Please solve problem #9.6 Analysis of Axially Loaded ColumnsFor Problems 9.5 to 9.8, compute the load-bearing capacity, OPP, of the concentrically loaded shortcolumn. f = 60,000 psify = 60,000 psi and fr = 4000 psi f = 4000 psi.Problem 9.5 A 24-in.24-in. square column reinforced with 12 #10 bars.(Ans. 1465.4 k)Problem 9.66 #915 in.bars15 in.

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Answered: Analysis of Axially Loaded Columns For…

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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a) The short steel post as shown in Figure 4 is a 152 x 152 UC37 with three compressive loads applied to the top. There is a central load of 200KN and eccentric loads of 'W kN and 100kN. The maximum allowable stress on the face AB is 185 N/mm?. (Area=D47.1cm2,Zxx=273cm) What is the value of the load 'W in kN? WkN A. 152 x 152 UC37 100mm -200KN 50mm 100KN Not to scale Figure 4
2. Calculate the moment of below sections. B F ELh Eih Ech 2h MA =S TMT A
Hi, pls. help me answer this problem. Need it asap. Thanks a lot.
Determine the maximum safe service live load that the beam can carry if the service dead load is 10kN/m including the beam weight and based on the capacity of the beam section shown. Use fc'=40MPA and fy=415MPa. top bars are 6-36mm and bottom bars are 3-36mm, center to center distance between the top bar layers is 108mm. WLL = kN/m 70 mm 108 mm 352 mm 70 mm 300 mm 7.2m 6.7m A В O O
A 300 mm φ spiral column has 8 – 20 mm φ longitudinal bar, tied with 10 mm φ bar. Find the spacing between reinforcing bars.
Please answer a to c with complete and legible solutions. Thank you
Bearing P plate Let the allowable stresses in the post be ost=120MPaand oco=6MPA. Compute the maximum safe axial load P that may be applied. The moduli of elasticity are 200 GPafor steel and 14 GPafor a concrete. Each steel bar has cross-sectional area of 900mm2. Steel - Concrete - 300 mm 300 mm
Problem 7 [RC Column Design] The short spiral column shown uses eight no. 8 bars. Assume the total loading has a low eccentricity. f.' = 3500 lbf/in², and f, = 40,000 lbf/in?. Determine the design strength. 8-No. 8 bars 22 in
AT:Design the steel reinforcement for flexural for the beam shown in the kN fig.below The dead load on the beam is 100 (not include self weight) & the live load is 200KN. useØ25mm& Use effective cover in top& bottom=60mm, use fc' = 27.6 Mpa, fy= 414Mpa. Ptive=200KN kN D.L= 100 d= 550mm 275mm 3m Зт
Steel Design Two channels having the given properties shown is placed at a distance of 300 mm to back and is properly connected by a pair of lacings as shown. Properties of one channel A = 5595 mm2 d = 305 mm x = 17mm Ix = 67.3 x 106 mm4 Iy = 2.12 x 106 mm4 rx = 19.3 mm Assume K = 1.0 Determine the safe axial load in kN, that the column section could carry. Unsupported height of column is 6m.
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