Answer all will the work

In the diagram shown, Block A is 34 kg and Block B is 9.5 kg. The incline on Block A's side makes an angle of 56.50 with the horizontal and the incline on Block B's side makes an angle of 30 with the horizontal. The coefficient of kinetic friction of Block A's incline is 0.16 and that of Block B's incline is 0.1. Assume that Block A is initially (at t=0) sliding up its incline at 5.2 m/s. Also assume the pulley is massless and frictionless. In your submitted work, be sure to show your neatly drawn free body diagrams for each mass (using a straight-edge). Identify each vector force (draw arrows) in the diagram and draw your axes for each diagram and show the component breakdown for each force... points will be lost for sloppy or incomplete drawings. You should have FOUR FBDS... one for each mass as Block A slides UP the incline (while Block B slides DOWN its incline), and one for each mass when Block A slides DOWN its incline (while Block B slides UP its incline). (A) Calculate the magnitude of the acceleration (in m/s2) of the blocks as Block A is on the way UP its incline. 05.38 09.27 O20.1 013.0 06.18 02.41 (B) Calculate the tension (in N) in the rope as Block A is on the way UP its incline. 037.9 0146 0205 0317 097.2 084.6 (C) Calculate the magnitude of the acceleration (in m/s2) of the blocks as Block A is on the way DOWN its incline. 09.40 03.88 014.5 06.68 04.46 01.74 (D) Calculate the tension (in N) in the rope as Block A is on the way DOWN its incline. O145 084.3 0205 0316 037.8 096.9 (E) Assuming the ramps and ropes are long enough, over what total distance (in meters) will the blocks have moved along their inclines after 4.2 seconds from start of the motion? (HINT: This s asking for distance, not displacement. ALSO, recognize that at some point over this 4.2 second time interval the blocks will stop and reverse direction.) O27.3 041.0 010.7 O23.8 057.6 089.0