A abAsk Copilot+2of 4607/02/18Question 1CCB 221-STRENGTH OF MATERIALS (2015/16 SESSION)QUIZ 1-26 FEB 2016-(GROUP C)The stepped bar ABC of Figure Q1 is subjected to two axial forces as shown. The magnitude of theforce P applied at C is not known. The bar cross-sectional areas are 12 cm² and 18 cm² for segmentsAB and BC respectively. The modulus of elasticity of the bar is 10 GPa.(a) (i) Calculate the magnitude of the force P if the displacement at end C is zero.(ii) Determine the normal stress in each segment of the bar indicating which is tensile orcompressive.[6 marks][3 marks](iii) Determine the normal stain in each segment of the bar.(b) If for some reason it is required that the normal stresses in both segments be the same, calculatethe magnitude of the force P and the normal strains in both segments of the bar.[3 marks][6 marks]55 KNB9AP12 cm²18 cm²30 cm+20 cmActivateGo to SettFigure Q112°C Partly cloudy

Negative sign indicates that the nature is compressive If you have any doubts please comment

Answered: A ab Ask Copilot + 2 of 4 60 7/02/18…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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For the beam structure shown below the data is as follows: P= 9.6-kN, L = 6-m, d= 2.4-m, b=100-mm, t-30-mm h=150-mm and h₁=130-mm. Neglect the self-weight of the beam. Based on this information answer the following question: Question 2.5: What is the maximum tensile stress in the beam? [Enter value in N and mm as appropriate] L B h
Q1: The beam shown in Figure 1 is subjected to a vertical force Pv and a horizontal force Ph. The data for Pv, Ph, a,L,and e are shown in Table 1. Determine the maximum compressive and tensile stresses under the vertical force (at a distance a from the left support.) Pv = 80k N a = G0o 6 omm e %3D 26 K N 120 mm L =3600 mm Figure 1 250 mm
A member is formed by connecting two steel bars shown below. Assuming that the bars are prevented from buckling sideways, calculate the magnitude force "P" that will cause the total length of the member to decrease 0.72 mm the values of elastic modulus for steel is 223 MPa. Take H1 = 7 cm, H2 = 10 cm, top bar (R) is 2 x 2 cm and bottom bar (Q) is 6 x 6 cm. Also, determine the stress-induced in each section of the bar. i) Magnitude Force, P = ii) Stress-induced in the top bar = iii) Stress-induced in the bottom bar =
mechanics of deformable bodies
Please show a hand written solution and the exact fbd for the solution. Thank you!
The 100X200 mm cross section of the simple support beam given in the figure was obtained by gluing four pieces of wood of 50X100 mm to each other as shown in the figure. The shear safety stress for the adhesive is 0.35 MPa and the bending safety stress for wood is 11 MPa. Calculate the maximum force P that can be applied to a beam with a span of 3 m. The load is applied at a distance of 1 m from the left support. Include the weight of the beam itself in the process and take 5.5 kN / m3 for the weight of the wood. Draw the cross section diagrams (shear force and bending moment). Show how you draw using the separation technique.
Example #2: Determine the largest weight W that can be supported by two wires shown in Fig. P- Figure P-109 109. The stress in either wire is not to exceed 30 ksi. The cross-sectional areas of wires AB and AC are 0.4 in? and 30° 50° 0.5 in?, respectively. W
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The two bars shown in the figure are used to support a load P. When unloaded, joint B has coordinates (0.0). After load P is applied. joint B moves to the coordinate position (0.35 in., -0.55 in.). Assumeo - 11 ft, b-7 ft, and h-8 ft. Determine the normal strain in each bar. Answers: CAB EBC 3676.02 i 5685.14 με με
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Problem 2 A) Draw the shear-force and bending-moment diagrams for the beam shown in the figure. B) For the composite section, aluminium [E = 70 GPa] bonded to a steel [E = 210 GPa), located at the maximum bending moment, determine: (1) the maximum bending stresses in the aluminium and steel bars. (2) the stress in the two materials at the joint where they are bonded together. 2m B 10kN/mm 4m C 2m Steel Aluminum 42 mm 20 mm 13 mun

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