Master of Arts in Teaching (M.A.T.) Mathematics

Graduate & Professional

This coed, hybrid program is designed for K-8 educators who wish to deepen their mathematical content and pedagogical knowledge, build leadership skills and earn a master's degree. Course assignments have immediate application in school settings and support the work of teachers, coaches, and instructional specialists.

Program Overview

hybrid | 36 credits | part-time 2 years

Open doors with this degree

The knowledge and skills participants gain from the Master of Arts in Teaching Mathematics program open many doors and professional opportunities in the math education field. Though the degree doesn't lead to licensure, graduates pursue a wide range of options available to teacher leaders looking to impact the math profession.

Graduates of our program:

  • transform their classroom practice and improve student learning
  • win teaching awards at the local, state and national levels
  • publish articles in professional journals and magazines
  • give keynote addresses at regional and national math conferences
  • start their own businesses to support the professional learning of teachers
  • become thought leaders and shape the future of mathematics education.

Thought leaders shaping the future

Presidential Awards for Excellence in Mathematics and Science Teaching

Presidential Awards for Excellence in Mathematics and Science Teaching

Lachanda Garrison, MATM 鈥19 and Lori Price, MATM 鈥22 were both awarded the Presidential Awards for Excellence in Mathematics and Science Teaching.

Kaneka Turner MAT 鈥15 cofounded Black Women Rock Math to connect with, network with and celebrate Black women teaching math.

July 2020, Kaneka Turner MAT鈥15 launched Black Women Rock Math, an initiative aimed at highlighting Black women in the mathematics field and showing young girls what a career in math could look like. They use the hashtag #BlackWomenRockMath to find and connect with Black women teaching math in order to create a network and celebrate them.

Beth Brady

Beth Brady MAT鈥18 wins US Math Recovery 2020 Educator Award

Beth Brady MAT鈥18 was the recipient of the US Math Recovery 2020 Educator Award. The US Math Recovery Educator Award honors educators who have demonstrated highly effective engagement with students and educators in the mathematics teaching and learning process, have dedicated service to their school, community and/or the US Math Recovery Council, and have a significant commitment to their own professional growth.

Professional and Graduate classroom video poster

What we offer

The MAT, Mathematics consists of 18 credits in mathematics content and 14 credits of educational leadership courses. The core curriculum is based on Developing Mathematical Ideas (DMI) and Connecting Arithmetic to Algebra (CAA).

Developing Mathematical Ideas (DMI) is designed to help teachers think through the major ideas of K-8 mathematics and examine how children develop those ideas. At the heart of the materials are sets of classroom episodes (cases) illustrating student thinking as described by their teachers. In addition to case discussions, the curriculum offers teachers opportunities to explore mathematics in lessons led by facilitators, to share and discuss the work of their own students, to view and discuss video clips of mathematics classrooms, to examine the Standards for Mathematical Practice, to analyze lessons taken from innovative elementary mathematics curricula, and to read overviews of related research.

Courses are designed to bring together teachers from kindergarten through middle grades to:

  • Learn mathematics content and how core mathematical ideas develop across the grades.
  • Recognize the key mathematical ideas their students may grapple with at each level.
  • Support the power and complexity of student thinking.
  • Stimulate an interest in ongoing professional development in how children learn about mathematics.

Professional and Graduate student in a classroom, explaining something and gesturing while others take notes

How we are different

Our dynamic hybrid learning model combines online and on-campus participants for live interactive learning. This model completely replicates the in-class experience for the online learners. Students say it feels as if they are sitting right in the classroom when they participate online.

MATM students engaged in a discussion in the classroom

Funding your education

Funding your education is a concern for many students, and yet there are a range of resources available to help make it affordable. In addition to our scholarships and fellowships, Mount Holyoke's Office of Student Financial Services works closely with students to talk about what can meet your needs.

Funding resources for Graduate students

Happening at Mount Holyoke

News from Master of Arts in Teaching Mathematics

Mount Holyoke鈥檚 graduate programs in education have ranked in the top half of 2022鈥檚 鈥淏est Online Programs鈥 according to U.S. News & World Report.

Mount Holyoke alum Kaneka Turner MAT 鈥15 has created an initiative to celebrate Black women in mathematics.

Michael Flynn, co-director of Mount Holyoke鈥檚 math leadership program, tells parents not to sweat the small stuff like laptop features 鈥 internet is key.

Mount Holyoke Experiences

What our alums are saying

Geygy Travers, MAT鈥24

鈥淚 have learned how to make math class a place for all students. Our work has also pushed me to speak up, challenge spaces of marginality, and use my knowledge to lead for change.鈥

Geygy Travers MAT鈥24

Learning Goals

Graduates of the Master of Arts in Teaching Mathematics will:

  • Investigate and examine how students make sense of mathematical concepts, how these concepts and skills build from kindergarten through eighth grade, and how they apply to state standard for mathematics and the Standards of Mathematical Practice.
  • Investigate and implement equitable, student-centered teaching practices to improve current instructional practices and student learning outcomes at the individual, school, or district level.
  • Explore and identify different expressions of authentic leadership as an educator (e.g. advocacy, policy work, innovation, curriculum design) and demonstrate an ability to strategize and implement authentic leadership.

Course Offerings

Mathematics

X.MATH-400 Developing Mathematical Ideas: Building a System of Tens

Fall. Credits: 2

Participants will explore the base-ten structure of the number system, consider how that structure is exploited in multi-digit computational procedures, and examine how basic concepts of whole numbers reappear when working with decimals. They will study the various ways children naturally tend to think about separating and combining numbers and what children must understand in order to work with numbers in these ways.

Applies to requirement(s): Meets No Distribution Requirement
N. Dupre-Edelman, T. Jemison
Restrictions: This course is offered for graduate students only.

X.MATH-401 Developing Mathematical Ideas: Making Meaning for Operations

Fall. Credits: 2

This course provides opportunities for participants to examine the actions and situations modeled by the four basic operations. The course will begin with a view of young children's counting strategies as they encounter word problems, moves to an examination of the four basic operations on whole numbers, and revisits the operations in the context of rational numbers.

Applies to requirement(s): Meets No Distribution Requirement
D. Peart, S. Rozko
Restrictions: This course is offered for graduate students only.

X.MATH-402 Developing Mathematical Ideas: Examining Features of Shape

Credits: 2

Participants examine aspects of two-dimensional and three-dimensional shapes, develop geometric vocabulary, and explore both definitions and properties of geometric objects. The seminar includes a study of angle, similarity, congruence, and the relationships between three-dimensional objects and their two-dimensional representations. Participants examine how students develop these concepts through analyzing print and video cases as well as reading and discussing research articles.

Applies to requirement(s): Meets No Distribution Requirement
K. Schweitzer

X.MATH-404 Developing Mathematical Ideas: Modeling With Data

Not Scheduled for This Year. Credits: 2

Participants will work with the collection, representation, description, and interpretation of data. They will learn what various graphs and statistical measures show about features of the data, study how to summarize data when comparing groups, and consider whether the data provides insight into the questions that led to data collection.

Applies to requirement(s): Meets No Distribution Requirement
S. Hedgepeth

X.MATH-405 Developing Mathematical Ideas: Measuring Space in One, Two, and Three Dimensions

Credits: 2

Participants will examine different aspects of size, develop facility in composing and decomposing shapes, and apply these skills to make sense of formulas for area and volume. They will also explore conceptual issues of length, area, and volume, as well as their complex interrelationships.

Applies to requirement(s): Meets No Distribution Requirement
K. John, K. Schweitzer

X.MATH-406 Developing Mathematical Ideas: Patterns, Functions, and Change

Not Scheduled for This Year. Credits: 2

Participants discover how the study of repeating patterns and number sequences can lead to ideas of functions, learn how to read tables and graphs to interpret phenomena of change, and use algebraic notation to write function rules. With a particular emphasis on linear functions, participants also explore quadratic and exponential functions and examine how various features of a function are seen in graphs, tables, or rules. Participants examine how students develop these concepts through analyzing print and video cases as well as reading and discussing research articles.

Applies to requirement(s): Meets No Distribution Requirement
The department
Advisory: Intended for practicing teachers.

X.MATH-407 Developing Mathematical Ideas: Reasoning Algebraically About Operations

Fall and Spring. Credits: 2

Participants examine generalizations at the heart of the study of operations in the elementary grades. They express these generalizations in common language and in algebraic notation, develop arguments based on representations of the operations, study what it means to prove a generalization, and extend their generalizations and arguments when the domain under consideration expands from whole numbers to integers.

Applies to requirement(s): Meets No Distribution Requirement
K. Schweitzer

X.MATH-415 Early Numeracy Assessment and Instruction I

Spring. Credits: 2

This course helps teachers identify and address challenges students are having with K-2 math skills. Interview assessments that help teachers develop strategies to monitor and support progress in number words and numerals, structuring numbers, and addition and subtraction are learned and put into practice. Through assessments, data and teaching tools, teachers will recognize their students' current levels of numeracy and make data-driven instructional decisions. This course supports Pk-2 educators with core instruction, and Pk-8 educators working with students who haven't yet learned the Pk-2 standards. This course provides a certificate of completion from the US Math Recovery Council.

Applies to requirement(s): Meets No Distribution Requirement
M. Carrington
Restrictions: This course is offered for graduate students only.
Notes: Materials fee: $150

X.MATH-417 Data Informed Tiered II Numeracy Instruction

Credits: 1

This course will support participants as they implement math interview assessments and instructional techniques learned in the X.MATH-415 Early Numeracy I course or Add+VantageMR Course 1 Professional Development course. Participants will unpack a learning trajectory that best fits their students' needs. Then, participants will analyze data from interview assessments and receive support as they implement and design strengths-based instruction for their students. Participants will receive, share, and provide feedback to each other as they try new instructional and assessment techniques in their classroom.

Applies to requirement(s): Meets No Distribution Requirement
M. Carrington
Prereq: X.MATH-415.
Advisory: Students who completed Add+VantageMR Course 1 Professional Development can provide a certificate of completion if they haven't taken X.MATH-415.

X.MATH-424 Developing Mathematical Reasoning

Spring. Credits: 4

Developing Mathematical Reasoning (DMR) builds on and extends the work of Connecting Arithmetic to Algebra. Participants will work with a five-phase model for instruction in mathematical argument: Noticing, Articulating, Representing Specific Instances, Creating Mathematical Argument, and Comparing and Contrasting Operations. They will examine and implement a set of lessons designed to engage their own students with generalizations about the operations using these phases of instruction. DMR investigates how this approach to mathematics thinking supports a range of mathematics learners including those who have difficulty with grade-level mathematics and those who need additional challenge.

Applies to requirement(s): Meets No Distribution Requirement
V. Bastable, J.Szymaszek
Restrictions: This course is offered for graduate students only.
Advisory: X.MATH-460 Connecting Arithmetic to Algebra.

X.MATH-426 Rational Numbers Assessment and Instruction

Fall. Credits: 3

Rational Numbers Assessment and Instruction focuses on how students working with whole numbers can more meaningfully understand fractions. In this course we explore fractions as relationships between the whole and the parts, as measures, and as unique numbers with meaning. Educators will learn how to observe their students' mathematical thinking through activities, and strategies for engaging students. Throughout the semester educators will be asked to implement strategies with students in a classroom setting, and share and explore what they found together.

Applies to requirement(s): Meets No Distribution Requirement
The department
Notes: Materials fee: $150

X.MATH-460 Connecting Arithmetic to Algebra

Fall. Credits: 4

Connecting Arithmetic to Algebra (CAA) is a year-long professional development experience in which teachers consider generalizations that arise from the study of number and operations in grades 1 through 7. They examine cases of students who are engaged in the process of articulating general claims, working to understand those claims, and learning how to prove them. The course also focuses on how this approach to mathematical thinking supports a range of mathematics learners, including those who have difficulty with grade- level mathematics and those who need additional challenge.

Applies to requirement(s): Meets No Distribution Requirement
V. Bastable, K. Scott
Restrictions: This course is offered for graduate students only.

Mathematics Education

X.MTHED-408 Professional Development for Coaching Mathematics

Not Scheduled for This Year. Credits: 2

This course is designed for elementary math specialists with responsibilities for supporting teachers in the development of strong mathematics education programs. Participants explore issues related to: learning mathematics while in the context of teaching; facilitating the professional development of colleagues; teachers' and students' ideas about mathematics and learning; and fostering a stance of collaborative investigation. By way of a central theme of mathematics learning, the institute will offer coaches opportunities to explore, through the coaching perspective, ideas of number and geometry in the elementary grades.

Applies to requirement(s): Meets No Distribution Requirement
L. Garrison, P. Wagner

X.MTHED-409 Educational Leadership I: Exploring the Roles of Math Teacher Leadership

Credits: 2

This course will explore the roles of teacher leadership in math education at the local, state, and national level. Topics will include coaching, mentoring, writing (blogs, journals, op-eds, articles), professional learning communities (virtual and face- to-face), and advocacy. Participants will consider current issues and challenges facing students and teachers with regard to math education and will work to develop action plans to address these issues in the coming school year.

Applies to requirement(s): Meets No Distribution Requirement
M. Garcia, The department

X.MTHED-410 Developing Mathematical Ideas: Facilitator Training

Credits: 2

This institute focuses on learning to teach one of the Developmental Mathematical Ideas (DMI) modules. Participants will choose a particular DMI module on which to concentrate their facilitation work. The institute will include examination of the central mathematical ideas of the module, identifying key goals for each session, discussion of the process of interacting with participants both in the institute sessions and through written responses, as well as opportunities for practice facilitation.

Applies to requirement(s): Meets No Distribution Requirement
V. Bastable, The department
Advisory: Prior experience with a DMI seminar recommended.

X.MTHED-411 Educational Leadership II: Facilitating Adult Learning

Credits: 2

This course provides opportunities for participants to develop skills and knowledge to enable them to design and implement professional learning opportunities in mathematics for adults. Activities focus on four aspects: the importance of identifying key ideas and goals for professional learning, strategically using both small and whole group formats, an analysis of the range of professional learning opportunities for teachers, and opportunities to practice facilitating professional learning with an audience of teachers.

Applies to requirement(s): Meets No Distribution Requirement
K. Scott

X.MTHED-465 From Theory to Practice: The Learning and Teaching of Mathematics

Fall. Credits: 4

This course focuses on the teaching and learning of mathematics and considers how we move from theory to practice. The course focuses on the pedagogical moves of the teacher and the impact on students' mathematical experiences. Participants in the course will produce written cases of practice based on audio or videotaped classroom discussions and interviews with their own students. They will analyze their own cases and those of their colleagues to examine the learning of students and the impact of teacher moves. Course instructors will provide individual feedback based on the classroom cases.

Applies to requirement(s): Meets No Distribution Requirement
M. Garcia, The department
Restrictions: This course is offered for graduate students only.
Notes: Online.

X.MTHED-466 Advocacy Through Math Teacher Leadership

Not Scheduled for This Year. Credits: 4

The course involves exploring teacher leadership roles in mathematics education and how to advocate for change in the field. Students will create an action plan related to a change initiative in math education, develop a capstone project, and share findings and reflections so the group can provide critical feedback and support. The scalable nature of this work allows each student to define a leadership role and project to fit their interests and professional goals.

Applies to requirement(s): Meets No Distribution Requirement
M. Garcia, H. Patel
Restrictions: This course is offered for graduate students only.
Advisory: X.MTHED-465

Curriculum and Requirements

This 36-credit program is built around the latest research and best practices in math education. The core component of the work is the Developing Mathematical Ideas curriculum. The two year program involves three intensive summer sessions (up to three weeks each summer) and two academic years of online work.

Each summer will consist of up to three weeks of courses, some focused on mathematics, others on educational leadership. The final summer will consist of one week of mathematics and one week of educational leadership. Students will have the option to attend in person on our beautiful campus at 麻豆传媒高清 or online through our virtual learning environment during the summer sessions.

Each academic year will include up to four credits of work each semester, all conducted online. The academic year online courses blend asynchronous assignments in mathematics or educational leadership with live virtual learning sessions.

Sample Plan of Study

Summer
X.MATH-400Developing Mathematical Ideas: Building a System of Tens2
X.MATH-401Developing Mathematical Ideas: Making Meaning for Operations2
Fall
X.MATH-407Developing Mathematical Ideas: Reasoning Algebraically About Operations2
X.MATH-460Connecting Arithmetic to Algebra4
Spring
X.MATH-424Developing Mathematical Reasoning4
X.MATH-415Early Numeracy Assessment and Instruction I2
Summer
X.MATH-405Developing Mathematical Ideas: Measuring Space in One, Two, and Three Dimensions2
X.MATH-406Developing Mathematical Ideas: Patterns, Functions, and Change2
X.MTHED-409Educational Leadership I: Exploring the Roles of Math Teacher Leadership2
Fall
X.MATH-426Rational Numbers Assessment and Instruction3
X.MTHED-465From Theory to Practice: The Learning and Teaching of Mathematics4
Spring
X.MTHED-466Advocacy Through Math Teacher Leadership4
Summer
X.MTHED-411Educational Leadership II: Facilitating Adult Learning2
Teaching Mathematics to Students with Learning Differences2
Total Credits37

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Funding your graduate education

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