

Steel Tables are used for design.
(II) A 7.Om long simply supported beam is to carry a load system as shown below....
A beam, 3 m long, is simply supported at its ends and is to carry a point load of 30 kN at mid-span. If the beam is rectangular in section, with its depth equal to twice its width, determine suitable dimensions to limit the maximum bending stress at mid-span to 80 MN/m2.
2. Given a simply supported beam shown in figure below with the cross section at maximum moment. The beam supports a uniform service dead load of WDL =30 kN/m (excluding own weight of beam), Pll = 270 kN. Use fc' = 30 MPa; fy = 400 MPa. Calculate design strength OMn for the cross section shown in the figure. Check the strains in the steel esi. LL , 75-40-100 -775 90 90 WOL 710 650 5030 -15000 mm
Q2 The 10 m long simply supported beam is subjected to a uniformly distributed load w = 10 kN/m throughout and a point load P =10 kN at the midspan of the beam, as shown in Figure Q2 (a). The cross section of this beam is depicted in Figure Q2 (b), which consists of three equal rectangular steel members. Self-weight of the beam is neglected. 30 mm P= 10 KN W = 10 kN/m 200 mm 5 m 5 m...
Q2 The 10 m long simply supported beam is subjected to a uniformly distributed load w = 10 kN/m throughout and a point load P =10 kN at the midspan of the beam, as shown in Figure Q2 (a). The cross section of this beam is depicted in Figure Q2 (b), which consists of three equal rectangular steel members. Self-weight of the beam is neglected. 30 mm P = 10 kN W = 10 kN/m 200 mm 5 m 5...
Q2 The 10 m long simply supported beam is subjected to a uniformly distributed load w = 10 kN/m throughout and a point load P =10 kN at the midspan of the beam, as shown in Figure Q2 (a). The cross section of this beam is depicted in Figure Q2 (b), which consists of three equal rectangular steel members. Self-weight of the beam is neglected. 30 mm P = 10 kN w = 10 kN/m 200 mm 5 m 5...
A T-beam with a simply supported span of 6m is subjected to a concentrated live load as shown in Figure: the cross-sectional details are given in Figure. Design the beam for shear assuming f-40 MPa, fsy,f 500 MPa 700 kN 1000 100 800 828 8N28 70 300 do Consider unit weight of concrete- 25 kN/m3
A T-beam with a simply supported span of 6m is subjected to a concentrated live load as shown in Figure: the cross-sectional details are given...
Strength of materials I (CIV213) 1. For the simply supported beam and load shown below A. Draw shear and bending moment diagram B. Determine the absolute maximum bending stress. (10pts) I P2 = 16 kN P,= 12 kN 6 cm D 4 m BL 1.5 m. 5 m.° 3.5m 100mm -9 m
7.26
Torking stress in either tension or compression is AMS. 92.8 mm x 185.6 mm o MPa. am 3 m long is simply supported at each end and carries a uniformly distributed load of 10 kN/m. The beam at rectangular cross section, 75 mm x 150 mm. Determine the magnitude and location of the peak bending ress. Also, find the magnitude of the bending stress at a point 25 mm below the upper surface at the section midway betwcen supports....
Question 29 For the following simply supported beam AB, the beam is loaded with a concentrated load and a segment of uniform load as shown below 40 KN 20 kN/m 0.5m 2 m The reaction at support B is: 25 kN 35 kN 30 kN All the choices are incorrect
5. Determine the mid-span short-term deflection of a simply supported beam with the section shown in Figure Q5. Design data: Concrete strength: fcu 30 MPa. Area of tensile steel reinforcement: As 1500 mm Area of compressive steel reinforcement: A,-1500 mm2 Instantaneous static modulus of elasticity of concrete = 25GPa. Span -8.0 m Loading: Dead load 5.0 kN/m (uniformly distributed load); Live load 5.0 kN/m (uniformly distributed load) (Hint: the height of neutral axis of the mid-span section under the service...