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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Transcribed Image Text: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
13
www.
1.20m
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