The misconception is the condition when someone who have an incorrect concept in understanding. If it biology prospective teachers has an incorrect concept, the student will get one, too. So, they have to develop the instrument for microteaching subject in order to diagnose the misconception. Therefore, this research aims to develop those instruments.  There are two kinds of instruments were developed in this study. The first instrument evaluated a teacher performance in the microteaching subject. The second instrument evaluated the learning devices of the teachers (eg: learning plan, resource, media, etc).  There are three validators contributed in this study to validate the instruments. The result showed that the instrument was valid to be used, which has 85,71 % score for performance and 94,29% for learning devices.  In the future, we can develop another kind of instrument for misconception diagnosis. Furthermore, those instruments can be applied to another subject.

Chris, K. 2012. Common Eart Science Misconceptions in Science Teaching. School Science Review. (Online), (http://eric.ed.gov/?q=misconception+in+teaching&id=EJ995716, diakses 10 November 2016).

Coley, J.D. and Tanner, K. 2015. Relations between Intuitive Biological Thinking and Biological Misconceptions in Biology Majors and Nonmajors. CBE Life Sciences Education. (Online), Volume 14, No. 1, (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4353083/, diakses 12 November 2016).

Gurbuz, F. 2016. Physics Education: Effect of Microteaching Method Supported by Educational Technologies on Pre-Service Science Teachers’ Misconceptions on Basic Astronomy Subjects. Journal of Education and Training Studies. Vol. 4, No. 2: 27-41. E-ISSN 2324-8068.

Gurel, D. K., Eryilmaz, A. 2015. A Review and Comparasion of Diagnostic Instruments to Identify Students’ Misconceptions in Science. Eurasia Journal of Mathematics, Science and Technology Education. Vol. 11, No. 5: 989-1008.

Kose, S. 2008. Diagnosis Student Misconceptions: Using Drawings as a Research Method. World Applied Sciences Journal. Vol. 3, No. 2: 283-293.

Kowalski, P. and Taylor, A. K. 2004. Ability and critical thinking as predictors of change in students' psychological misconceptions. Journal of Instructional Psychology. (Online), Vol. 31, No. 4, (http://www.freepatentsonline.com/article/Journal-Instructional-Psychology/126582634.html, diakses 25 November 2016).

Lucariello, J, Tine, M. T., and Ganley, C. M. 2014. A Formative assessment of Students’ algebraic variable misconceptions. Jornal of Mathematical Behavior. Vol. 33: 30-41.

Sadler, P. M., and Sonnert, Gerhart. 2016. Understanding Misconceptions Teaching and Learning in Middle School Physical Science. American Educator. Spring. p26-32.

Sugiyono. 2012. Metode Penelitian Pendidikan Pendekatan Kuantitatif, Kualitatif, dan R&D. Bandung: Alfabeta.

Thompson, F. & Logue, S. 2006 .An exploration of common student misconceptions in science. International Education Journal. Vol. 7, No. 4: 553-559.