New Directions in the Teaching of Natural Sciences

The Force Concept Inventory, a 30-question multiple choice test, has been used to test the baseline knowledge in mechanics prior to a course of instruction at Hull over the three years corresponding to entry in 2008, 2009 and 2010. Students whose pre-university education occurred outside the UK or who were repeating the year have been excluded from the analysis in order to focus attention on first-time UK students. These constitute the great majority of the entrants and the results essentially characterise the entry-level knowledge of a typical cohort. Two interesting findings have emerged. First, there is a wide range of abilities within each cohort, as judged by the test scores, and secondly, analysis of the scores question by question reveals a remarkable consistency between the different cohorts. This consistency extends even to the distribution of choices within individual questions. Five such questions are analysed in detailed to reveal which aspects of mechanics a typical class finds difficult. Ausubel‟s principle of first finding out what students know in order to teach accordingly can therefore be applied not to the individual students but to the class as a whole and suggestions as to how instruction might be tailored to address the weaknesses revealed by the Force Concept Inventory are discussed.

Ausubel D. P. (1968): Educational psychology: A cognitive view. New York: Holt, Rinehart and Winston

di Sessa, Andrea (1987): The Third Revolution in Computers and Education, J. Res. Sci. Teach. 24(4) 343-367

Redish, Edward F. (2003): Teaching Physics With The Physics Suite, John Wiley & Sons, USA.

Smith, Julia I. and Tanner, Kimberly (2010): The Problem Of Revealing How Students Think: Concept Inventories and Beyond, CBE-Life Science Education 9, 1-5

Wallace, Colin S. and Bailey, Janelle M. (2010): Do Concept Inventories Actually Measure Anything? Astronomy Education Review, 9, 010116-1.

Planinic, Maja; Ivanjek, Lana and Susac, Ana (2010): Rasch Model based analysis of the Force Concept Inventory, Physical Review Special Topics – Physics Education Research, 6, 010103

Huffman, Douglas and Heller, Patricia (1995): What Does the Force Concept Inventory Actually Measure? The Physics Teacher, 33, 138-143.

Hestenes, David and Halloun, Ibrahim ((1995): Interpreting The Force Concept Inventory: A Reply to Hestenes and Halloun, The Physics Teacher, 33, 502-506.

Heller, Patricia and Huffman, Douglas (1995): Interpreting The Force Concept Inventory: A response to Huffman and Heller, The Physics Teacher, 33, 503-511.

Sands, David (2010): First Year Mechanics Taught Through Modelling In Vpython, New Directions in the Teaching of Physical Sciences, Journal of the UK Physical Sciences Centre, University of Hull, Issue 6, 47-50.

Stewart, John; Griffin, Heather and Stewart, Gay (2007): Context Sensitivity in the Force Concept Inventory, Physical Review Special Topics – Physics Education Research, 3, 010102

Bao, Lei and Redish, Edward F. (2006): Model Analysis: Representing And Assessing The Dynamics Of Student Learning, Physical Review Special Topics – Physics Education Research, 2, 010103

McDermott, L.C. (2001): Oersted Medal Lecture 2001: Physics education research: The key to student learning, Am.J. Phys. 69 (11) 1127.

Hestenes, David (1987): Am. J. Phys, 55(5) 440-454

Nersessian, Nancy J. (2008) : Creating Scientific Concepts, Bradford books

Sands, David and Overton, Tina (2010): Cognitive psychology and problem solving in the physical sciences, New Directions in the Teaching of Physical Sciences, Issue 6 September 2010, Journal of the UK Physical Sciences Centre, University of Hull, p21-25