Secondary Teacher Preparation in Science:
Arkansas

Delivering Well Prepared Teachers Policy

Goal

The state should ensure that science teachers know all the subject matter they are licensed to teach.

Nearly meets goal
Suggested Citation:
National Council on Teacher Quality. (2011). Secondary Teacher Preparation in Science: Arkansas results. State Teacher Policy Database. [Data set].
Retrieved from: https://www.nctq.org/yearbook/state/AR-Secondary-Teacher-Preparation-in-Science-6

Analysis of Arkansas's policies

Although Arkansas does not offer a general science certification for secondary science teachers, it does have a combined physical/earth science licensure area. The state does not mandate specific major/minor requirements, but rather it articulates a set of competencies to address requisite knowledge in a particular area. Candidates are required to pass the Praxis II "Earth and Space Sciences" test and the "Physical Science" test, which combines both chemistry and physics. 

Middle school science teachers are required to select a major in mathematics/science and then must earn at least 18 credits in each of the two disciplines in their competency area. As of November 1, 2011, all new middle school teacher candidates will be required to take the Praxis II Middle School: Multiple Subjects assessment, which will report a cut score for each of the four content areas. Candidates will be allowed to re-take any section that they do not pass; however, all sections must be passed prior to licensure.

Citation

Recommendations for Arkansas

Require secondary science teachers to pass tests of content knowledge for each science discipline they intend to teach.
States that allow combination licenses across multiple science disciplines—and require only a comprehensive content test—are not ensuring that these secondary teachers possess adequate subject-specific content knowledge. Arkansas's required assessments combine both physics and chemistry and do not report separate scores for each subject. Therefore, a candidate could, for example, answer many physics questions incorrectly on the combination content test, yet still be licensed to teach physics to high school students.

State response to our analysis

Arkansas was helpful in providing NCTQ with the facts necessary for this analysis. The state wondered why its life/earth and space science certification was not included in the analysis, and it added that a secondary science teacher must pass either the life science (biology) or the physical science (chemistry and physics) content test. 

Last word

The focus of this goal is on combination licensure areas that allow teachers to teach a combination of biology, chemistry and/or physics under a single certificate. The analysis discusses Arkansas's physical/earth science certificate because it allows teachers to teach both chemistry and physics but only requires candidates to pass the Praxis II physical science assessment, which combines physics and chemistry without reporting cut scores for each subject area.

Although the state also offers certification in life/earth science, it was not included in the analysis because it requires that candidates pass the Praxis II biology test, in addition to an earth science assessment. Therefore, the testing requirement ensures that a secondary biology teacher must pass a biology content test. 

Research rationale

For an examination of how science teacher preparation positively impacts student achievement, see Goldhaber, D., & Brewer, D. (2000). Does teacher certification matter? High school certification status and student achievement, Educational Evaluation and Policy Analysis, 22, 129-145; Monk, D. (1994). Subject area preparation of secondary mathematics and science teachers and student achievement, Economics of Education Review, 12(2):125-145; Rothman, A., (1969). Teacher characteristics and student learning. Journal of Research in Science Teaching, 6(4), 340-348.  

See also, NCTQ "The All-Purpose Science Teacher: An Analysis of Loopholes in State Requirements for High School Science Teachers."(2010). 

In addition, research studies have demonstrated the positive impact of teacher content knowledge on student achievement.  For example, see D. Goldhaber, "Everyone's Doing It, But What Does Teacher Testing Tell Us About Teacher Effectiveness?" Journal of Human Resources, vol. XLII no.4 (2007).  See also Harris, D., and Sass, T., "Teacher Training, Teacher Quality and Student Achievement". Teacher Quality Research (2007). Evidence can also be found in White, Presely, DeAngelis "Leveling up: Narrowing the teacher academic capital gap in Illinois," Illinois Education Research Council (2008); D. Goldhaber and D. Brewer, "Why Don't Schools and Teachers Seem to Matter? Assessing the impact of Unobservables on Educational Productivity." Journal of Human Resources (1998).