Arizona Collaborative for Excellence in Preparation of Teachers (ACEPT) Evaluators discovered that their Classroom Observation measures correlate tightly with students' pretest-posttest gains across several science disciplines and mathematics. We found these results in the community college and university classrooms we have evaluated to date.

Our quasi-experimental study compared experimental groups (ACEPT reformed teaching) and comparison groups (non-reformed teaching) on the basis of pretests - posttests gains in student achievement. We discovered that the classroom observation measure we used co-varied with student gains in a remarkable way (see the accompanying graphs).

Figure 1 (Full Size)

Figure 2 (Full Size)

The Physical Sciences 110 study involved 3 experimental groups and 3 control groups. A 30 item physics concept test was administered as a pretest and again as a posttest. The mean gain in learning (actually a "normalized gain" - more on that later) for each class is plotted side-by-side with the class's mean score on a classroom observation measure. As can be seen, when one bar goes up the corresponding bar goes up. When one goes down, the other goes down. The two means go up and down as if they were linked together! The co-variation is remarkable. We were stunned. How could one variable so closely track the other? Imagine our surprise when the same pattern occurred in another study (Physics 121 - introductory physics) involving 4 classes. Again, the classroom observation mean follows the gain in achievement almost perfectly.

At this point, it may be appropriate to explain what a "normalized" gain score is just in case ECEPT visitors are thinking there is something fishy about "normalized gains". Normalized gains were defined by Physicist Richard Hake to account for the fact that different classes start with different pretest scores. It may, for example, be easier to improve a low pretest score than to improve a high one. He therefore "corrected" for the initial pretest level by doing this:

"corrected gain" = (Posttest - Pretest)/(Total - Pretest) = "normalized gain".

What he did was compare the actual gain to the possible gain as a ratio. If this is still unconvincing, the graphs change very little if simple gain scores are used instead of normalized gains.

The classroom observation measure we used is called the Reformed Teaching Observation Protocol (RTOP), an instrument developed by ACEPT evaluators. It was designed to measure the degree to which classroom teaching of math or science is reformed. It was not designed to predict student achievement. That this instrument would track achievement gains so closely was a very pleasant outcome, both for the ACEPT project and for the evaluators. Such "tracking" ability says something about the instrument. But what?

Furthermore, as remarkable as the data are, would we be stretching matters if we said, "the data show that reformed instruction CAUSES students to learn more?" Is this going too far?

If you'd really like to get involved (and prove us wrong!), leave your email and we will send you a copy of the "Reformed Teaching Observation Protocol" and a User Manual to go along with it. We'd like to know if we are having a strange aberration occurring here.

If you give it a shot in your studies, we'd be awfully glad to hear from you.

Comments? Questions? Reactions?

Daiyo Sawada
ACEPT Project Evaluator
daiyo.sawada@ualberta.ca