Your answer is partially correct. Draw the shear and moment diagrams, then answer the questions. The distance x is measured from point A to the right. Assume w = 530 lb/ft, a = 3.0 ft, b = 3.2 ft. Questions: W Atx= 1.2 ft, V= i 538.5 Atx=4.3 ft, V= i 1333.5 B lb, M= i lb, M= 487 646.2 lb-ft lb-ft

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**Current Attempt in Progress** > Your answer is partially correct. **Problem Statement:** Draw the shear and moment diagrams, then answer the questions. The distance \(x\) is measured from point \(A\) to the right. Assume \(w = 530 \, \text{lb/ft}\), \(a = 3.0 \, \text{ft}\), \(b = 3.2 \, \text{ft}\). **Diagram Description:** The diagram shows a beam labeled \(AB\) with a uniformly distributed load \(w\) of 530 lb/ft. The beam is supported at point \(A\) with a pin support and at point \(B\) with a roller support. The distance \(a\) (from \(A\) to the start of the load) is 3.0 ft, and distance \(b\) (from \(A\) to \(B\)) is 3.2 ft. **Questions:** 1. At \(x = 1.2 \, \text{ft}\), - Shear force \(V = 538.5 \, \text{lb}\) - Moment \(M = 646.2 \, \text{lb-ft}\) 2. At \(x = 4.3 \, \text{ft}\), - Shear force \(V = 1333.5 \, \text{lb}\) - Moment \(M = 487 \, \text{lb-ft}\)