Wiener, MartinRobinson, Eva Marie2019-07-022019-07-02https://hdl.handle.net/1920/11502Time perception has long been a focus among cognitive neuroscientists. An abundance on research on time perception and the underlying theories has demonstrated that subjective judgments of time can be significantly distorted based on various physical properties of a stimulus. One of the areas of time perception research that has garnered attention is the perception time dilation, in which the perception of time can expand, or contract based on the motion and velocity of a stimulus. However, the understanding of the underlying neuronal mechanisms of time dilation remain controversial. To that end, this study utilized a discrimination task using random dot motion stimuli along with transcranial magnetic stimulation to induce the effect of time dilation as well as inhibit the regions of the brain associated with time perception and motion based on previous literature. The results found that TMS to MT/V5 reduces accuracy for speed while TMS to the SMG slightly reduces accuracy for time. Additionally, we found that while motion impacts the perception of time, time does not impact motion.enTime dilationMT/V5SpeedMotionRight inferior parietal cortexTranscranial Magnetic StimulationThesis