Question

In: Civil Engineering

A 400 mm concrete wall supports a dead load of 280 KN/m and a live load...

A 400 mm concrete wall supports a dead load of 280 KN/m and a live load of 230 KN. The allowable bearing pressure is 230 KN/m2 and the level of the bottom of the footing is 1.5 m below the ground surface. Assume concrete weighs 24 KN/m3, that of soil is 15.74 KN/m3, fc’ = 20.7 Mpa, fy = 248 MPa,. Use 25 mm diameter reinforcing bars. Thickness of footing = 500 mm and concrete cover is 75 mm. Calculate the:

(a) effective soil pressure,

(b) width of wall footing, and

(c) spacing of bars at critical section.

Solutions

Expert Solution

                                                       

                        

    


Related Solutions

A 400 mm concrete wall supports a dead load of 280 KN/m and a live load...
A 400 mm concrete wall supports a dead load of 280 KN/m and a live load of 230 KN. The allowable bearing pressure is 230 KN/m2 and the level of the bottom of the footing is 1.5 m below the ground surface. Assume concrete weighs 24 KN/m3, that of soil is 15.74 KN/m3, fc’ = 20.7 Mpa, fy = 248 MPa,. Use 25 mm diameter reinforcing bars. Thickness of footing = 500 mm and concrete cover is 75 mm. Calculate...
A 400 mm concrete wall supports a dead load of 280 KN/m and a live load...
A 400 mm concrete wall supports a dead load of 280 KN/m and a live load of 230 KN. The allowable bearing pressure is 230 KN/m2 and the level of the bottom of the footing is 1.5 m below the ground surface. Assume concrete weighs 24 KN/m3, that of soil is 15.74 KN/m3, fc’ = 20.7 Mpa, fy = 248 MPa,. Use 25 mm diameter reinforcing bars. Thickness of footing = 500 mm and concrete cover is 75 mm. Calculate...
A wall footing is to support a 400 mm wide reinforced concrete wall with a dead...
A wall footing is to support a 400 mm wide reinforced concrete wall with a dead load of 270 KN/m and a live load of 210 KN/m. The bottom of the footing is 1.50 m below the final grade. Assume the soil weighs 15.78 KN/m3 and the allowable soil pressure is 190 Kpa. Use 75 mm as concrete cover, fc’ is 28 Mpa, fy is 415 Mpa, and concrete weights 23.5 KN/m3. Compute the: Width and depth of footing Spacing...
Design a plain concrete footing for a 400 mm reinforced concrete wall that supports a DL...
Design a plain concrete footing for a 400 mm reinforced concrete wall that supports a DL = 185 KN/m and 95 KN/m live load. The base of the footing is to be 1.2 m below the final grade. fc’ = 20.7 Mpa and allowable soil pressure is 200 Kpa, weight of soil is 15.82 KN/m3. (ACI)
A long footing supports a wall carrying a load of 260 kN per m. The soil...
A long footing supports a wall carrying a load of 260 kN per m. The soil at the site is saturated clay having a undrained shear strength of 117 kPa. The unit weight of the clay is 22 kN/m³ and it is suspected that occasionally the water table rises to the ground surface. What width in m (1 dp) of footing should be used if a minimum factor of safety of 2.4 is required? The footing depth is 1.2 m
A 450 mm × 650 mm column supports factored axial load of 2500 kN centered in...
A 450 mm × 650 mm column supports factored axial load of 2500 kN centered in single footing. After assuming the depth and density of soil above footing, assume the required depth of footing [10 marks]. a) Check depth due to two-way shear b) Check depth due to one-way shear action c) Calculate the bending moment and steel reinforcement e) Determine development length of dowels d) Check bearing stress e) Determine development length of dowels
A simply supported flanged beam subjected to a factored load of 60 kN/m (including dead load...
A simply supported flanged beam subjected to a factored load of 60 kN/m (including dead load and live load). The beam has an overall depth of 600 mm including slab thickness of 100 mm. The width of the beam is 230 mm, effective span of the beam is 6.25 m and effective cover to the tension reinforcement is 50 mm. Assume M25 grade concrete and Fe415 steel. Check whether the beam needs to be designed as singly reinforced or doubly...
Design a RC wall of 4.6m height to support a factored load of 650 KN/m and...
Design a RC wall of 4.6m height to support a factored load of 650 KN/m and factored moment of 30 KNm at right angles to the length of wall. The distance between cross wall is 4m. Sketch the reinforcement details.
Design a wall footing to support a 30cm − wide reinforced concrete wall with a dead...
Design a wall footing to support a 30cm − wide reinforced concrete wall with a dead load DL =293 KN/m and a live load LL = 218 KN/m. The bottom of the footing is to be 1. 2m below the final grade, the soil weighs 16 KN m3 ⁄ , the allowable soil pressure, qa = 192 KN m2 ⁄ , and there is no appreciable sulfur content in the soil. fy = 420MPa and fc′ = 21MPa, normal- weight...
Determine the maximum live load that a column W14x193 could support if the dead load is...
Determine the maximum live load that a column W14x193 could support if the dead load is ten times the live load. Use A-36 with K=1 and L=22 ft.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT