TABLE 1.2 Minimum Densities for Design Loads from Materials Aluminum Concrete, cinder Concrete, stone Clay, dry Clay, damp Sand and gravel, dry, loose Sand and gravel, wet Masonry, lightweight concrete units Masonry, normal weight units Plywood Steel, cold-drawn Wood, Douglas Fir Wood, Southern Pine Wood, spruce Occupancy or Use Assembly areas and theaters Fixed seats Movable seats Garages (passenger cars only) Office buildings 170 108 Lobbies. Offices 144 63 110 TABLE 1.4 Minimum Live Loads* Storage warehouse Light Heavy 100 120 105 135 36 492 34 37 29 *Minimum Densities for Design Loads from Materials. Reproduced with permission from American Society of Civil Engineers Minimum Design Loads for Buildings and Other Structures, ASCE/SEI 7-16. Copics of this standard may be purchased from ASCE at www.ace. org/publications. lb/ft² 60 100 40 kN/m² 27 170 22.6 9.9 173 15.7 Live Load 100 50 18.9 16.5 125 250 21.2 5.7 773 5.3 5.8 4.5 kN/m² 2.87 4.79 1.92 4.79 2.40 6.00 11.97 TABLE 1.3 Walls 4-in. (102 mm) clay brick 8-in. (203 mm) clay brick 12-in. (305 mm) clay brick Frame Partitions and Walls Minimum Design Dead Loads* lb/ft² 39 79 Exterior stud walls with brick vencer Windows, glass, frame and sash Wood studs 2 x 4 in. (51 x 102 mm). unplastered Wood studs 2 x 4 in. (51 x 102 mm), plastered one side Wood studs 2 x 4 in. (51 x 102 mm), plastered two sides Floor Fill Cinder concrete, per inch (mm) Lightweight concrete, plain, per inch (mm) Stone concrete, per inch (mm) 2-1. The steel framework is used to support the reinforced stone concrete slab that is used for an office. The slab is 200 mm thick. Sketch the loading that acts along members BE and FED. Take a =3 m, b =4 m. Hint: See Tables 1.2 and 1.4. Occupancy or Use Residential Dwellings (one- and two-family) Hotels and multifamily houses Private rooms and corridors Public rooms and corridors Schools Classrooms First-floor corridors Corridors above first floor 115 Ceilings Acoustical fiberboard Plaster on tile or concrete Suspended metal lath and gypsum plaster Asphalt shingles Fiberboard, -in. (13 mm) "Mininum Desigs Dead Leads Reproduced with permission from America Society of Civil Engineers Minimun Design Loads for Buildings and Other Structures, ASCE/SEI 7-16. American Society of Civil Engineers 40 48 8 4 12 40 100 20 10 2 0.75 40 100 80 9 8 12 lb/ft²2² 1 5 kN/m² 1.87 3.78 5.51 2.30 0.38 0.19 0.57 Live Load 0.96 0.017 0.015 0,023 0.05 0.24 0.48 0.10 0.04 kN/m² 1.92 1.92 4.79 1.92 4.79 3.83 * Minimam Live Loads. Reproduced with permission from American Society of Civil Engineers Minimum Design Loads for Buildings and Other Structures. ASCE/SEI 7-16. American Society of Civil Engineers.

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
icon
Related questions
Question
TABLE 1.2 Minimum Densities for Design
Loads from Materials
Aluminum
Concrete, cinder
Concrete, stone
Clay, dry
Clay, damp
Sand and gravel, dry, loose
Sand and gravel, wet
Masonry, lightweight concrete
units
Masonry, normal weight units
Plywood
Steel, cold-drawn
Wood, Douglas Fir
Wood, Southern Pine
Wood, spruce
Occupancy or Use
Assembly areas and theaters
Fixed seats
Movable seats
Garages (passenger cars only)
Office buildings
170
108
Lobbies
Offices
144
63
110
TABLE 1.4 Minimum Live Loads*
Storage warehouse
Light
Heavy
100
120
105
135
36
492
34
37
29
*Minimum Densities for Design Loads from Materials. Reproduced
with permission from American Society of Civil Engineers Misimam
Design Loads for Buildings and Other Structures, ASCE/SEI 7-16.
Copics of this standard may be purchased from ASCE at www.ace.
org/publications.
lb/ft²
60
100
40
kN/m²
27
170
22.6
9.9
173
15.7
Live Load
100
50
18.9
16.5
125
250
21.2
5.7
773
5.3
5.8
4.5
kN/m²
2.87
4.79
1.92
4.79
2.40
6.00
11.97
TABLE 1.3
Walls
4-in. (102 mm) clay brick
8-in. (203 mm) clay brick
12-in. (305 mm) clay brick
Frame Partitions and Walls
Minimum Design Dead Loads*
lb/ft²
39
79
Exterior stud walls with brick vencer
Windows, glass, frame and sash
Wood studs 2 x 4 in. (51 x 102 mm).
unplastered
Wood studs 2 x 4 in. (51 x 102 mm),
plastered one side
Wood studs 2 x 4 in. (51 x 102 mm),
plastered two sides
Floor Fill
Cinder concrete, per inch (mm)
Lightweight concrete, plain, per inch (mm)
Stone concrete, per inch (mm)
2-1. The steel framework is used to support the
reinforced stone concrete slab that is used for an office.
The slab is 200 mm thick. Sketch the loading that acts
along members BE and FED. Take a =3 m, b = 4 m.
Hint: See Tables 1.2 and 1.4.
Occupancy or Use
Residential
Dwellings (one- and two-family)
Hotels and multifamily houses
Private rooms and corridors
Public rooms and corridors
Schools
Classrooms
First-floor corridors
Corridors above first floor
115
Ceilings
Acoustical fiberboard
Plaster on tile or concrete
Suspended metal lath and gypsum plaster
Asphalt shingles
Fiberboard, -in. (13 mm)
"Mininum Desigs Dead Leads Reproduced with permission from America
Society of Civil Engineers Minimun Design Loads for Buildings and Other
Structures, ASCE/SEI 7-16 American Society of Civil Engineers
40
48
8
4
12
40
100
20
10
2
0.75
40
100
80
9
8
12
lb/f²2²
1
5
kN/m²
1.87
3.78
5.51
2.30
0.38
0.19
0.57
Live Load
0.96
0.017
0.015
0,023
0.05
0.24
0.48
0.10
0.04
kN/m²
1.92
1.92
4.79
1.92
4.79
3.83
*Minimum Live Loads. Reproduced with permission from American Society of Civil Engineers Minimum Design Loads for Buildings and Other Structures.
ASCE/SEI 7-16, American Society of Civil Engineers.
Transcribed Image Text:TABLE 1.2 Minimum Densities for Design Loads from Materials Aluminum Concrete, cinder Concrete, stone Clay, dry Clay, damp Sand and gravel, dry, loose Sand and gravel, wet Masonry, lightweight concrete units Masonry, normal weight units Plywood Steel, cold-drawn Wood, Douglas Fir Wood, Southern Pine Wood, spruce Occupancy or Use Assembly areas and theaters Fixed seats Movable seats Garages (passenger cars only) Office buildings 170 108 Lobbies Offices 144 63 110 TABLE 1.4 Minimum Live Loads* Storage warehouse Light Heavy 100 120 105 135 36 492 34 37 29 *Minimum Densities for Design Loads from Materials. Reproduced with permission from American Society of Civil Engineers Misimam Design Loads for Buildings and Other Structures, ASCE/SEI 7-16. Copics of this standard may be purchased from ASCE at www.ace. org/publications. lb/ft² 60 100 40 kN/m² 27 170 22.6 9.9 173 15.7 Live Load 100 50 18.9 16.5 125 250 21.2 5.7 773 5.3 5.8 4.5 kN/m² 2.87 4.79 1.92 4.79 2.40 6.00 11.97 TABLE 1.3 Walls 4-in. (102 mm) clay brick 8-in. (203 mm) clay brick 12-in. (305 mm) clay brick Frame Partitions and Walls Minimum Design Dead Loads* lb/ft² 39 79 Exterior stud walls with brick vencer Windows, glass, frame and sash Wood studs 2 x 4 in. (51 x 102 mm). unplastered Wood studs 2 x 4 in. (51 x 102 mm), plastered one side Wood studs 2 x 4 in. (51 x 102 mm), plastered two sides Floor Fill Cinder concrete, per inch (mm) Lightweight concrete, plain, per inch (mm) Stone concrete, per inch (mm) 2-1. The steel framework is used to support the reinforced stone concrete slab that is used for an office. The slab is 200 mm thick. Sketch the loading that acts along members BE and FED. Take a =3 m, b = 4 m. Hint: See Tables 1.2 and 1.4. Occupancy or Use Residential Dwellings (one- and two-family) Hotels and multifamily houses Private rooms and corridors Public rooms and corridors Schools Classrooms First-floor corridors Corridors above first floor 115 Ceilings Acoustical fiberboard Plaster on tile or concrete Suspended metal lath and gypsum plaster Asphalt shingles Fiberboard, -in. (13 mm) "Mininum Desigs Dead Leads Reproduced with permission from America Society of Civil Engineers Minimun Design Loads for Buildings and Other Structures, ASCE/SEI 7-16 American Society of Civil Engineers 40 48 8 4 12 40 100 20 10 2 0.75 40 100 80 9 8 12 lb/f²2² 1 5 kN/m² 1.87 3.78 5.51 2.30 0.38 0.19 0.57 Live Load 0.96 0.017 0.015 0,023 0.05 0.24 0.48 0.10 0.04 kN/m² 1.92 1.92 4.79 1.92 4.79 3.83 *Minimum Live Loads. Reproduced with permission from American Society of Civil Engineers Minimum Design Loads for Buildings and Other Structures. ASCE/SEI 7-16, American Society of Civil Engineers.
Expert Solution
steps

Step by step

Solved in 4 steps with 4 images

Blurred answer
Knowledge Booster
Millwork and cabinet technology
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, civil-engineering and related others by exploring similar questions and additional content below.
Similar questions
  • SEE MORE QUESTIONS
Recommended textbooks for you
Structural Analysis
Structural Analysis
Civil Engineering
ISBN:
9781337630931
Author:
KASSIMALI, Aslam.
Publisher:
Cengage,
Structural Analysis (10th Edition)
Structural Analysis (10th Edition)
Civil Engineering
ISBN:
9780134610672
Author:
Russell C. Hibbeler
Publisher:
PEARSON
Principles of Foundation Engineering (MindTap Cou…
Principles of Foundation Engineering (MindTap Cou…
Civil Engineering
ISBN:
9781337705028
Author:
Braja M. Das, Nagaratnam Sivakugan
Publisher:
Cengage Learning
Fundamentals of Structural Analysis
Fundamentals of Structural Analysis
Civil Engineering
ISBN:
9780073398006
Author:
Kenneth M. Leet Emeritus, Chia-Ming Uang, Joel Lanning
Publisher:
McGraw-Hill Education
Sustainable Energy
Sustainable Energy
Civil Engineering
ISBN:
9781337551663
Author:
DUNLAP, Richard A.
Publisher:
Cengage,
Traffic and Highway Engineering
Traffic and Highway Engineering
Civil Engineering
ISBN:
9781305156241
Author:
Garber, Nicholas J.
Publisher:
Cengage Learning