Virginia Law

The program in chemistry shall ensure that the candidate has demonstrated the following competencies:

1. Understanding of the knowledge, skills, and practices of the four core science disciplines of Earth and space sciences, biology, chemistry, and physics as defined in the Virginia Science Standards of Learning and how they provide a sound foundation for teaching chemistry.

2. Understanding of the nature of science and scientific inquiry including the:

a. Function of research design and experimentation;

b. Role and nature of the theory in explaining and predicting events and phenomena;

c. Practices required to provide empirical answers to research questions, including data collection and analysis, modeling, argumentation with evidence, and constructing explanations;

d. Reliability of scientific knowledge and its constant scrutiny and refinement;

e. Self-checking mechanisms used by science to increase objectivity including peer review; and

f. Assumptions, influencing conditions, and limits of empirical knowledge.

3. Understanding of the knowledge, skills, and practices for teaching laboratory science, including the ability to:

a. Design instruction reflecting the goals of the Virginia Science Standards of Learning;

b. Implement classroom, field, and laboratory safety rules and procedures and ensure that students take appropriate safety precautions;

c. Conduct research projects and experiments including applications of the design process and technology;

d. Conduct systematic field investigations using the school grounds, the community, and regional resources;

e. Organize key chemistry content, skills, and practices into meaningful units of instruction that actively engage students in learning;

f. Design instruction to meet the needs of diverse learners using a variety of techniques;

g. Evaluate instructional materials, technologies, and teaching practices;

h. Conduct formative and summative assessments of student learning;

i. Incorporate instructional technology to enhance student performance; and

j. Ensure student competence in chemistry.

4. Understanding of content, skills, and practices of chemistry, equivalent to an undergraduate degree in chemistry, with course work in biochemistry, inorganic chemistry, organic chemistry, physical chemistry, and analytical chemistry.

5. Understanding of basic physics, Earth science, biology, and mathematics to ensure:

a. The placement of chemistry in an appropriate interdisciplinary context;

b. The ability to teach the skills, practices, and crosscutting concepts common to the Earth, biological, and physical sciences;

c. The application of key principles in chemistry to solve practical problems; and

d. A "systems" understanding of the natural world.

6. Understanding of the contributions and significance of chemistry, including:

a. Its social, cultural, and economic significance;

b. The relationship of chemistry and other sciences to mathematics, the design process and technology; and

c. The historical development of scientific concepts and scientific reasoning.

7. Understanding of and proficiency in grammar, usage, and mechanics and their integration in writing.

8. 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.