Structural Analysis
6th Edition
ISBN: 9781337630931
Author: KASSIMALI, Aslam.
Publisher: Cengage,
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Transcribed Image Text:Q- What will be the centre of buoyancy of a block floating
horizontally in water. The dimension of block are 5 × 2 × 1 m
and the specific gravity of block is 0.65
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- Analyze the following figure if: h=3 ft, d=6 ft 600 Ib 600 lb 600 lb 200 lb 200 lb h 1. What is the value of force in member BD. 2. What is the value of force in member BE.arrow_forwardA rectangular block is 137 mm long in the X direction, 93 mm wide in the Y direction, and 56 mm thick in the Z direction. The block is subjected to a triaxial loading of three uniformly distributed forces as follows: 200 kN tension in the X direction, 186 kN tension in the Y direction, and 228 kN compression in the Z direction. If v = 0.3 and E = 200 GPa, %3D determine the single uniformly distributed load in the X direction that would produce the same deformation in the Z direction as the original loading. Answer must be in kN.arrow_forwardThere are 3 forces that are kept in equilibrium shown in Figure. The two forces acting has 100-lb force and 200-lb force with an angle of 35 degrees. determine the value of the third force F3arrow_forward
- A BLOCK IS RESTING ON THE INCLINED SURFACE AS SHOWN WHOSE AXES ARE ORIENTED PARALLEL AND PERPENDICULAR TO THE INCLINED SURFACE. DETERMINE THE RESULTANT FORCE ACTING ALONG THE INCLINED SURFACE. DETERMINE THE TOTAL RESULTANT FORCE ACTING ON THE BODY. DETERMINE THE DIRECTION OF THE RESULTANT WITH RESPECT TO X-AXIS. P = 1,200 lb F = 400 lb 8 = 37⁰arrow_forward1. For the simply supported beam, compute the value of Elô at midspan and at the rightend of the beam 100 lb/ft 240 lb + 4 ft 4 ft→ 2 ftearrow_forwardI need a quick solution within 15 minutes With my best wishesTon.arrow_forward
- As shown, three steel wires, each 25 mm2 in area, are used to lift a mass M. Their unstretched lengths are 19.99 m, 19.98 m, and 20 m. If M= 1,034 kg. what stress exists in the MIDDLE (the second longest) wire? Use E=215 Gpa. Answer must be in MPa. Marrow_forward4.4arrow_forwardPlease solve it fast.arrow_forward
- The correct ans is option A. Give me the proper explanation. Thank youarrow_forwardDo not make any mistakes. Include diagram in your solutionarrow_forwardA steel tube is 5 millimeters thick and has an outside diameter of 60 millimeters. It is being used as a compression member. If the axial normal stress in the member is only limited to 200 megapascals, determine the maximum load P in kN that the member can support. Note: Draw the Free Body Diagram, include the units/dimensions, use the proper formula and round-off all the answers and the final answers to 3 decimal places.arrow_forward
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