As shown, a load of magnitude P is applied to a structure. Assuming that all members are weightless and that ABEF and BCD are rigid bodies, find the magnitudes of the reactions at D and G needed to maintain the structure in equilibrium. b. B F Assume the following values: a = 4.50 m , b = 3.00 m, and P = 110 N Express your answers numerically in newtons to three significant figures separated by a comma. > View Available Hint(s) It vec ? Fp. Fc = N

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### Problem Statement: As shown, a load of magnitude \( P \) is applied to a structure. Assuming that all members are weightless and that \( ABEF \) and \( BCD \) are rigid bodies, find the magnitudes of the reactions at \( D \) and \( G \) needed to maintain the structure in equilibrium. ### Diagram: The diagram illustrates a two-dimensional structure with several distinct components and points, labeled \( A, B, C, D, E, F, \) and \( G \). The structure includes horizontal and vertical members as well as a curved segment. Dimensions relevant to the problem are provided in the diagram: - Vertical distance from \( A \) to \( C \) is \( a \). - Horizontal distance from \( A \) to \( B \), \( B \) to \( E \), and \( E \) to \( G \) are each noted as \( b \). - Curved segment connects \( F \) and \( G \). ### Given Values: - \( a = 4.50 \, \text{m} \) - \( b = 3.00 \, \text{m} \) - \( P = 110 \, \text{N} \) ### Objective: Determine the magnitudes of the reactions at points \( D \) and \( G \). ### Instructions: Express your answers numerically in newtons to three significant figures separated by a comma. - Enter your responses in the input fields provided. ### Interactive Elements: - An input field is provided for entering the values of \( F_D \) and \( F_G \) in newtons. #### Example Entry: - \( F_D, F_G = \) [Insert numerical values in Newtons] For additional help or hints, refer to the "View Available Hint(s)" section.