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Name: Course: Mechanics of Deformable Bodies Investigation and Design of Axially Loaded Structural Members Date: Term: A. Objective 1. To be able to determine internal axial load on structural members 2. To be able to design structural members with axial internal reactions B. General Instruction 1. Write your solution legibly in separate sheets of clean bond paper. 2. Box your final answer in your solution. C. Situation A truss structure is an assembly of straight structural members that form triangular panels. The assembly of triangular panels makes the truss establish a rigid configuration. In a truss structure, connections are theoretically assumed to act as smooth pin; therefore, it does not resist any moment or bending. Due to this magnificent behavior, truss members only resist axial forces in the design phase that could either be compressive or tensile. Presented in the figure is a truss that is a component of a roof framing system to be constructed at the University Lucena City Administration Building Project. It can be observed that the structure carries a concentrated force at the upper nodes. The truss is supported by roller at A and a pin at B. The material to be used is ASTM 36 steel having an allowable tensile and compressive strength of 200 MPa 6985 6000 425 (6 EQ. SPACES) 10 kN TC 10 KN 10 kN 10 KN 560 JRP LUCENA As a designer you are to accomplish the required values stipulated in section D of this examination. From the American Steel Table, design each member listed on the table such that the section is sufficient (use angle bars). D. Result of analyses Member Internal Reaction (KN) Behavior (Tension or Compression) Area of structural Minimum area Structural required (mm2) steel section steel section (mm2) 1 2 3 4 5 6 7 8 9