**coffee filter has mass 0.01908 kg total stack mass m = 12 × 0.01908 = 0.22896 kg AveVelInitial = y3 − y1/t3-t1 = 1.10446 m/s t = 0 at the second observation of our collected data distance fallen here is 0 m initial velocity of 1.10446 m/s.** a) With these assumptions, construct a Free Body Diagram (FBD) and indicate all the forces acting on the mass of the stacked coffee filters. b) Using Newton’ s Second Law of Motion which says that the change in momentum is equal to the sum of all the external forces acting on the mass of the stacked coffee filters, construct amathematical model for determining the velocity, v(t) = y'(t), of this object. Here y(t) is the distance the coffee filters have fallen from rest in meters at time t in seconds

coffee filter has mass 0.01908 kg total stack mass m = 12 × 0.01908 = 0.22896 kg AveVelInitial = y3 − y1/t3-t1 = 1.10446 m/s t = 0 at the second observation of our collected data distance fallen here is 0 m initial velocity of 1.10446 m/s. a) With these assumptions, construct a Free Body Diagram (FBD) and indicate all the forces acting on the mass of the stacked coffee filters. b) Using Newton’ s Second Law of Motion which says that the change in momentum is equal to the sum of all the external forces acting on the mass of the stacked coffee filters, construct amathematical model for determining the velocity, v(t) = y'(t), of this object. Here y(t) is the distance the coffee filters have fallen from rest in meters at time t in seconds