The slider is released from rest in position A and slides without friction in the vertical plane. If there is 15 lb orce acting on it for 10 ft, determine its velocity as passes through B and the Maximum spring deflection. Previous Next 3 lb 10 15 30° www wwwww D-125 lbin 305

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The text above the diagram reads: "The slider is released from rest in position A and slides without friction in the vertical plane. If there is 15 lb force acting on it for 10 ft, determine its velocity as it passes through B and the Maximum spring deflection." Below the text, there is a diagram with the following details: - A straight path from position A to B is depicted. - At position A, there is a force labeled "15 lb" acting downward. - The path curves downwards to position B, which is shown as 10 feet vertically below position A. - After B, the path curves upward leading to point E. - A spring is located at point E, with a stiffness labeled as "k = 125 lb/in". - The spring is compressed horizontally from point E. - Angles along the path are marked as "20°" near point B. The task is to determine the velocity as the slider passes through point B and to calculate the maximum deflection of the spring.