The frame has dimensions H₁ = 4 m , H₂ = 3 m , and L₁ = 6 m , and supports two lateral loads P₁ = 10 kN and P₂ = 12 kN . The area of column AE is 40 cm² and the area of column BF is 80 cm² .

G_y = 13.3 kN

A_x = 11.0 kN

a) What is the horizontal reaction from the ground on the base of the column at B? Let a positive reaction be pointing to the left.

B_x = ?

 

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Review What is the horizontal reaction from the ground on the base of the column at B? Let a positive reaction be pointing to the left. Express your answer with the appropriate units to three significant figures. View Available Hint(s) - Hint 1. How to approach the problem Once the elements in the first column have been analyzed, the free-body diagrams of the pieces KFL , LHDI , and IB can solved from the top down. Hint 2. Find the horizontal reaction at L Use the sum of the moments about K to find the horizontal reaction at L. Recall that Ly = 3.00 kN , H2 = 3 m , and Li = 6 m . K. 0.5L K. 0.5H, L, Express your answer with the appropriate units to three significant figures. Lr = 6.00 kN Submit Previous Answers Answer Requested Hint 3. Find the horizontal reaction at I Use the sum of the moments about H to find the horizontal reaction at I . Recall that L = 3.00 kN , Iy = 13.3 kN ,H1 = 4 m , H2 = 3 m , and L1 = 6 m . H, 0.5L H. 0.5H, I, I, Express your answer with the appropriate units to three significant figures. Ir = 11.0 kN Previous Answers

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