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Figure ?Figure55). Peak velocity To assess whether altering the hand velocity benefits participants' performance or not, peak velocity was calculated from each individual intercepting movement. A Two-Way repeated measures ANOVA (5 Sounds �� 2 S/U) revealed no significant main effect for Sound types [F(4, 36) = 0.342, p = 0.847, ��2 = 0.037] or the S/U condition [F(1, 9) = 0.928, p = 0.361, ��2 = 0.093]. There was a significant interaction between the sound and successful/unsuccessful factors [F(4, 36) = 5.5, p = 0.001, ��2 = 0.379]. Importantly, post-hoc analysis revealed that successful trials for decelerating sounds were achieved by larger peak velocity compared to the unsuccessful ones (p = 0.006), while moving with lower peak velocity to intercept the medium sound Isoxsuprine led to higher rate of successful trials compared to unsuccessful ones (p for participants to accomplish the task (cf. Figure ?Figure66). Figure 6 Averaged peak velocities for successful and unsuccessful trials across all 10 participants for all the sounds (ACC, Accelerating; DEC, Decelerating; Vf, Fast; Vm, Selleckchem FRAX597 Medium; and Vs, Slow). Error bars denote standard errors. Significant comparisons between ... Time to peak velocity A Two-Way repeated measures ANOVA (5 Sounds �� 2 S/U) revealed a significant main effect for Sounds types [F(4, 36) = 15.872, p Bcl-2 inhibition and slow sounds (p = 0.017). Moreover, the time to reach the peak velocity was significantly shorter for fast compared to decelerating (DEC), slow (Vs) and medium (Vm) speed sounds (p = 0.017, 0.018, and 0.03, respectively). This implies that the time to reach the hand peak velocity changed as a function of the sound's velocity. Importantly, no significant effect was found for the successful/unsuccessful factor [F(1, 9) = 0.565, p = 0.471, ��2 = 0.059]. Moreover, there was a significant interaction between the sound and successful/unsuccessful factors [F(4, 36) = 16.790, p