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The 2.00 kg block in the figure is tied to the wall with a massless rope. It sits on top of the 4.00 kg block. The lower block is pulled to the right with a force of 45.0 N. The tension in the lower rope is 45.0 N) The upper block (2 kg) remains stationary throughout. The coefficient of kinetic friction at both the upper and lower surfaces of the 4.00 kg block is 0.400(μK = . 400). What is the tension in the rope holding the 2.0 kg block? What is the acceleration of the 4.0 kg block? (you will be graded on the correctness of your fbds) Put your FBDs here

The 2.00 kg block in the figure is tied to the wall with a massless rope. It sits on top of the 4.00 kg block. The lower block is pulled to the right with a force of 45.0 N. The tension in the lower rope is 45.0 N) The upper block (2 kg) remains stationary throughout. The coefficient of kinetic friction at both the upper and lower surfaces of the 4.00 kg block is 0.400(μK = . 400). What is the tension in the rope holding the 2.0 kg block? What is the acceleration of the 4.0 kg block? (you will be graded on the correctness of your fbds) Put your FBDs here

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  1. [6] The 2.00 kg block in the figure is tied to the wall with a massless rope. It sits on top of the 4.00 kg block. The lower block is pulled to the right with a force of 45.0 N . The tension in the lower rope is 45.0 N ) The upper block ( 2 kg ) remains stationary throughout. The coefficient of kinetic friction at both the upper and lower surfaces of the 4.00 kg block is 0.400 ( μ K = .400 ) . What is the tension in the rope holding the 2.0 kg block? What is the acceleration of the 4.0 kg block? (you will be graded on the correctness of your f b d s ) Put your FBDs here

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