1.8 m B A O . m. D 0.8 m K The axial force Fis The shear force Vis The bending moment Mis 0.8 m E 0.8 m N (Click to select) ✓ N| (Click to select) -0.2 m Knowing that the radius of each pulley is 200 mm, P= 430 N, and neglecting friction, determine the internal forces at point J of the frame shown. P N-m in the (Click to select)

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### Educational Content #### Problem Description Consider the given figure: A frame is shown with several points and dimensions. The frame consists of three segments: AB, BC, and CE. Segment AB is attached to a wall, and segment CE supports a pulley at point E with a weight, P, hanging vertically downward. - **Dimensions:** - Vertical height of segment AB: 1.8 m - Length of segment BC: 1.0 m - Horizontal distances: AD = 0.8 m, DK = 0.8 m, KE = 0.8 m - Vertical height from segment E to weight P: 0.2 m - **Pulley System:** - The radius of each pulley is 200 mm. #### Problem Statement Knowing that the radius of each pulley is 200 mm, and with P = 430 N, and neglecting friction, determine the internal forces at point J of the frame shown. #### Variables to Determine - **Axial Force \( F \):** - Determine the magnitude and direction (as compression or tension). - **Shear Force \( V \):** - Determine its magnitude and direction (as upward or downward). - **Bending Moment \( M \):** - Calculate the moment in Nm and specify the direction (clockwise or counterclockwise). ### Inputs for Solution - The axial force \( F \) is (value) N (compressive/tensile). - The shear force \( V \) is (value) N (upward/downward). - The bending moment \( M \) is (value) N·m in the (clockwise/counterclockwise) direction. Fill in the required fields to compute the respective forces and moments based on the structural analysis principles.