Exploring the Effects of Priming on Logical Reasoning
Disciplines
Cognitive Psychology | Psychology
Abstract (300 words maximum)
The relationship between priming and cognitive problem-solving has been an area of growing interest in psychological research, with implications for understanding how subtle cues influence task performance. This study seeks to answer the central question of how priming through word unscrambling influences participants' ability to solve logical grid puzzles, examining the cognitive processes that underlie this interaction. Previous research has demonstrated that priming can influence social behaviors, decision-making, and cognitive processes, yet little attention has been given to its role in enhancing analytical reasoning. This study addresses that gap by exploring how priming through word unscrambling impacts participants' ability to solve logical grid puzzles, aiming to assess the cognitive mechanisms involved in this process. The experiment divides participants into groups where one group received scrambled word tasks and the other did not. measuring their subsequent performance on puzzle-solving tasks. Independent-samples t-tests revealed no statistically significant differences between the control and experimental groups in total puzzle completion times (p > 0.3). Effect sizes were consistently small (Cohen's d ranging from -0.033 to -0.392), suggesting that the priming manipulation did not significantly influence overall problem-solving performance. However, greater variability was observed in the control group, as evidenced by larger standard deviations, indicating more inconsistent performance compared to the experimental group. This pattern of reduced variability in the experimental group suggests that priming may have contributed to more standardized cognitive processing, even if it did not enhance the speed of puzzle-solving. These findings highlight the complexity of priming effects on cognitive tasks, with potential implications for understanding how priming can influence task consistency rather than task speed.
Academic department under which the project should be listed
RCHSS - Psychological Science
Primary Investigator (PI) Name
Christina Salnaitis
Exploring the Effects of Priming on Logical Reasoning
The relationship between priming and cognitive problem-solving has been an area of growing interest in psychological research, with implications for understanding how subtle cues influence task performance. This study seeks to answer the central question of how priming through word unscrambling influences participants' ability to solve logical grid puzzles, examining the cognitive processes that underlie this interaction. Previous research has demonstrated that priming can influence social behaviors, decision-making, and cognitive processes, yet little attention has been given to its role in enhancing analytical reasoning. This study addresses that gap by exploring how priming through word unscrambling impacts participants' ability to solve logical grid puzzles, aiming to assess the cognitive mechanisms involved in this process. The experiment divides participants into groups where one group received scrambled word tasks and the other did not. measuring their subsequent performance on puzzle-solving tasks. Independent-samples t-tests revealed no statistically significant differences between the control and experimental groups in total puzzle completion times (p > 0.3). Effect sizes were consistently small (Cohen's d ranging from -0.033 to -0.392), suggesting that the priming manipulation did not significantly influence overall problem-solving performance. However, greater variability was observed in the control group, as evidenced by larger standard deviations, indicating more inconsistent performance compared to the experimental group. This pattern of reduced variability in the experimental group suggests that priming may have contributed to more standardized cognitive processing, even if it did not enhance the speed of puzzle-solving. These findings highlight the complexity of priming effects on cognitive tasks, with potential implications for understanding how priming can influence task consistency rather than task speed.