Equations of Motion: Rectangular Coordinates a,--150 m Learning Goal To set up and solve the equations...
To set up and solve the equations of motion using rectangular coordinates The 2-kg collar shown has a coefficient of kinetic friction uk= 0.18 with the shaft. The spring is unstretched when s=0 and the collar is given an initial velocity of vo = 17.1 m/s. The unstretched length of the spring is d=1.2 m and the spring constant is k=8.70 N/m. Part B - The acceleration of the collar after it has moved a certain distance What is the...
Part B and C <Problem Assignment No. 2 Equations of Motion: Rectangular Coordinates Learning Goal: To set up and solve the equations of motion using rectangular coordinates. The 3.5-kg collar shown has a coefficient of kinetic friction μk 0.195 with the shaft. The spring is unstretched when s 0 and the collar is given an initial velocity of vo 10.3 m/s. The unstretched length of the spring is d- 1.3 nm and the spring constant is k- 3.13 N/m. (Figure...
Equations of Motion: Cylindrical Coordinates Learning Goal: To set up and analyze equations of motion in a cylindrical coordinate system. The mechanism shown in the figure below rotates about the vertical axis. The collar has mass m=3.05 kg. The spring has an unstretched length of 310 mm and the spring constant is k=160 N/m. The distance d=200 mm , and the collar is required to stay a fixed distance r=480 mm from the vertical axis. (Figure 1) Part A -...
Please answer the following question clearly and show your work. < Problem Assignment No. 2 Equations of Motion: Rectangular Coordinates ) 40 Learning Goal To set up and salve the equations of motion using rectangular Part A-Net force on the collar The 3.5-kg collar shown has a coefficient of kinetic friction ?'t 0.185 with the shaft. The spring is un stretched when What is the net force on the collar along the directien of the shaft? View Available Hins) 0...
Equations of Motion: Translation Learning Goal: To use the equations of motion as they relate to linear translation of an object to determine characteristics about its motion. The car shown has a mass of m= 1200 kg and a center of mass located at G. The coefficient of static friction between the wheels and the road is us 0.240. The dimensions are a = 1.05 m. b= 1.65 m, and c= -0.350 m Assume the car starts from rest, the...