Problem#2 You work for a moving company are forced to pull two crates along the floor as shown in the figure below.in The two crates are connected by a very light rope (it's mass is much smaller than that of either block). You want to get done as soon as possible and pull as hard as you possibly can and manage to maintain a pulling force of F = 600.0 N. As a result the crates are moving with an unknown constant acceleration a. Their masses are mi = 50.0 kg and m2 = 20.0 kg, and the coefficient of kinetic friction between each crate and the floor is Uk = 0.300. g= 9.81 m/s² %3! m1 m2 F a) Find the magnitude of the acceleration a of the two crates. b) Find the magnitude of the tension T on the rope connecting the two crates to each other. For this problem especially, it will be helpful to refrain from using numbers until you have an algebraic expression for T.

Please answer parts A and B. Show all work and circle your answers! Thank you in advanced!

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Problem#2 You work for a moving company are forced to pull two crates along the floor as shown in the figure below. The two crates are connected by a very light rope (it's mass is much smaller than that of either block). You want to get done as soon as possible and pull as hard as you possibly can and manage to maintain a pulling force of F= 600.0 N. As a result the crates are moving with an unknown constant acceleration a. Their masses are mi 50.0 kg and m2 = 20.0 kg, and the coefficient of kinetic friction between each crate and the floor is Uk = 0.300. g = 9.81 m/s? m. m2 F a) Find the magnitude of the acceleration a of the two crates. b) Find the magnitude of the tension T on the rope connecting the two crates to each other. For this problem especially, it will be helpful to refrain from using numbers until you have an algebraic expression for T. beiniog odyr 01ov apolev Isni od lliw (eixt- to ebe + ardi of91 iw boue83y slgas ndw Page 4 of 7