Project Activities
Structured Abstract
Setting
Sample
Research design and methods
Control condition
Key measures
Data analytic strategy
People and institutions involved
IES program contact(s)
Products and publications
Products: Anticipated dissemination activities include ongoing articles in scholarly and practitioner journals, presentations at state and national meetings, and regular reports via the University of Miami's School of Education website.
Book
Montague, M. (2013). Solve It! Teaching Mathematical Problem Solving in Inclusive Classrooms - Grades 7-12. Reston, VA: Exceptional Innovations.
Book chapter
Montague, M. (2011). Effective Instruction in Mathematics for Students With Learning Difficulties. Multiple Perspectives on Difficulties in Learning Literacy and Numeracy (pp. 295-314). London: Springer Publishing.
Montague, M., and Castellani, J. (2011). Instructional Technology and Math Problem Solving. In J. Castellani, and B. Heiman (Eds.), Instructional Technology: Helping Students Access Curriculum Content (pp. 23-30). Reston, VA: Technology and Media Division, Council for Exceptional Children.
Montague, M., and Jitendra, A. (2012). Research-Based Mathematics Instruction for Students With Learning Disabilities. In F.D. Rivera, and H. Forgasz (Eds.), Equity and Diversity in Mathematics Education (pp. 481-502). London: Springer. doi:10.1007/978-3-642-27702-3_44
Journal article, monograph, or newsletter
Kingsdorf, S., and Krawec, J. (2014). Error Analysis of Mathematical Word Problem Solving Across Students With and Without Learning Disabilities. Learning Disabilities Research and Practice, 29(2): 66-74. doi:10.1111/ldrp.12029
Krawec, J., and Montague, M. (2014). The Role of Teacher Training in Cognitive Strategy Instruction to Improve Math Problem Solving. Learning Disabilities Research and Practice, 29(3): 126-134. doi:10.1111/ldrp.12034
Krawec, J., Huang, J., Montague, M., Kressler, K., Sarduy, L., and Melia de Alba, A. (2013). The Effects of Cognitive Strategy Instruction on Knowledge of Math Problem-Solving Processes of Middle School Students With Learning Disabilities. Learning Disability Quarterly, 36(2): 80-92. doi:10.1177/0731948712463368
Montague, M., and Krawec, J. (in press). Solve It!: A Cognitive Strategy to Improve Middle School Students' Math Problem Solving. Teacher Education and Special Education.
Montague, M., Krawec, J., Enders, C., and Dietz, S. (2014). The Effects of Cognitive Strategy Instruction on Math Problem Solving of Middle-School Students of Varying Ability. Journal of Educational Psychology, 106(2): 469-481. doi:10.1037/a0035176
Montague, M., Penfield, R.D., Enders, C., and Huang, J. (2010). Curriculum-Based Measurement of Math Problem Solving: A Methodology and Rationale for Establishing Equivalence of Scores. Journal of School Psychology, 48(1): 39-52. doi:10.1016/j.jsp.2009.08.002
Sweeney, C., Krawec, J., and Montague, M. (2011). Metacognitive Strategy Use of Eighth-Grade Students With and Without Learning Disabilities During Mathematical Problem Solving: A Think-Aloud Analysis. Journal of Learning Disabilities, 44(6): 508-520. doi:10.1177/0022219410378445
Nongovernment report, issue brief, or practice guide
Krawec, J., and Montague, M. (2012). Current Practice Alerts: Cognitive Strategy Instruction, Issue 19. Charlottesville, VA: Council for Exceptional Children. Full text
Supplemental information
Purpose: Students with disabilities tend to lag behind their peers in mathematics achievement. On the 2007 National Assessment of Educational Progress, 19 percent of students with disabilities in Grade 4, and 8 percent of students with disabilities in Grade 8 were at or above the proficient level in mathematics for their grade. A number of interventions have been developed to address the mathematics needs of students with disabilities, but relatively little high quality research has been conducted to test the efficacy of such interventions. This project will test the efficacy of Solve It!, an intervention designed to teach students with learning disabilities how to understand, analyze, solve, and evaluate mathematical problems by developing the processes and strategies that effective problem solvers use. The participants in the study will be middle school teachers and students in the Miami-Dade County Public Schools. A cluster randomized design will be employed, and outcomes will include tests of mathematics achievement, problem solving, and self-efficacy for learning.
Program materials include a detailed instructional guide, informal assessments, curriculum-based measures, scripted lessons, instructional materials, and procedures for helping students apply, maintain, and generalize skills and strategies. The mathematical problems include typical textbook problems, problems similar to those found on the Florida Comprehensive Assessment Test, and authentic, real-life problems.
Teacher measures will include the Solve It! Fidelity of Treatment Observation System, and teacher logs, interviews, and focus groups.
Questions about this project?
To answer additional questions about this project or provide feedback, please contact the program officer.
