Consider the cantilever steel truss depicted below. Determine the resultant moment at support points A and B due to the forces acting on the truss as shown. Assume that the 8 kips forces are acting perpendicular to the truss slope

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The image illustrates a truss system supported at a wall on the left with a horizontal and vertical span. The truss is composed of several members joined together, creating triangular shapes which provide stability. - **Vertical and Horizontal Dimensions:** - The vertical distance from point A to B is 12 feet, divided into two segments of 6 feet each. - The horizontal distance from the wall to the end of the truss is 18 feet, divided into three segments, each 6 feet long. - **Load Distribution:** - A downward force of 5 kips is applied at points below A and the midpoint of the horizontal structure. - An upward force of 8 kips is applied on the rightmost upper and lower joints of the truss. - **Truss Elements and Connections:** - The truss is secured to the wall at point B. - The truss is designed with interconnected members forming triangles. Each joint connects multiple members, enabling the distribution of loads throughout the structure. This diagram serves as a useful illustration for understanding the distribution of forces within a truss system, highlighting the principles of tension, compression, and equilibrium in structural engineering.