II Re The Howe truss is subjected to the loading shown in (Figure 1). Suppose that F = 4.5 kN Part A Determine the force in member GF and state if the member is in tension or compression. Express your answer to three significant figures and include the appropriate units. Enter negative valu the case of compression and positive value in the case of tension. HẢ FGF = Value Units ubmit Request Answer Submit Figure Part B <) 1 of 1 Determine the force in member CD and state if the member is in tension or compression. Express your answer to three significant figures and include the appropriate units. Enter negative value in the case of compression and positive value in the case of tension. 3 m H 2 kN 2 kN Fcp = Value Units IC ID Submit Request Answer -2 m- -2 m- -2 m- -2 m-

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### Part B Determine the force in member CD and state if the member is in tension or compression. **Instructions:** Express your answer to three significant figures and include the appropriate units. Enter a negative value in the case of compression and a positive value in the case of tension. **Input Fields:** - \( F_{CD} = \) - **Value**: [Input box] - **Units**: [Input box] **Buttons:** - **Submit** - **Request Answer** ### Part C Determine the force in member GC and state if the member is in tension or compression. **Instructions:** Express your answer to three significant figures and include the appropriate units. Enter a negative value in the case of compression and a positive value in the case of tension. **Input Fields:** - \( F_{GC} = \) - **Value**: [Input box] - **Units**: [Input box] **Buttons:** - **Submit** - **Request Answer**

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**Title: Analysis of Forces in a Howe Truss** **Description:** The Howe truss depicted in Figure 1 is being analyzed under the influence of a specified loading condition. The applied force, \( F \), is given as 4.5 kN. ### Figure Analysis: - **Figure 1:** Illustrates the structure of the Howe truss. The truss is subjected to vertical forces at points across its span. The spans and sections are marked for clarity: - Point \( A \) to \( E \) is supported at the ends. - Vertical load components are applied, including two 2 kN forces located at both edges and a central force \( F \). #### Measurements: - Vertical heights and section spans: - From point \( H \) at the base to point \( G \) at the top, a vertical distance of 3 meters. - Horizontal sections are marked with a span of 2 meters each between successive joints: \( AB \), \( BC \), \( CD \), and \( DE \). ### Problem Statement: **Part A:** - Calculate the force in member \( GF \). - Determine whether the member is under tension or compression. - **Instructions:** Provide the answer rounded to three significant figures and specify the units. Use negative values for compression and positive values for tension. \[ F_{GF} = \boxed{\text{Value}} \quad \boxed{\text{Units}} \] - **Submit your answer** using the provided interface to verify the solution. **Part B:** - Evaluate the force in member \( CD \). - Ascertain if the member is experiencing tension or compression. - **Instructions:** Similar to Part A, respond with precision up to three significant figures, indicating the correct units. Negative implies compression, while positive indicates tension. \[ F_{CD} = \boxed{\text{Value}} \quad \boxed{\text{Units}} \] - **Submit your answer** for assessment or request additional help if needed. --- This exercise aims to deepen the understanding of structural analysis in trusses, focusing on the determination of forces within specific members and the nature of their effects.