Structural Analysis (MindTap Course List)
5th Edition
ISBN: 9781133943891
Author: Aslam Kassimali
Publisher: Cengage Learning
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Question
Chapter 2, Problem 8P
To determine
Find the dead load acting on the girder AG.
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The floor system of a gymnasium consists of a 130- mm-thick concrete slab resting on four steel beams (A = 9,100 mm2) that, in turn, are supported by two steel girders (A = 25,600 mm2), as shown in Fig. P2.7. Determine the dead loads acting on beam BF and girder AD.
The floor system of a gymnasium consists of a 130- mm-thick
concrete slab resting on four steel beams (A = 9;100 mm")
that, in turn, are supported by two steel girders (A = 25;600
mm2), as shown in Fig. P2.7. Determine the dead loads acting
on beam BF and girder AD.
Steel floor beam
(A = 9,100 mm²)
Steel girder (A = 25,600 mm²)
D-Steel
T column
A
B
C
I-
130 mm
10 m
concrete
slab
F
3 at 5 m= 15 m
G
AG. P2.7, P2.10
Q2. Determine the force in each member of the double-pitch roof truss as shown in Fig.2.
State whether each member is in tension or compression.
3 m, 3 m
-4 m→-4 m--4 m-
1.75 kN
2 kN
1.5 kN
2 kN
_0.75 kN
6 m
1 kN
D
В
A
E
- 6 m.
6 m
-6 m.
Chapter 2 Solutions
Structural Analysis (MindTap Course List)
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- 2.3 The floor system of a gymnasium consists of a 130-mm-thick concrete slab resting on four steel beams (A = 9,100 mm²) that, in turn, are supported by two steel girders (A = 25,600 mm²), as shown in Fig. Determine the dead loads acting on beam BF and girder AD. Steel floor beam (A = 9,100 mm²) A 10 m E B Steel girder (A = 25,600 mm²) C I I F G 3 at 5m= 15m H Steel column 130 mm concrete slabarrow_forwardH.W 2: Determine the force in each member of the truss supporting a floor deck as shown in Fig. The deck is simply supported on floor beams which, in turn, are connected to the joints of the truss. Thus, the uniformly distributed loading on the deck is transmitted by the floor beams as concentrated loads to the top joints of the truss. Floor beam Deck 15 kN/m E 2 m H -2 m--2 m-|-2 m-2 m--2 m²-|-2 m-+-2 m--2 m-arrow_forwardThe roof system of an office building consists of a 4 in. thick reinforced concrete slab resting on four steel beams( 16.2 in. ) 5 2 A , which are supported by two steel girders ( 42.9 in. ) 5 2 A . The girders, in turn, are supported by four columns, as shown in Fig. P2.8. Determine the dead loads acting on the girder AGarrow_forward
- The floor system of a gymnasium consists of a 130-mm-thick concrete slab resting on four steel beams (A = 9100 ). That, in turn, are supported by two steel girders (A = 25,600 ), Determine the live loads acting on beam BF and girder AD. See Fig. aarrow_forwardThe roof system of an office building consists of a 4 in. thick reinforced concrete slab resting on four steel beams( 16.2 in. ) 52 A, which are supported by two steel girders ( 42.9 in.) 5 2 A . The girders, in turn, are supported by four columns, as shown in Fig. P2.8. Determine the dead loads acting on the girder AG Steel girder (A=42.9 in.²) Steel floor beam (A= 16.2 in.²) FIG. P2.8, P2.11 E 20 ft- B -Steel D column 4 in. concrete slab 3 at 9 ft = 27 ft Farrow_forwardThe roof system of an office building consists of a 100 mm-thick reinforced concrete slab resting on four steel beams (A = 10;450 mm2), which are supported by two steel girders (A = 27,700 mm2). The girders, in turn, are supported by four columns. I. Determine the dead loads acting on beam AB, beam EF, and girder AG. II. Determine the live loads acting on beam AB, beam EF, and girder AG. Show handwritten free body diagram and solutions.arrow_forward
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