*6-20. The compound beam is subjected to a uniform dead load of 200 lb/ft and a single live load of 2 k. Determine (a) the maximum negative moment created by these loads at C, and (b) the maximum negative shear at B. a fixed support, B is a pin, and A is a roller. Assume C is

6-20

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**Problem 6-20: Analysis of a Compound Beam** The compound beam illustrated is subjected to a uniform dead load of 200 lb/ft and a single live load of 2 kips (2,000 lb). The task is to determine: (a) The maximum negative moment created by these loads at point C. (b) The maximum negative shear at point B. **Constraints & Assumptions:** - Point C is a fixed support. - Point B is a pin. - Point A is a roller. **Diagram Details:** - The beam is shown with three segments: A to B, B to C, and beyond point C where it is fixed. - The distance from the load at point A to the nearest support at point B is 18 feet. - The distance from point B to support C is 9 feet. - The load at point A is visually represented by stacked blocks. This setup requires calculations using structural analysis concepts, such as shear and moment diagrams, to determine the specified maximum negative values under the given loading conditions.