1. Check the compactness of W36x529, W21x48 and W14x99.2. Verify the available flexural strength of W18×50 shape for the beam shown below. Theunfactored loads are a uniform dead load of 0.45 kip/ft and a uniform live load of 0.75kip/ft. Use the LRFD load combinations to find the required flexural strength.Wo 0.45 kip/ftw₁ = 0.75 kip/ft35'-0"Beam Loading & Bracing Diagram(full lateral support)

The first part of the question is asking to check the compactness of the given steel sections.…

Answered: 1. Check the compactness of W36x529,…

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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Dont round off in solution, only round off in final answer in 2 decimal places. Answer asap
For the beam and loading shown, check if the maximum bending stress is less than the allowable bending stress using the ASD approach. The self-weight of the beam is denoted "waw", and the steel beam is a "W10x26". Assume the beam has an allowable stress due to bending of 21 ksi. See the next page for section properties of the steel beam. Assume the steel cross-section is being bent about its "strong axis" - i.e. the "x-axis". PL = 5.0 kip Wsw B 10 ft
A rectangular reinforced concrete beam has a width of 267 mm and an effective depth of 510 mm. Determine the maximum possible design strength (in kN-m) of the beam for a singly reinforced condition. Use f'c - 28.43 MPa and fy - 414 MPa. NOTE: USE STORED VALUES IN YOUR CALCULATION
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For a composite section attached, derive the equation for Y-bar assuming that the PNA is located in the flange of the steel beam. Hint: Balance the resultant forces through the section. Recall that Y-bar is the distance from the top of the steel flange to the PNA for any location with the PNA below the top of the steel flange.
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Asiacell lln. H.W. No.1 For the simply supported solid one way reinforced concrete slab shown in the figure below having a span of (L= 4m), check the following requirements using strength method: a- Slab thickness b- The spacing between reinforcement for main and shrinkage reinforcement c- The actual reinforcement with minimum reinforcement d- Calculate ultimate resisted moment that can be withstand by the slab e- Determine the ultimate uniformly distributed load carried by slab. f = 25 N/mm2 fy=420 N/mm² + 10mm@s00mm shrinkage h=200mm -L=4m- $12mm@200mm main
Using Table 10.2, select a column shape for an axial deadload of 400 kips and a live load of 600 kips. The unbraced height about thex axis is 16 ft and about the y axis is 4 ft. The steel is to have a yield stress of50 ksi and K is assumed as 1.0.
AWT305 x 41 standard steel shape is used to support the loads shown. Assume w= 58 kN/m, LAB = 1.8 m, LBc=3.6 m, and Lco = 1.8 m. Consider the entire 7.2 m length of the beam and determine: (a) the maximurm tensile bending stress at any location along the beam (enter a positive answer), and (b) the maximum compressive bending stress at any location along the beam (enter a negative answer). y LAB LBC LCD WT305 x 41 Answer: (a) Omax,T МPа (b) omax,C= МРа

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