Q1:Consider the space truss represented schematically in Figure 1. It has21 struts and a fixed support at "A". At joint "G", it is applied a forcevector with a component of -10 N, along the x-axis direction, and acomponent of 40 N, along the y-axis direction, as shown in Figure 1.Using the method of joints, calculate the forces for the strutsconverging at joint "E", i.e. the forces for struts "EA", "EB", "EF", "EG","ED" and "EH" and specify if the struts are in tension or in compression.(Your submission must include the Free Body Diagram (FBD) and theapplication of the equilibrium equations for the corresponding FBD).[50%]3 mENAНаKOD4mFLFigure 110 NBG40 N0y3 m

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Answered: Q1: Consider the space truss…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter5: Beams And Frames: Shear And Bending Moment

Section: Chapter Questions

Problem 53P: For the beam shown: (a) determine the distance a for which the maximum positive and negative bending...

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Refer to Figure P6.4. A strip load of q = 900 lb/ft2 is applied over a width B = 36 ft. Determine the increase in vertical stress at point A located z = 15 ft below the surface. Given: x = 27 ft. Figure P6.4
A beam is part of the framing system for the floor of an office building. The floor is subjected to both dead loads and live loads. The maximum moment caused by the service dead load is 45 ft-kips, and the maximum moment for the service live load is 63 ft-kips (these moments occur at the same location on the beam and can therefore be combined). a. If load and resistance factor design is used, determine the maximum factored bending moment (required moment strength). What is the controlling AISC load combination? b. What is the required nominal moment strength for a resistance factor of 0.90? c. If allowable strength design is used, determine the required moment strength. What is the controlling AISC lead combination? d. What is the required nominal moment strength for a safety factor of 1.67?
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The data in Table 1.5.3 were obtained from a tensile test of a metal specimen with a rectangular cross section of 0.2011in.2 in area and a gage length (the length over which the elongation is measured) of 2.000 inches. The specimen was not loaded to failure. a. Generate a table of stress and strain values. b. Plot these values and draw a best-fit line to obtain a stress-strain curve. c. Determine the modulus of elasticity from the slope of the linear portion of the curve. d. Estimate the value of the proportional limit. e. Use the 0.2 offset method to determine the yield stress.

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