- 1. Understanding of the knowledge, skills, and processes of the Virginia Mathematics Standards of Learning and how curriculum may be organized to teach these standards to diverse learners;
- 2. Understanding of a core knowledge base of concepts and procedures within the discipline of mathematics, including the following strands: number systems and number theory, geometry and measurement, analytic geometry, statistics and probability, functions and algebra, multivariate calculus, discrete mathematics, and linear and abstract algebra;
- 3. Understanding of the sequential and interrelated nature of mathematics, the vertical progression of mathematical standards, and the mathematical structures inherent in the content strands;
- 4. Understanding of the connections among mathematical concepts and procedures and their practical applications;
- 5. Understanding of and the ability to use the five processes - becoming mathematical problem-solvers, reasoning mathematically, communicating mathematically, making mathematical connections, and using mathematical models and representations - at different levels of complexity;
- 6. Understanding the contributions of different individuals and cultures toward the development of mathematics and the role of mathematics in culture and society;
- 7. Understanding of major current curriculum studies and trends in mathematics;
- 8. Understanding how to utilize appropriate technologies for teaching and learning mathematics, including graphing utilities, dynamic software, spreadsheets, and virtual manipulatives;
- 9. Understanding of and the ability to select, adapt, differentiate, evaluate, and use instructional materials and resources, including professional journals and technology;
- 10. Understanding of and the ability to use strategies for managing, assessing, and monitoring student learning, including diagnosing student errors;
- 11. Understanding of and the ability to use strategies to teach mathematics to diverse learners;
- 12. Knowledge of programming in at least two widely used programming languages, including definition, structure, and comparison;
- 13. Understanding of and proficiency in grammar, usage, and mechanics and their integration in writing; and
- 14. Understanding of and proficiency in pedagogy to incorporate writing as an instructional and assessment tool for candidates to generate, gather, plan, organize, and present ideas in writing to communicate for a variety of purposes.
The program in mathematics shall ensure that the candidate has demonstrated the following competencies:
Statutory Authority
§§ 22.1-16 and 22.1-298.2 of the Code of Virginia.
Historical Notes
Derived from Virginia Register Volume 34, Issue 24, eff. August 23, 2018.