A sturdy ramp is an asymmetric 2-sided construction, with ramps going upward from either side. The overall 'double ramp' appears triangular from a 'side view' (see the diagram below). The ramp up on the left is at 27.0 above the horizontal on the left side. The ramp up on the right is at 36.4 above the horizontal coming from the right side. At the top of the triangular cross-section, where these two ramps meet, there is a frictionless pulley. Strong, approximately weightless(!), cord connects a 5.00 kg mass(#1) on the left to a 4.00 kg mass(#2) on the right, with the cord between them passing through the pulley at the top of this 2-sided asymmetric ramp. (a) SHOW LABELLED FREE BODY DIAGRAMS (GIVE SPECIFIC RELEVANT PHYSICS LABELS ONLY). The two masses are already moving just a very little bit (i.e. can ignore static friction) and both the mass/ramp interfaces have a kinetic friction that is close to being frictionless (i.e. assume no friction(!)). The system's initial velocity is very close to zero, what will the acceleration end up being for this system? Will it be to the left or the right? What would be the measured acceleration of the system in m/s ? Would the acceleration quantity result be the same regardless of some initial velocity? What would we observe regarding the motion of the two masses if the system was: (i) already moving a little bit to the left? (ii) already moving a little bit the right