Assessment and Reporting

Assessment tools allow teachers and administrators to correctly place and monitor at-risk students. A variety of assessment options evaluate student proficiency, inform instruction, and visually track progress.

  • The Placement Test: Identify students’ abilities and place them at the appropriate level within the program. After placement, teachers can assign a unit pretest to determine students’ baseline measures for the selected unit.

  • The Number Knowledge Test: Provide PreK–1 students with an initial screener to place them into one of three prevention levels. This assessment can also be used with K–5 students to determine their ability to make sense of quantitative problems.

  • Informal Assessments: Build a more complete picture of student performance with informal assessments embedded in each lesson. Teachers can use the online assessment tool or the Student Assessment Record to record their observations.

  • Formal Assessments: Evaluate student understanding weekly, at the end of each unit, and through cumulative assessments to inform instruction. Online testing measures and prepares students for high-stakes tests.
Assessment reporting example shown on tablet showing class average, studuent distribuiton, and activities
Assessment reporting example shown on tablet showing percentage of correct submission on activitiy and correct repsonse rate

"Number Worlds is a fabulous math program that offers direct instruction at the student’s level, with time for practice and mastery of all skills taught."

—JoAnne, Intervention Specialist, North Carolina

The Three Worlds and Five Lands

Number Worlds was designed to introduce and develop students’ understanding of the three worlds of mathematics: quantity, number, and symbols. Students develop understanding by exploring five different ways numbers and quantities are represented:

In Object Land, students explore the world of numbers by counting and comparing sets of objects or pictures of objects.

In Object Land, you might ask:

  • How many or few do you have?
  • Which is bigger or smaller?

In Picture Land, numbers are represented as sets of stylized, semi-abstract dot-set patterns, such as in a die, tally marks, or numerals.

In Picture Land, you might ask:

  • What did you roll/pick?
  • Which has more or less?

In Line Land, numbers are represented as points on a path or line. The language used for numbers in Line Land refers to a particular time and place on a line and also to moves along a line.

In Line Land, you might ask:

  • How far did you go?
  • Did you go forward or backward?

In Sky Land, numbers are represented as a position on a vertical scale, such as a thermometer or a bar graph.

In Sky Land, you might ask:

  • How high or low are you now?
  • Who is above or below?

In Circle Land, numbers are represented as a point on a dial, such as a clock face or a sundial.

In Circle Land, you might ask:

  • How many times did you go around?
  • What did you land on?

The Three Worlds and Five Lands

Number Worlds was designed to introduce and develop students’ understanding of the three worlds of mathematics: quantity, number, and symbols. Students develop understanding by exploring five different ways numbers and quantities are represented:

In Object Land, students explore the world of numbers by counting and comparing sets of objects or pictures of objects.

In Object Land, you might ask:

  • How many or few do you have?
  • Which is bigger or smaller?

In Picture Land, numbers are represented as sets of stylized, semi-abstract dot-set patterns, such as in a die, tally marks, or numerals.

In Picture Land, you might ask:

  • What did you roll/pick?
  • Which has more or less?

In Line Land, numbers are represented as points on a path or line. The language used for numbers in Line Land refers to a particular time and place on a line and also to moves along a line.

In Line Land, you might ask:

  • How far did you go?
  • Did you go forward or backward?

In Sky Land, numbers are represented as a position on a vertical scale, such as a thermometer or a bar graph.

In Sky Land, you might ask:

  • How high or low are you now?
  • Who is above or below?

In Circle Land, numbers are represented as a point on a dial, such as a clock face or a sundial.

In Circle Land, you might ask:

  • How many times did you go around?
  • What did you land on?

Research and Success

College and career readiness today requires a solid mathematical foundation. Based on the findings from field tests, effectiveness studies, education research, and research around how children learn, Number Worlds and Building Blocks™ are proven as effective curriculum intervention solutions to bring students struggling in mathematics up to par with their peers in math literacy and fluency.

Graph showing Number Worlds resuilts in PreK, Post-K, Post-1, and Post-2

Results with Number Worlds

Rigorous field testing shows that students who began at a disadvantage surpassed the performance of students who began on level with their peers, simply with the help of the Number Worlds program. A longitudinal study measuring the progress of three groups of children from the beginning of Kindergarten to the end of Grade 2 demonstrates the program’s efficacy.

Key to Number Worlds graph
Graph showing Number Worlds resuilts in PreK, Post-K, Post-1, and Post-2
Graph showing Number Worlds resuilts in PreK, Post-K, Post-1, and Post-2

Results with Building Blocks

Building Blocks software, embedded in the Number Worlds program, is the result of National Science Foundation-funded research. Building Blocks includes online activities and an adaptive assignment engine that guides children through research-based learning trajectories. In research studies, Building Blocks software was shown to increase children’s knowledge of essential mathematical concepts and skills. One study tested Building Blocks against a comparable math program and a no-treatment control group. All classrooms were randomly assigned—the "gold standard" of scientific evaluation.

Graph showing Building Blocks results between Control group, Comparison group and Building Blocks group

Doug Clements Discusses Learning Trajectories​

Children typically follow an observable developmental progression in learning math concepts with recognizable stages or levels. This developmental path can be described as part of a learning trajectory.

Applying Number Worlds and Building Blocks in the classroom leads children through the natural developmental progression, allowing them to retain and understand concepts more thoroughly.

Learn more about Building Blocks.

Doug Clements Discusses Learning Trajectories​

Children typically follow an observable developmental progression in learning math concepts with recognizable stages or levels. This developmental path can be described as part of a learning trajectory.

Applying Number Worlds and Building Blocks in the classroom leads children through the natural developmental progression, allowing them to retain and understand concepts more thoroughly.

Learn more about Building Blocks.

White Papers

The Number Line and CCSS

The number line is a tool used in elementary, middle, and high school classrooms. Recent research suggests the importance of the number line as a tool for helping children develop greater flexibility in mental arithmetic. Find out how Number Worlds provides activities involving the number line.

Applying Games and Manipulatives in Math Intervention

The Number Worlds curriculum is often referred to as a “research-based” program to distinguish it from more traditional mathematics programs that are produced by educational publishing houses to teach learning goals established by the mathematics education community.

Leveraging Project-Based Learning to Challenge Math Understanding

Project-Based Learning activities focus on extending standards, while giving students experience working in group settings. Learn more about the built-in Project-Based learning lessons in Number Worlds.

The Power of PD and Self-Efficacy in the Teaching of Mathematics

Number Worlds professional development is built around five guiding principles of effective professional learning: content-specific, active engagement, teaching models, collaborative learning, and applied practice. Professional development activities in the program offer materials that result in effective professional development activities.

Adaptive Learning and Building Blocks

For more than a decade, increasing numbers of educators have stopped relying solely on print-based materials; instead, they have been incorporating digital programs into their daily approaches to lesson planning, instruction, and assessment. Find out how Number Worlds utilizes the digital component of Building Blocks™.

Rigor: Defined and Embedded in Number Worlds

Rigor is a sought-after element in mathematics classrooms around the country. Adding rigor to program design provides students with the conceptual understanding, procedural skill and fluency, and application of learning context. Number Worlds is proven to develop conceptual understanding and procedural knowledge.

The Number Line and Math State Standards

The number line is a tool used in elementary, middle, and high school classrooms. Recent research suggests the importance of the number line as a tool for helping children develop greater flexibility in mental arithmetic. Find out how Number Worlds provides activities involving the number line.

Applying Games and Manipulatives in Math Intervention

The Number Worlds curriculum is often referred to as a “research-based” program to distinguish it from more traditional mathematics programs that are produced by educational publishing houses to teach learning goals established by the mathematics education community.

Leveraging Project-Based Learning to Challenge Math Understanding

Project-based Learning activities focus on extending standards, while giving students experience working in group settings. Learn more about the built-in project-based learning lessons in Number Worlds.

The Power of PD and Self-Efficacy in the Teaching of Mathematics

Number Worlds professional development is built around five guiding principles of effective professional learning: content-specific, active engagement, teaching models, collaborative learning, and applied practice. Professional development activities in the program offer materials that result in effective professional development activities.

Adaptive Learning and Building Blocks

For more than a decade, increasing numbers of educators have stopped relying solely on print-based materials; instead, they have been incorporating digital programs into their daily approaches to lesson planning, instruction, and assessment. Find out how Number Worlds utilizes the digital component of Building Blocks.

Rigor: Defined and Embedded in Number Worlds

Rigor is a sought-after element in mathematics classrooms around the country. Adding rigor to program design provides students with the conceptual understanding, procedural skill and fluency, and application of learning context. Number Worlds is proven to develop conceptual understanding and procedural knowledge.

Success Stories for Math Intervention Grades PreK–8

Number Worlds is proven to help struggling students accelerate math success with a proven approach. See what people in the educational community have to say about the results they’ve seen with Number Worlds.

Pittsburgh Public Schools
Pittsburgh, PA

Hazelwood School District
Florissant, MO

Pittsburgh Public Schools
Pittsburgh, PA

Hazelwood School District
Florissant, MO

"I saw 51% of my students—all of whom had failed their state tests in sixth grade—pass their state tests at the end of seventh grade. They all moved up. I know that Number Worlds' structure helped with that."

—Deb Barnett, Oklahoma City Public Middle Schools, Oklahoma

Program Authors

Dr. Sharon Griffin

Sharon Griffin is Professor Emerita of Education and Psychology at Clark University in Worcester, Massachusetts. She received a bachelor's in psychology from McGill University, a master's in education from the University of New Hampshire, and a doctorate in cognitive science from the University of Toronto. Before coming to Clark University in 1989, she worked as a research associate at the Ontario Institute for Studies in Education.

Dr. Griffin has received several research awards for applying the findings of cognitive science to (a) improve mathematics learning and achievement for at-risk children, (b) teach number sense, and (c) enable teachers of mathematics to acquire the skills needed to enhance their students’ math learning and achievement.

Dr. Griffin has also served on several national and international advisory boards on projects designed to enhance the cognitive, mathematical, and language development of children from birth through the elementary school years.

As a member of the Mathematical Sciences Education Board at the National Academies of Science (NAS) and the Center of Education Research and Innovation at the Organization for Economic Collaboration and Development (OECD), she also helped shape the direction of education research and policy for the United States, Canada, the U.K., and several European countries.

Dr. Douglas Clements

Dr. Douglas Clements, Kennedy Endowed Chair in Early Childhood Learning and professor at the University of Denver, is widely regarded as the major scholar in the field of early childhood mathematics education, with equal relevance to the academy, to the classroom, and to the educational policy arena. At the national level, his contributions have led to the development of new mathematics curricula, teaching approaches, teacher training initiatives, and models of "scaling up" interventions. His contributions have also had a tremendous impact on educational planning and policy, particularly in the area of mathematical literacy and access. Dr. Clements also sits on the National Research Council Committee on Science of Children Birth to Age 8: Deepening and Broadening the Foundation for Success for The National Academies of Sciences’ Institute of Medicine.

Dr. Julie Sarama

Dr. Julie Sarama, Kennedy Endowed Chair in Innovative Learning Technologies and professor at the University of Denver, conducts research on young children’s development of mathematical concepts and competencies, the implementation and scale-up of educational reform, professional development models and their influence on student learning, and the implementation and effects of software environments in mathematics classrooms. These studies have been published in more than 50 refereed articles, 4 books, 30 chapters, and 60 additional publications. She has been both principal and co-principal investigator on seven projects funded by the National Science Foundation. Dr. Sarama is also co-directing three large-scale studies funded by the U.S. Education Department’s Institute of Educational Studies (IES).

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