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2. Calculate the instantaneous deflections: 6pt, due to the dead and live loads together, and o, due to the live load only. Use fy 60,000 psi, f in the WD value. 4000 psi, and n 8. Beam weight is...
show all steps please. Calculate the instantaneous deflection due to the dead and live loads shown....
show all steps please.
Calculate the instantaneous deflection due to the dead and live loads shown. Use y -60, 000 psi, f 4000 psi, and n 8. Beam weight is included in the wp value. PL 25 k 6#8 101" 37' 10 26"
Design a square tied column to carry axial service loads of 320 kips dead load and 190 kips live load. There is no identified applied moment. Assume that the column is short. Use f’c =4000 psi and fy...
Design a square tied column to carry axial service loads of 320
kips dead load and 190 kips live load. There is no identified
applied moment. Assume that the column is short. Use f’c =4000 psi
and fy = 60,000 psi. Also, draw the flexural and shear
reinforcement on a sketch.
Case 3: Design of Short Columns - Small Eccentricity Design a square tied column to carry axial service loads of 320 kips dead load and 190 kips live load....
Problem 4 Load and Load Combinations (50pts) With fy 60,000 psi and fc' 4000 psi, select...
Problem 4 Load and Load Combinations (50pts) With fy 60,000 psi and fc' 4000 psi, select the tensile reinforcing for the edge L beam AB for the floor system shown in Figure 4.1. The cross section of the floor system is shown in Figure 4.2. Note that LI = 6ft and L2 = 12ft. Assume simple supports at sides A and B. The live load is to be 80 psf, while the dead load in addition to the concrete's weight...
For the simply supported beam shown, the span is 40 ft, dead load including own weight...
For the simply supported beam shown, the span is 40 ft, dead load including own weight is 5 k/ft and live load is 4 k/ft. Assume fy-60,000 psi and fc 4000 psi, find: Size of the longitudinal reinforcement at the critical section (5 points) Spacing of U stirrups # 4 at the critical section (support width is 12 in.) (5 points) a. b. 48" 26.5" As 16
Based on tributary load analysis, the dead and live loads, wd and wų, respectively, acting on...
Based on tributary load analysis, the dead and live loads, wd and wų, respectively, acting on a beam in a vertical load resisting system are shown below. The concrete is normalweight with compressive strength f=5000 psi. Note that the given dead load includes the self-weight of the beam and slab. Section wp=1.2 kip/ft, wu=1.5 kip/ft be-45 inch 5 inch 1 30 inch B A 10 inch In=10 ft 1. Design and detail the beam for positive flexure at section A....
1. For the cross section and loading shown below. [50 points] 10" fc-5500 psi 60,000 psi...
1. For the cross section and loading shown below. [50 points] 10" fc-5500 psi 60,000 psi Concrete unit weight 150 pcf 18.5, P,-15 kips w 1,500 lb/ft 32" 25" 37 (12) #8 15" a. Calculate the gross moment of inertia, Ig, and the location of the centroid, ybar (from the bottom) Neglect the steel when calculating Ig. [10 points] b. What is the cracking moment, Mcr? [5 points] c. Calculate the cracked transformed moment of inertia, Icr. [10 points] d....
Please answer question 1 thank you Reinforced Concrete HW 18%20(2).pdf CEE433- Homework Assignment 9 Assigned: 12...
Please answer question 1 thank you
Reinforced Concrete HW
18%20(2).pdf CEE433- Homework Assignment 9 Assigned: 12 April 2018 Due: 19 April 2018 1. Design the shear reinforcement (vertical stirrups) for the beam shown in the figure. Design stirrups based on the shear envelope using the approximate procedure discussed in class. Note that for the overhangs the maximum shear at the support is induced by placing dead and live loads throughout the cantilever portion. Satisfy all strength and spacing requirements specified...
Please answer question 1 thank you Reinforced Concrete HW 18%20(2).pdf CEE433- Homework Assignment 9 Assigned: 12...
Please answer question 1 thank you
Reinforced Concrete HW
18%20(2).pdf CEE433- Homework Assignment 9 Assigned: 12 April 2018 Due: 19 April 2018 1. Design the shear reinforcement (vertical stirrups) for the beam shown in the figure. Design stirrups based on the shear envelope using the approximate procedure discussed in class. Note that for the overhangs the maximum shear at the support is induced by placing dead and live loads throughout the cantilever portion. Satisfy all strength and spacing requirements specified...
show all steps please.
Calculate the instantaneous deflection due to the dead and live loads shown. Use y -60, 000 psi, f 4000 psi, and n 8. Beam weight is included in the wp value. PL 25 k 6#8 101" 37' 10 26"
Design a square tied column to carry axial service loads of 320
kips dead load and 190 kips live load. There is no identified
applied moment. Assume that the column is short. Use f’c =4000 psi
and fy = 60,000 psi. Also, draw the flexural and shear
reinforcement on a sketch.
Case 3: Design of Short Columns - Small Eccentricity Design a square tied column to carry axial service loads of 320 kips dead load and 190 kips live load....
Problem 4 Load and Load Combinations (50pts) With fy 60,000 psi and fc' 4000 psi, select the tensile reinforcing for the edge L beam AB for the floor system shown in Figure 4.1. The cross section of the floor system is shown in Figure 4.2. Note that LI = 6ft and L2 = 12ft. Assume simple supports at sides A and B. The live load is to be 80 psf, while the dead load in addition to the concrete's weight...
For the simply supported beam shown, the span is 40 ft, dead load including own weight is 5 k/ft and live load is 4 k/ft. Assume fy-60,000 psi and fc 4000 psi, find: Size of the longitudinal reinforcement at the critical section (5 points) Spacing of U stirrups # 4 at the critical section (support width is 12 in.) (5 points) a. b. 48" 26.5" As 16
Based on tributary load analysis, the dead and live loads, wd and wų, respectively, acting on a beam in a vertical load resisting system are shown below. The concrete is normalweight with compressive strength f=5000 psi. Note that the given dead load includes the self-weight of the beam and slab. Section wp=1.2 kip/ft, wu=1.5 kip/ft be-45 inch 5 inch 1 30 inch B A 10 inch In=10 ft 1. Design and detail the beam for positive flexure at section A....
1. For the cross section and loading shown below. [50 points] 10" fc-5500 psi 60,000 psi Concrete unit weight 150 pcf 18.5, P,-15 kips w 1,500 lb/ft 32" 25" 37 (12) #8 15" a. Calculate the gross moment of inertia, Ig, and the location of the centroid, ybar (from the bottom) Neglect the steel when calculating Ig. [10 points] b. What is the cracking moment, Mcr? [5 points] c. Calculate the cracked transformed moment of inertia, Icr. [10 points] d....
Please answer question 1 thank you
Reinforced Concrete HW
18%20(2).pdf CEE433- Homework Assignment 9 Assigned: 12 April 2018 Due: 19 April 2018 1. Design the shear reinforcement (vertical stirrups) for the beam shown in the figure. Design stirrups based on the shear envelope using the approximate procedure discussed in class. Note that for the overhangs the maximum shear at the support is induced by placing dead and live loads throughout the cantilever portion. Satisfy all strength and spacing requirements specified...
Please answer question 1 thank you
Reinforced Concrete HW
18%20(2).pdf CEE433- Homework Assignment 9 Assigned: 12 April 2018 Due: 19 April 2018 1. Design the shear reinforcement (vertical stirrups) for the beam shown in the figure. Design stirrups based on the shear envelope using the approximate procedure discussed in class. Note that for the overhangs the maximum shear at the support is induced by placing dead and live loads throughout the cantilever portion. Satisfy all strength and spacing requirements specified...
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