Students are rarely given an opportunity to think deeply about experimental design or asked to develop experimental protocols on their own. Without participating in these endeavors, they are often unaware of the many decisions necessary to construct a precise methodology. This article describes an on-line reaction time program, and how I have used this program as a teaching tool for students to explore experimental design. This approach can be tailored to meet the level of any undergraduate student – from non-science majors to upper-level biology/psychology/neuroscience majors, affording all students the opportunity to think like a scientist. Described is how I use the reaction time program for a whole class demonstration and discussion, as well as, how it can be used for a written assignment in which each student designs and conducts his/her own experiment outside of the classroom. Comments from several students, who did the written assignment, are included to provide a sense of their thoughts and considerations. When students are given a simple method, such as the measurement of reaction time, it allows them to focus exclusively on developing precise methodology, which taps into types of thinking that they are not often asked to exhibit in other science classes.
[1]
M. Festing,et al.
Principles: the need for better experimental design.
,
2003,
Trends in pharmacological sciences.
[2]
J. F. Zolman.
Teaching experimental design to biologists.
,
1999,
The American journal of physiology.
[3]
Robert J. Kosinski,et al.
A Literature Review on Reaction Time Kinds of Reaction Time Experiments
,
2012
.
[4]
Sara M Hiebert,et al.
Teaching simple experimental design to undergraduates: do your students understand the basics?
,
2007,
Advances in physiology education.
[5]
Christine M. Anderson-Cook,et al.
An Active Learning In-Class Demonstration of Good Experimental Design
,
2001
.
[6]
Adam Gazzaley,et al.
Mechanisms of working memory disruption by external interference.
,
2010,
Cerebral cortex.