The system consists of 50-lb and 15-lb blocks A and B, respectively, and 5-lb pulleys C and D that can be treated as thin disks. Assume that the cord does not slip on the pulleys, and neglect the mass of the cord. (Figure 1) Part A Determine the speed of block A after block B has risen 5 ft, starting from rest. Express your answer to three significant figures and include the appropriate units. μÀ Valua Inits ?

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**Pulley System Problem Description** The system consists of two blocks, A and B, weighing 50 lbs and 15 lbs, respectively, along with pulleys C and D, each weighing 5 lbs. These pulleys can be treated as thin disks. Assume that the cord does not slip on the pulleys, and neglect the mass of the cord. **Problem Statement** *Part A*: Determine the speed of block A after block B has risen 5 ft, starting from rest. Express your answer to three significant figures and include the appropriate units. **Diagram Explanation** The figure shows a pulley system with: - Block A (50 lbs) hanging vertically, connected to a cord that passes over Pulley C (5 lbs, located 0.5 ft above Block A). - Pulley D (5 lbs) is located beneath Pulley C and directly above Block B (15 lbs), with the cord wrapped around it. - Block B (15 lbs) hangs vertically below Pulley D. In this system, the pulleys are assumed to be of negligible width, and the cord is inextensible. **User Interface for Submission:** - There is a text box for entering the calculated speed \( v_A \). - The answer must be entered with three significant figures and the correct units. - A "Submit" button allows submission of the answer. - A "Request Answer" option is available. - Users can provide feedback on the question.