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Direct linkChernoff, Egan J.; Russell, Gale L. – Canadian Journal of Science, Mathematics and Technology Education, 2012
The purpose of this article is to address the lack of research on teachers' knowledge of probability. As has been the case in prior research, we asked prospective mathematics teachers to determine which of the presented sequences of coin flips was least likely to occur. However, instead of using the traditional perspectives of heuristic and…
Descriptors: Heuristics, Probability, Mathematics Instruction, Mathematics Teachers
Morsanyi, Kinga; Primi, Caterina; Chiesi, Francesca; Handley, Simon – Contemporary Educational Psychology, 2009
In three studies we looked at two typical misconceptions of probability: the representativeness heuristic, and the equiprobability bias. The literature on statistics education predicts that some typical errors and biases (e.g., the equiprobability bias) increase with education, whereas others decrease. This is in contrast with reasoning theorists'…
Descriptors: Heuristics, Logical Thinking, Psychology, Statistics
Peer reviewedCox, Caryl; Mouw, John T. – Educational Studies in Mathematics, 1992
The explicit, experimental introduction of a series of logical inconsistencies is described and recommended as a means of disrupting the faulty logic and, thereby, enhancing the use of more appropriate probabilistic reasoning by graduate students enrolled in an introductory inferential statistics course. (14 references) (JJK)
Descriptors: Heuristics, Higher Education, Logical Thinking, Mathematics Education
