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Investigation of the effect of ranking tasks of student understanding of key astronomy topicsHudgins, David Willis 31 December 2005 (has links)
This research concerns the development and testing of a new type of introductory
astronomy curriculum material called ranking tasks. Ranking tasks are a novel form of
conceptual exercise in which students are presented with (usually) pictures or diagrams
that describe up to six slightly different variations of a basic physical situation. Students
are then asked to make a comparative judgment identifying the order or ranking of the
various situations based on some physical outcome or result. These exercises are easily
incorporated as collaborative group activities into the traditional lecture-based classroom.
This study developed design guidelines for ranking tasks based on several learning
theories and classroom pilot studies. A single-group repeated measures experiment was
then conducted using eight key introductory astronomy topics with 250 students at the
University of Arizona in the Fall of 2004. Our research questions were:
* Do in-class collaborative ranking task exercises result in student conceptual gains
when incorporated into traditional lecture-based instruction?
* Are these gains significant in terms of effect size measures commonly used in
education research?
* What value do students perceive in the use of in-class ranking tasks exercises?
The study found that average assessment test scores across the eight astronomy topics
increased from 32% on the start-of-semester pretest to 61% after traditional lecture, to
77% after the ranking task exercises. A mixed factors ANOVA confirmed a significant
rise in test scores after the ranking tasks (alpha = 0.05). The average normalized gain
on the post-ranking task tests was 0.41, with a Cohen’s d effect size of 0.62 which is
described in the literature as moderately large. Interestingly, we found that the
normalized gain from the ranking tasks was equal to the entire previous gain from
traditional instruction. A repeated-factor ANOVA found that the use of ranking tasks
equally benefited both genders and also both high and low-scoring median groups on the
pretest. A Lickert-scale attitude survey found that 83% of the students participating in the
16 week study believed that the ranking task exercises helped their understanding of core
astronomy concepts. Based on these results, we assert that adding collaborative ranking
task exercises to a traditional classroom instruction can significantly improve student
understanding of key introductory astronomy concepts. / Mathematical Sciences / Ph. D. (Mathematics, Science and Technology Education (Astronomy Education))
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Investigation of the effect of ranking tasks of student understanding of key astronomy topicsHudgins, David Willis 31 December 2005 (has links)
This research concerns the development and testing of a new type of introductory
astronomy curriculum material called ranking tasks. Ranking tasks are a novel form of
conceptual exercise in which students are presented with (usually) pictures or diagrams
that describe up to six slightly different variations of a basic physical situation. Students
are then asked to make a comparative judgment identifying the order or ranking of the
various situations based on some physical outcome or result. These exercises are easily
incorporated as collaborative group activities into the traditional lecture-based classroom.
This study developed design guidelines for ranking tasks based on several learning
theories and classroom pilot studies. A single-group repeated measures experiment was
then conducted using eight key introductory astronomy topics with 250 students at the
University of Arizona in the Fall of 2004. Our research questions were:
* Do in-class collaborative ranking task exercises result in student conceptual gains
when incorporated into traditional lecture-based instruction?
* Are these gains significant in terms of effect size measures commonly used in
education research?
* What value do students perceive in the use of in-class ranking tasks exercises?
The study found that average assessment test scores across the eight astronomy topics
increased from 32% on the start-of-semester pretest to 61% after traditional lecture, to
77% after the ranking task exercises. A mixed factors ANOVA confirmed a significant
rise in test scores after the ranking tasks (alpha = 0.05). The average normalized gain
on the post-ranking task tests was 0.41, with a Cohen’s d effect size of 0.62 which is
described in the literature as moderately large. Interestingly, we found that the
normalized gain from the ranking tasks was equal to the entire previous gain from
traditional instruction. A repeated-factor ANOVA found that the use of ranking tasks
equally benefited both genders and also both high and low-scoring median groups on the
pretest. A Lickert-scale attitude survey found that 83% of the students participating in the
16 week study believed that the ranking task exercises helped their understanding of core
astronomy concepts. Based on these results, we assert that adding collaborative ranking
task exercises to a traditional classroom instruction can significantly improve student
understanding of key introductory astronomy concepts. / Mathematical Sciences / Ph. D. (Mathematics, Science and Technology Education (Astronomy Education))
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