Evaluate the force in member CF and mention if it is in compression or tension A 3 m B 3 m 45° 23 m 3 m F 3 m G 3 m 6 Mg H Mg-megagram = 1000 kg. nter your answer in KN with format xxxC if its compression or xxxT if its tension.

Please explain in clear detail and explain where you got your numbers from.

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### Engineering Mechanics: Analyzing Forces in Trusses The diagram above illustrates a truss system with various members connecting at nodes A, B, C, D, E, F, G, and H. The system is designed to support a 6 megagram (Mg) load suspended from node E. The truss comprises multiple members, each with a length of 3 meters, except for member AB, which is inclined at a 45-degree angle from the horizontal plane. #### Key Features: 1. **Members and Nodes:** - Truss members are labeled between nodes such as CF, FG, DE, etc. - Nodes are identified by letters indicating connection points for members. 2. **Load Details:** - A load of 6 Mg is applied at node E. - For engineering calculations, 1 megagram (Mg) equals 1000 kilograms. 3. **Pulley System:** - The load is supported by a pulley system indicated by circles at nodes D and E. 4. **Geometry:** - Horizontal and vertical members are uniform in length (3 meters). 5. **Objective:** - Evaluate the force in member CF and determine if it is in compression or tension. - Express the answer in kilonewtons (kN) using the format (xx.xC for compression or xx.xT for tension). This truss examination is crucial for understanding the distribution of forces in static structures and determining the internal forces exerted on the structural members. Analyzing such systems helps ensure stability and safety in engineering structures.