3.Using path-coordinates method, solve the magnitude of the acceleration in m/s² and the contact force (N) between the slider and the quarter circle rod right after the slider leaves the horizontal plane shown in the figure . The slider will move upward along the circular guide with an initial-velocity and mass of 3.2m/s and 0.5kg, respectively. The spring constant = 3.3kg/m and its unstretched length is 0.70m. Consider the coefficient of kinetic friction between the guide and the slider to be uk = 0.33. m 4 HORIZONTAL PLANE 1.20m A 1.20m
3.Using path-coordinates method, solve the magnitude of the acceleration in m/s² and the contact force (N) between the slider and the quarter circle rod right after the slider leaves the horizontal plane shown in the figure . The slider will move upward along the circular guide with an initial-velocity and mass of 3.2m/s and 0.5kg, respectively. The spring constant = 3.3kg/m and its unstretched length is 0.70m. Consider the coefficient of kinetic friction between the guide and the slider to be uk = 0.33. m 4 HORIZONTAL PLANE 1.20m A 1.20m
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