etermine the internal normal force at point C. Take F1 = 546 Ib , F2 = 206 Ib , F3 = 341 lb C= etermine the shear force at point C. C- etermine the moment at point C etermine the internal normal force at point D. D= etermine the shear force at point D. D- etermine the moment at point D.

Determine the forces at point C and Point D

Take F1 = 546 lb , F2 = 206 lb , F3 = 341 lb

 

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The image illustrates a beam supported at point A and extending to point E. The beam is subjected to three downward forces: 1. **Force \( F_1 \)** is applied at point C, located 6 feet from the support at A. 2. **Force \( F_2 \)** is applied at point B, where a block is visible, positioned 4 feet to the right of point C. 3. **Force \( F_3 \)** is applied at point D, 4 feet from point B, and 6 feet from the block support. The entire length from point A to point E measures 22 feet, with the concluding section from point D to point E being 2 feet. This setup can be used to analyze the distribution of forces and moments on a beam for structural analysis purposes.

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Determine the internal normal force at point C. Take F1 = 546 lb, F2 = 206 lb, F3 = 341 lb. NC = _______ Determine the shear force at point C. VC = _______ Determine the moment at point C. MC = _______ Determine the internal normal force at point D. ND = _______ Determine the shear force at point D. VD = _______ Determine the moment at point D. MD = _______