The steel framework is used to support the reinforced concrete cinder, as shown in Figure 2. (Hint: see table ). The thickness of the slab is 4 inches, and the slab carries a uniform live loading of 300 lb/ft2. Sketch loading. Question 2The steel framework is used to support the reinforced concrete cinder, as shown in Figure 2.(Hint: see table ). The thickness of the slab is 4 inches, and the slab carries a uniform live loadingof 300 lb/ft. Sketch loadingbI.B1G1I-I-Figure 2B1 and G1 when a= 10 ft and b=13ft(b) B1 and G1 when a= 6 ft and b=18 ft Table. ASCE Minimum Densities for Design Loads from Materials*Ib/ft³kN/m³Aluminum17026.7Concrete, plain cinderConcrete, plain stoneConcrete, reinforced cinder10817.014422.611117.4Concrete, reinforced stone15023.663Clay, dryClay, dampSand and gravel, dry, looseSand and gravel, wetMasonry, lightweight solid concreteMasonry, normal weightPlywoodSteel, cold-drawn9.911017.310015.712018.910516.513521.2365.749277.3Wood, Douglas FirWood, Southern PineWood, spruce345.3375.8294.5*Reproduced with permission from American Society of Civil EngineersMinimum Design Loads for Buildings and Other Structures, ASCE/SEI 7-10.Copies of this standard may be purchased from ASCE at www.pubs.asce.org.

Given- Thickness of slab=4inUniform live loading=300lb/ft2=300psf

he steel framework is used to support the reinforced concrete cinder, as shown in Figure 2. (Hint: see table ). The thickness of the slab is 4 inches, and the slab carries a uniform live loading of 300 lb/ft2. Sketch loading.

he steel framework is used to support the reinforced concrete cinder, as shown in Figure 2. (Hint: see table ). The thickness of the slab is 4 inches, and the slab carries a uniform live loading of 300 lb/ft2. Sketch loading.

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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Concept explainers

Bars

In civil engineering, bars refer to steel reinforcement bars or rebars. These are structural members primarily used for reinforcement purposes in masonry works. A bar is characterized by its cross-sectional area, which is negligible compared to its length. Bars are usually manufactured by steel which is uniform throughout the length, or by meshing multiple steel wires. Other materials of the bar include carbon steel, glass fiber, carbon fiber, and basalt fiber. The reinforcing bars are coated with epoxy resins and other materials to enhance some of their properties including corrosion resistance.

Question

100%

The steel framework is used to support the reinforced concrete cinder, as shown in Figure 2. (Hint: see table ). The thickness of the slab is 4 inches, and the slab carries a uniform live loading of 300 lb/ft2. Sketch loading.

Question 2
The steel framework is used to support the reinforced concrete cinder, as shown in Figure 2.
(Hint: see table ). The thickness of the slab is 4 inches, and the slab carries a uniform live loading
of 300 lb/ft. Sketch loading
b
I.
B1
G1
I-
I-
Figure 2
B1 and G1 when a= 10 ft and b=13ft
(b) B1 and G1 when a= 6 ft and b=18 ft

Table. ASCE Minimum Densities for Design Loads from Materials*
Ib/ft³
kN/m³
Aluminum
170
26.7
Concrete, plain cinder
Concrete, plain stone
Concrete, reinforced cinder
108
17.0
144
22.6
111
17.4
Concrete, reinforced stone
150
23.6
63
Clay, dry
Clay, damp
Sand and gravel, dry, loose
Sand and gravel, wet
Masonry, lightweight solid concrete
Masonry, normal weight
Plywood
Steel, cold-drawn
9.9
110
17.3
100
15.7
120
18.9
105
16.5
135
21.2
36
5.7
492
77.3
Wood, Douglas Fir
Wood, Southern Pine
Wood, spruce
34
5.3
37
5.8
29
4.5
*Reproduced with permission from American Society of Civil Engineers
Minimum Design Loads for Buildings and Other Structures, ASCE/SEI 7-10.
Copies of this standard may be purchased from ASCE at www.pubs.asce.org.

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