This research demonstrates that moving visual stimuli can improve time perception to match the accuracy of auditory cues. Using a novel bouncing-ball experiment, it challenges the belief that hearing is always superior for judging time and offers new insights for assistive technologies, sports performance, human coordination, and cognitive psychology.

This neuroscience study investigated why time sometimes feels longer than it really is. By replacing simple geometric shapes with animal images, the researcher tested whether arousal or novelty drives temporal dilation. Results supported the oddball effect, showing that stimulus change, rather than emotional significance, was the primary factor influencing perceived duration.